STAND-OFF CONSTRUCTION FOR VACUUM INSULATED GLASS

A stand-off is necessary to separate two glass lites (panes of glass) in a vacuum insulated glazing system. This stand-off must provide sufficient mechanical support to keep the lites apart despite one atmosphere pressure pushing the lites together. For systems that are designed with flexible edge seals, there will be movement of one lite relative to the other during diurnal cycling, and the stand-offs will therefore be scraped against at least one of the lite surfaces. Because many mechanically robust materials suitable for stand-offs have high friction, it is beneficial to apply a lubricant to the surface of the stand-off. However, it is also beneficial to adhere the stand-off to one lite during the manufacturing operation, and this need opposes the need for good lubricity. This invention describes means for optimizing the composition of a stand-off to meet these conflicting needs. 1. A vacuum insulated glass unit comprising:a first glass sheet having an inner surface and an outer surface;a second glass sheet having an inner surface and an outer surface, the inner surface of the second glass sheet being disposed substantially parallel to, but spaced apart from, the inner surface of the first glass sheet so as to define a cavity therebetween; anda plurality of stand-offs disposed in the cavity, the plurality of stand-offs being formed from material having a bulk compressive yield strength, each stand-off having a first contact surface in contact with the inner surface of the first glass sheet and a second contact surface in contact with the inner surface of the second glass sheet;wherein at least one of the first and second contact surfaces of each stand-off includes a low-friction coating layer.2. A vacuum insulated glass unit in accordance with claim 1 , wherein the material of the plurality of stand-offs has a bulk compressive yield strength within the range from 300 MPa to 900 MPa.3. A vacuum insulated glass unit in accordance with claim 2 , wherein the ...

METHODS OF TRANSFERRING PILLARS FROM PILLAR DELIVERY FILMS

Pillar delivery films for vacuum insulated glass units are disclosed. The delivery films include a support film or pocket tape, a sacrificial material on the support film, and a plurality of pillars. The pillars are at least partially embedded in the sacrificial material or formed within sacrificial material molds, and the sacrificial material is capable of being removed while leaving the pillars substantially intact. Methods of transferring pillars to a substrate using the pillar delivery films are disclosed. In order to make an insulated glass unit, the delivery films are laminated to a receptor such as a glass pane, and the support film and sacrificial material are removed to leave the pillars remaining on the glass. 1. A method for making a delivery film having pillars and transferring the pillars to a receptor surface , comprising:providing a support film with a releasable surface;molding a plurality of pillars on the releasable surface of support film using a mold applied to the releasable surface;removing the mold from the releasable surface while leaving the pillars substantially intact on releasable surface; andtransferring the pillars from the support film to a receptor surface.2. The method of claim 1 , wherein the transferring step comprises:laminating the support film to the receptor surface with the pillars facing the receptor surface; andremoving the support film while leaving the pillars on the receptor surface.3. The method of claim 1 , wherein the transferring step comprises mechanically transferring the pillars to the receptor surface.4. The method of claim 1 , wherein the removing step comprises removing a sacrificial material as the mold from the releasable surface of the support film. Windows are poor thermal insulators and contribute significantly to building heat loss and energy inefficiency. The need to meet green building standards is driving the adoption of energy efficient insulated glass units including vacuum designs. A vacuum insulated ...

Filling and sealing device and method for an insulated glass unit

Methods for manufacturing insulating glass units (IGUs) include providing an unsealed IGU assembly that has first and second sheets of glass material and at least one spacer frame between the first and second sheets and sealed to at least one of the first and second sheets. The unsealed IGU assembly defines an interpane space and an IGU passage providing fluid communication between the interpane space and an environment external to the interpane space. In some cases the method includes positioning a filling device next to the IGU passage and introducing a gas into the interpane space through the IGU passage using the filling device. In some cases the method includes delivering a sealing material or sealing structure to the IGU passage with the filling device to seal the interpane space. Corresponding systems for manufacturing IGUs are also provided.

ASSEMBLY EQUIPMENT LINE AND METHOD FOR WINDOWS

The technology disclosed herein generally relate to assembly equipment for window units. In one embodiment, a window unit assembly system is taught that has a frame component that is configured to support equipment for a window unit assembly line. A pane conveyor is supported by the frame component and is configured to move panes along the window unit assembly line. A spacer conveyor is supported by the same frame component as the pane conveyor and is configured to move spacer elements along the window unit assembly line. 1. A window unit assembly system comprising:a frame component configured to support equipment for a window unit assembly line;a pane conveyor configured to move panes along the window unit assembly line, wherein the pane conveyor is supported by the frame component;a spacer conveyor configured to move spacer elements along the window unit assembly line, wherein the spacer conveyor is supported by the same frame component as the pane conveyor.2. The system of wherein the spacer conveyor is located below the pane conveyor on the frame component.3. The system of wherein:the pane conveyor is configured to move panes along the window unit assembly system in a first direction;the spacer conveyor is configured to move spacer elements along the window unit assembly system in a second, opposite direction.4. The system of wherein the second direction is about 180 degrees from the first direction.5. The system of further comprising a storage spool including a length of a spacer.6. The system of further comprising an extruder station for applying sealant to sides of a spacer claim 1 , wherein the extruder station is supported on an extruder station frame element claim 1 , wherein a pane conveyor and a spacer conveyor are also supported on the extruder station frame element.7. The system of further comprisinga punch station adapted to cut the spacer to a desired length and to score the spacer at defined corner locations;a sealant extruder adapted to apply ...

GRIPPING DEVICE AND PROCESS FOR MANUFACTURING AN INSULATING GLAZING UNIT

A gripping device is configured to hold an insulating glazing subassembly including a spacer frame and at least one central glass sheet received in an internal peripheral groove of the spacer frame. The gripping device includes, on the one hand, members for gripping the spacer frame and, on the other hand, members for gripping the central glass sheet so as to ensure an independent gripping of the spacer frame and of the central glass sheet while allowing a relative movement of one with respect to the other. 1. A gripping device , configured to hold an insulating glazing subassembly comprising a spacer frame and at least one central glass sheet received in an internal peripheral groove of the spacer frame , the gripping device comprising , on the one hand , members for gripping the spacer frame and , on the other hand , members for gripping the central glass sheet so as to ensure an independent gripping of the spacer frame and of the central glass sheet while allowing a relative movement of one with respect to the other.2. The gripping device as claimed in claim 1 , wherein each member for gripping the spacer frame is mounted on a retractable arm so as to free up access to the periphery of the spacer frame.3. The gripping device as claimed in claim 1 , wherein each member for gripping the spacer frame is borne by a frame of the gripping device.4. The gripping device as claimed in claim 3 , comprising a bearing element in the vicinity of each member for gripping the spacer frame claim 3 , the bearing element being intended to create a point for bearing against a side wall of the spacer frame so as to limit a movement of the spacer frame in a direction of the frame of the gripping device.5. The gripping device as claimed in claim 4 , wherein each bearing element is suitable for not degrading a seal optionally present on the side wall of the spacer frame that it supports.6. The gripping device as claimed in claim 1 , each member for gripping the central glass sheet is ...

GLASS PANEL UNIT

The glass panel unit includes a first glass panel, a second glass panel, a seal, an evacuated space, and a spacer. The second glass panel is placed opposite the first glass panel. The seal with a frame shape hermetically bonds the first glass panel and the second glass panel to each other. The evacuated space is enclosed by the first glass panel, the second glass panel, and the seal. The spacer is placed between the first glass panel and the second glass panel. The spacer includes a stack of two or more films including at least one resin film. 1. A glass panel unit comprising:a first glass panel;a second glass panel placed opposite the first glass panel;a seal with a frame shape hermetically bonding the first glass panel and the second glass panel to each other;an evacuated space enclosed by the first glass panel, the second glass panel, and the seal; andat least one spacer placed between the first glass panel and the second glass panel,the at least one spacer including a stack, one or more bonding layers; and', 'two or more films including at least one or two resin films,, 'the stack includingthe two or more films being bonded to each other with the one or more bonding layers, andthe two or more films being in the same shape with each other.2. The glass panel unit of claim 1 , wherein:the at least one spacer includes two resin films, andthe two resin films of the stack are adjacent to the first glass panel and the second glass panel, respectively.3. The glass panel unit of claim 1 , whereinthe at least one or two resin films are polyimide films.4. The glass panel unit of claim 1 , whereinthe at least one spacer contains at least one material selected from glass, metal, ceramic, and graphite.5. The glass panel unit of claim 1 , whereinthe two or more films are bonded to each other with polyamide acid.6. The glass panel unit of claim 1 , whereinthe one or more bonding layers are thinner than each of the two or more films.7. The glass panel unit of claim 1 , ...

METHODS OF TRANSFERRING PILLARS FROM PILLAR DELIVERY FILMS

Pillar delivery films for vacuum insulated glass units are disclosed. The delivery films include a support film or pocket tape, a sacrificial material on the support film, and a plurality of pillars. The pillars are at least partially embedded in the sacrificial material or formed within sacrificial material molds, and the sacrificial material is capable of being removed while leaving the pillars substantially intact. Methods of transferring pillars to a substrate using the pillar delivery films are disclosed. In order to make an insulated glass unit, the delivery films are laminated to a receptor such as a glass pane, and the support film and sacrificial material are removed to leave the pillars remaining on the glass. 1. A method for transferring pillars from a delivery film to a receptor surface , comprising:providing a delivery film having a support film, a sacrificial material layer on the support film, and a plurality of pillars, wherein each pillar is at least partially embedded within the sacrificial material layer;laminating the delivery film to a receptor surface with the pillars facing the receptor surface;removing the support film while leaving the pillars on the receptor surface and at least a portion of the sacrificial material on the pillars; andremoving the sacrificial material while leaving the pillars remaining and substantially intact on the receptor surface.2. The method of claim 1 , wherein the providing step includes:forming the pillars on the support film from an uncured pillar material; andcuring the pillar material.3. The method of claim 1 , wherein the providing step includes forming the pillars within a mold composed of the sacrificial material.4. The method of claim 1 , wherein the providing step includes forming the pillars within pockets formed within the support film.5. The method of claim 1 , wherein the providing step further comprises:applying an adhesive to an exposed surface of the pillars; andcuring the adhesive.6. The method of ...

Manufacturing method of glass panel unit and manufacturing method of glass window

A manufacturing method of a glass panel unit includes an adhesive disposing step, a pillar disposition step of disposing a plurality of pillars on the first panel. Each of the plurality of pillars includes a plurality of resin layers to stacked on one another. In each of the plurality of pillars, a contact area being in contact with the first panel and being included in the resin layer which is in contact with the first panel is different from a contact area being in contact with the second panel and being included in the resin layer which is in contact with the second panel.

DOSAGE DEVICE FOR CONTINUOUSLY EXTRUDING AND APPLYING A SPACER PROFILE OF AN INSULATING GLAZING UNIT

A dosage device for extruding a monocomponent or a bicomponent polymeric product, particularly for an automatic machine for forming a spacer frame, includes a first dosage assembly and a separate second dosage assembly for the dosage and feeding of the product, which can be activated, in a first feeding step and in a third feeding step, alternately so that one of them provides continuity of flow to an extrusion nozzle while the other one is in the reloading step. The first and second dosage assemblies are activated, in a second swapping step that is intermediate with respect to the first and third feeding steps, simultaneously and jointly, one of them having a flow-rate ramp that passes from the steady-state value to zero and the other one complementarily having a flow-rate ramp that passes from zero to the steady-state value. 1. A dosage device for extruding a monocomponent or bicomponent polymeric product , for an automatic machine for forming a spacer frame , comprising a first dosage assembly and a separate second dosage assembly for the dosage and feeding of said product , which can be activated , in a first feeding step and in a third feeding step , alternately so that one of them provides continuity of flow to an extrusion nozzle while the other one is in the reloading step , said first and second dosage assemblies being activatable , in a second swapping step that is intermediate with respect to said first and third feeding steps , simultaneously and jointly , one of them having a flow-rate ramp that passes from the steady-state value to zero and the other one complementarily having a flow-rate ramp that passes from zero to the steady-state value.2. The dosage device according to claim 1 , wherein if a monocomponent product is used claim 1 , each one of said first and second dosage assemblies doses and feeds only a base product in a synchronous electrical tie.3. The dosage device according to claim 1 , wherein if a bicomponent product is used claim 1 , each ...

PLUG CONNECTOR

A plug connector for connecting a first spacer and a second spacer for a triple insulating glazing unit, includes a main body and a first and a second section. The first section of the main body and/or the second section of the main body is movable around a specified axis of the main body. 1. A plug connector for connecting a first spacer and a second spacer for a triple insulating glazing unit , the plug connector comprising a main body;a first leg arranged on a first section of the main body, which first leg is insertable into a hollow chamber of the first spacer, wherein the first leg is arranged substantially perpendicular to a surface of the first section; anda second leg arranged on a second section of the main body, which second leg is insertable into a hollow chamber of the second spacer, wherein the second leg is arranged substantially perpendicular to a surface of the second section of the main body, wherein the first section of the main body and/or the second section of the main body is movable around a specified axis of the main body.2. The plug connector according to claim 1 , wherein the main body is implemented such that the first section of the main body and/or the second section of the main body is bendable or foldable around a longitudinal axis of the main body.3. The plug connector according to claim 1 , wherein the main body is arranged in a pre-assembly position of the plug connector such that the first leg arranged on the first section of the main body and the second leg arranged on the second section of the main body are arranged substantially parallel to one another claim 1 , and wherein the main body is arranged in an assembly position of the plug connector such that the first leg arranged on the first section of the main body and the second leg arranged on the second section of the main body are arranged substantially perpendicular to one another.4. The plug connector according to claim 1 , further comprising a third leg arranged on the ...

INSULATING GLAZING WITH THERMAL PROTECTION INSULATING PANEL

A sound-damped insulating glazing is described. The glazing has a first pane and a second pane, a peripheral spacer between the first pane and the second pane, an externally encircling seal in a gap between the first pane, the peripheral spacer and the second pane, a vacuum insulating panel between the first pane, the second pane and the peripheral spacer, and at least one acoustic insulating plate is arranged on at least one surface of the vacuum insulating panel. 1. A sound-damped insulating glazing comprising at least:a first pane and a second pane;a peripheral spacer between the first pane and the second pane;an externally encircling seal in a gap between the first pane, the peripheral spacer and the second pane;at least one vacuum insulating panel between the first pane, the second pane and the peripheral spacer; andat least one acoustic insulating plate is arranged on at least one surface of the at least one vacuum insulating panel.2. The insulating glazing according to claim 1 , wherein the at least one vacuum insulating panel comprises two or more vacuum insulating panels.3. The insulating glazing according to claim 2 , wherein an acoustic dividing plate is arranged between the two or more vacuum insulating panels.4. The insulating glazing according to claim 1 , wherein the at least one acoustic insulating plate is arranged between the second pane and the vacuum insulating panel and/or between the peripheral spacer and the at least one vacuum insulating panel.5. The insulating glazing according to claim 1 , wherein the at least one acoustic insulating plate has a thickness between 0.5 mm to 5 mm.6. The insulating glazing according to claim 3 , wherein the at least one acoustic insulating plate and/or the acoustic dividing plate contain:thermoplastic, elastic, or duroplastic polymer foams, ori) polyurethanes, ii) polyethylene, iii) polyvinyl chloride, iv) melamine resin, v) soft polyurethane foam (PUR) and/or hard PUR, mixtures of i)-v) or copolymers of i)-v ...

HIGH SURFACE ENERGY WINDOW SPACER ASSEMBLIES

Embodiments herein relate to window spacer assemblies including surfaces with relatively high surface energy. In an embodiment, a window spacer assembly is included. The window spacer assembly including a spacer body having an inner surface, an outer surface, and lateral surfaces. The window spacer assembly further includes a first sealant disposed on the lateral surfaces. Portions of the window spacer assembly such as an outer surface or lateral surface of the spacer body and/or a moisture vapor barrier layer disposed over the outer surface can be treated to have a higher surface energy. Other embodiments are also included herein. 1. A window spacer assembly comprising:a spacer body having an inner surface, outer surface, and lateral surfaces;a first sealant disposed on the lateral surfaces; anda moisture vapor barrier layer disposed over the outer surface, the moisture vapor barrier layer having an inner surface and an outer surface;wherein the outer surface of the moisture vapor barrier layer has a different surface energy than the inner surface.2. The window spacer assembly of claim 1 , wherein the outer surface of the moisture vapor barrier layer has a surface energy (dyn/cm) that is higher than the surface energy of the inner surface.3. The window spacer assembly of claim 1 , wherein the surface energy of the outer surface is greater than 32 dyn/cm.4. (canceled)5. The window spacer assembly of claim 1 , wherein the surface energy of the outer surface is greater than 60 dyn/cm.6. The window spacer assembly of claim 1 , wherein the outer surface includes oxidized groups at a greater concentration than the inner surface.7. The window spacer assembly of claim 1 , the spacer body comprising a deformable polymer.89-. (canceled)10. The window spacer assembly of claim 1 , the moisture vapor barrier layer having a width claim 1 , the moisture vapor barrier comprising different materials across its width.11. The window spacer assembly of claim 1 , the moisture vapor ...

VACUUM GLAZING PILLARS DELIVERY FILMS AND METHODS FOR INSULATED GLASS UNITS

Pillar delivery films for vacuum insulated glass units. The delivery films include a support film or pocket tape, a sacrificial material on the support film, and a plurality of pillars. The pillars are at least partially embedded in the sacrificial material or formed within sacrificial material molds, and the sacrificial material is capable of being removed while leaving the pillars substantially intact. In order to make an insulated glass unit, the delivery films are laminated to a receptor such as a glass pane, and the support film and sacrificial material are removed to leave the pillars remaining on the glass. 1. A pillar delivery film , comprising:a support film;a sacrificial material layer on the support film; anda plurality of pillars, wherein each pillar is at least partially embedded in the sacrificial material layer,wherein the sacrificial material layer is capable of being removed from the pillars while leaving the pillars substantially intact.2. The delivery film of claim 1 , wherein the sacrificial material layer is a thermoplastic or thermoset material.3. The delivery film of claim 1 , wherein the sacrificial material layer is discontinuous and in discrete regions around the pillars.4. The delivery film of claim 1 , wherein the sacrificial material layer is a continuous layer on the support film.5. The delivery film of claim 1 , wherein the pillars are comprised of sintered ceramic bodies.6. The delivery film of claim 1 , further comprising an edge seal on the support film and surrounding the pillars.7. The delivery film of claim 1 , further comprising a functional coating on a surface of the pillars.8. The delivery film of claim 7 , wherein the functional coating comprises an adhesive.9. A pillar delivery film claim 7 , comprising:a support film;a plurality of molds on the support film, wherein the molds are composed of a sacrificial material; anda plurality of pillars located in the molds,wherein the sacrificial material of the molds is capable of ...

WINDOW SPACER FRAME PUNCH ASSEMBLY

An apparatus and method is provided for forming a spacer frame assembly used in the construction of insulating glass unit windows. The apparatus comprises a head arrangement having a body with first and second ends, the first end for coupling to a cylinder that advances and retracts the head arrangement in a reciprocating motion during operation. The second end includes an annular wedge-shaped ridge for coupling to a second annular wedge-shaped ridge of a die support, collectively the wedge-shaped ridge and second wedge-shaped ridge form a contact region to form a torus surface. The die support has at least one die for engaging a spacer frame assembly during operation. The apparatus further comprises a collar having a torus-shaped recess corresponding with the torus surface to nest and couple the body to the die support. 1. An apparatus for fabricating a spacer frame used in the construction of insulating glass unit windows , the apparatus comprising:a head arrangement having a body with first and second ends, the first end for coupling to a cylinder that advances and retracts the head arrangement in a reciprocating motion during operation;an annular die support having a second annular wedge-shaped ridge for coupling to an annular wedge-shaped ridge of the second end of the head arrangement, collectively the wedge-shaped ridge and the second annular wedge-shaped ridge form a contact region comprising an annular torus surface, the die support for supporting at least one die for back and forth movement in response to movement of said cylinder, the die support having the at least one die for engaging the spacer frame during operation; anda collar having an annular torus-shaped recess corresponding with a shape and a profile of the annular torus surface to nest and couple said body to said die support.2. The apparatus of claim 1 , wherein the collar comprises a first portion and a second portion coupled together by one or more fasteners.3. The apparatus of claim 2 , ...

INSULATED GLAZING COMPRISING A SPACER, AND PRODUCTION METHOD

An insulating glazing unit having a first pane, a second pane, a third pane arranged between the first pane and the second pane, an outer pane interspace, an inner pane interspace, and a spacer is described. The spacer having a plastic profile with a first glazing interior surface and a second glazing interior surface, a first pane contact surface, a second pane contact surface, a primary sealing means, and a main member containing a sealing material and a drying material. The plastic profile includes a groove, into which the third pane is inserted and which runs parallel to the first pane contact surface and to the second pane contact surface. The plastic profile separates the outer pane interspace from the inner pane interspace. The main member is arranged in the outer pane interspace between the plastic profile and the primary sealing means, the main member being adjacent the plastic profile and the primary sealing means. 115.-. (canceled)16. An insulating glazing unit comprising:a first pane;a second pane;a third pane arranged between the first pane and the second pane;an outer pane interspace;an inner pane interspace; and a plastic profile with a first glazing interior surface and a second glazing interior surface;', 'a first pane contact surface;', 'a second pane contact surface;', 'a primary sealing means; and', 'a main member containing at least one sealing material and at least one dry material,, 'a spacer comprisingwherein:the plastic profile comprises a groove into which the third pane is inserted and which runs parallel to the first pane contact surface and to the second pane contact surface,the plastic profile separates the outer pane interspace from the inner pane interspace, andthe main member is arranged in the outer pane interspace between the plastic profile and the primary sealing means and adjacent the plastic profile and the primary sealing means.17. The insulating glazing unit according to claim 16 , wherein the groove comprises an insert claim ...

Window component stock indexing

A stock supply station for use in a insulated glass unit component production line includes a plurality of rotatable sheet stock coils, an indexing mechanism, and an uncoiling mechanism. The indexing mechanism is coupled to the sheet stock coils for indexing a selected one of the sheet stock coils to an uncoiling position. The uncoiling mechanism selectively uncoils sheet stock from a sheet stock coil indexed to the uncoiling position to thereby provide sheet stock to a downstream processing station.

Automated spacer frame fabrication and method

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in an repeatable, straightforward manner. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated front succeeding material still passing through the notching and bending station.

METHOD AND APPARATUS FOR VACUUM INSULATED GLAZINGS

A vacuum insulated glazing can be manufactured using a variety of methods. In one embodiment, a glass substrate is patterned and etched to form recesses in the surface of the glass substrate. The recesses or etched areas form a chamber when the glass substrate is bonded to another glass substrate. In another embodiment, nanoparticles and/or microparticles that absorb laser light are positioned between two glass substrates and heated to bond the glass substrates together. In another embodiment, a tempered glass substrate is bonded to another glass substrate to form a chamber between the substrates. The curved edges of the tempered glass are removed to produce a flat vacuum insulated glazing. 1. A method of making a vacuum insulated glazing comprising:forming a mask on a surface of a first glass substrate;etching the surface of the first glass substrate not covered by the mask to form an etched area on the surface of the first glass substrate;bonding the first glass substrate to a second glass substrate, the etched area forming a chamber between the first glass substrate and the second glass substrate; andevacuating the chamber between the first glass substrate and the second glass substrate; wherein the chamber is hermetically sealed and the vacuum insulated glazing is optically transparent.2. The method of wherein the mask comprises photoresist.3. The method of comprising exposing the photoresist to ultraviolet light through a photomask to define a pattern on the photoresist.4. The method of comprising removing the photoresist after etching the surface of the first glass substrate.5. The method of wherein the mask comprises an etchant resistant tape.6. The method of wherein the etchant resistant tape comprises acid resistant tape.7. The method of wherein etching the surface of the first glass substrate comprises chemically etching the surface of the first glass substrate.8. The method of wherein the first glass substrate is bonded to the second glass substrate using ...

CORNER CONNECTOR FOR INSULATING GLAZING UNITS

A corner connector for hollow-profile spacers of insulating glazing units is presented. The corner connector includes first and second legs, connected via a corner region, that include respective leg inner sides, leg outer sides, end faces, and a plurality of side faces. According to one aspect, the leg inner sides, the leg outer sides, and/or the side faces include at least one retaining element; the leg inner sides provide respective inner bearing faces having: inner regions adjacent the corner region, and outer regions adjacent the inner regions and the end faces. The inner bearing face of at least one of the leg inner sides has, in its inner region, a positive gradient starting from the corner region in the direction of its end face. 110.-. (canceled)11. A corner connector for hollow-profile spacers of insulating glazing units , the corner connector comprising: one or more of the leg inner sides, the leg outer sides, and the plurality of side faces comprises at least one retaining element,', 'the leg inner sides provide respective inner bearing faces,', 'the inner bearing faces have respective inner regions adjacent the corner region,', 'the inner bearing faces have respective outer regions adjacent the respective inner regions and respective end faces,', 'the inner bearing face of at least one of the leg inner sides has, in the respective inner region, a positive gradient starting from the corner region in a direction of the respective end face,', 'the leg inner sides have retaining elements that form the respective inner bearing faces, and', 'the retaining elements on the leg inner sides comprise fins, whose length decrease from the respective end faces in a direction of the corner region., 'a first leg and a second leg that are connected via a corner region, the first leg and second leg comprising respective leg inner sides, leg outer sides, end faces and a plurality of side faces, wherein12. The corner connector according to claim 11 , wherein at least one ...

METHOD FOR MANUFACTURING VACUUM INSULATION GLASS PANEL AND DEVICE FOR CLOSING SEALING CAP

Provided are a method for manufacturing a vacuum insulation glass panel and a device for closing a sealing cap, the method and the device being for exhausting air between two glass panels and sealing the same. The method for manufacturing a vacuum insulation glass panel, according to the present invention, heats the glass solder applied on the sealing cap before being put into a vacuum chamber, and then presses, by the operation of the elevating device, the sealing cap put into the vacuum chamber so as to join the sealing cap around the exhaust hole. The holder having the sealing cap is mounted in the clamping unit, and then the clamping unit is clamped to the glass panel assembly, thereby enabling the exhaust hole to be accurately closed with the sealing cap. 1. A vacuum insulation glass panel sealing cap closing apparatus , comprising:a clamping unit clamped to an edge of a glass panel assembly at a position adjacent to an exhaust hole formed in one edge of a lower surface of the glass panel assembly, the clamping unit having a guide hole formed so as to be aligned with the exhaust hole;a holder mounted in the guide hole so as to move along the guide hole and configured to hold a sealing cap to which a glass solder for closing the exhaust hole is applied; andan elevating means for moving the holder along the guide hole so as to press the sealing cap against a periphery of the exhaust hole so that the exhaust hole is closed by the sealing cap.2. The apparatus of claim 1 , wherein the clamping unit includes:an upper plate disposed above the glass panel assembly;a lower plate disposed below the glass panel assembly and having the guide hole formed therein; anda clamping screw fastened to the upper plate so as to support and clamp an upper surface of the glass panel assembly and having a food coupled to a lower end of the glass panel assembly so as to make contact with the upper surface of the glass panel assembly.3. The apparatus of claim 2 , further comprising:an ...

WINDOW UNIT ASSEMBLY STATION AND METHOD

An insulated glass unit (IGU) assembly station can include an assembly table, a conveyor assembly, and a projection component. The assembly table can have a table surface configured to receive first and second transparent window components, the table surface being positioned at an incline relative to a vertical position. The conveyor assembly can be configured to translate the first and second transparent window components along a translation pathway from a first end of the table surface to a second end of the table surface, the translation pathway being substantially parallel to the table surface. The projection component can be adjacent to the assembly table and can be configured to engage the first transparent window component to translate at least a bottom portion of the first transparent window component between an initial position and a first assembly position offset from the translation pathway. 115-. (canceled)16. A method of assembling an insulated glass unit (IGU) , the method comprising:receiving first and second transparent window components at a table surface of an assembly station, the table surface being positioned at an incline relative to a vertical position;translating the first and second transparent window components along a conveyor assembly that defines a translation pathway from a first end of the table surface to a second end of the table surface, the translation pathway being substantially parallel to the table surface;engaging the first transparent window component with a projection component that movably translates back and forth substantially perpendicular to the table surface to movably offset the conveyor assembly;translating at least a bottom portion of the first transparent window component with the projection component between an initial position and a first assembly position offset from the translation pathway; andbringing the first transparent window component from the first assembly position into contact with the second ...

INSULATING GLASS UNIT PLUG AND INSTALLATION METHOD

A threaded insulating glass unit plug for sealing an aperture in a spacer frame of an insulating glass unit, method of assembly and installation is provided. The threaded insulating glass unit plug includes a head integrally formed with threaded body. The head has a recess formed for engaging a tool for installation during use. The body includes a cylindrical portion and a conical portion, the cylindrical portion spacing the conical portion from the head. A plurality of threads extend along the entire length of cylindrical portion. 1. A threaded insulating glass unit plug for sealing an aperture in a spacer frame of an insulating glass unit , the threaded insulating glass unit plug comprising:a head integrally formed with threaded body, the head having a recess formed for engaging a tool for installation during use;the body having a cylindrical portion and a conical portion, the cylindrical portion spacing the conical portion from the head; anda plurality of threads that extend along the entire length of cylindrical portion to engage a backside of said head and at least one annular thread extending around a portion of the conical portion.2. The threaded insulating glass unit plug of further comprising a ratio of head thickness to minor diameter of said body to not exceed seventeen (17%) percent.3. The threaded insulating glass unit plug of wherein a ratio of a depth of said recess to a material thickness of said head ranges between ninety (90%) and one-hundred (100%) percent.4. The threaded insulating glass unit plug of wherein said recess is a hexobular recess for receiving a tool during installation into a spacer frame of an insulating glass unit.5. The threaded insulating glass unit plug of wherein the hexobular recess comprises inner lobes and outer lobes claim 4 , wherein the inner lobe defines an inner diameter and the outer lobes define an outer diameter claim 4 , the outer diameter is greater than the inner diameter claim 4 , and further wherein a ratio of ...

METHOD AND SYSTEM FOR MANUFACTURING A SPACER FOR TRANSLUCENT PANELS

A spacer () and method of producing a flexible thermoset polymer spacer body; without the use of a traditional energy intensive extrusion, heat curing, and heat baking process; by using a two component polymer; one component carrying a desiccant powder, and the other component being the catalyst for cure. 1. A flexible thermoset polymer spacer comprising a two component polymer; one component carrying a desiccant powder , and the other component being the catalyst for cure.2. The spacer of wherein the polymer further comprises a polyurethane.3. The spacer of wherein the polyurethane material further comprises:a reaction product of one or more di- or polyisocyanates and one or more di- or polyols, wherein a ratio of an amount of the one or more di- or polyisocyanates to an amount of the one or more di- or polyols ranges from 1:3 to 1:4, based on the combined weight of the one or more di- or polyisocyanates and one or more di- or polyols;a desiccant; andoptionally one or more plasticizers, one or more UV absorbers and/or blockers, one or more adhesion promoters, one or more pigments, or a combination thereof.4. The spacer of wherein the two component thermoset polymer is mixed and cast directly onto a vapor barrier web of corrugated sheet material.5. The spacer of where the two component thermoset polymer is mixed and cast directly onto a non-metal multi-layer vapor barrier web.6. The spacer of wherein side edges of the vapor barrier web are turned up to form lipped edges for containing the mixed polymer material to fill to a consistent desired thickness level before cure.7. The spacer of claim 4 , wherein the continuous cast material has final cure assistance through the addition of modular radiant heat equipment from above.810-. (canceled)11. A system for manufacturing an insulating spacer for assembling spaced apart translucent panels and forming an insulated panel assembly claim 4 , the system comprising:an extruder configured to form an extrudate;a vapor barrier ...

GLASS PANEL UNIT

The glass panel unit includes a first glass panel, a second glass panel, a seal, an evacuated space, and a spacer. The second glass panel is placed opposite the first glass panel. The seal with a frame shape hermetically bonds the first glass panel and the second glass panel to each other. The evacuated space is enclosed by the first glass panel, the second glass panel, and the seal. The spacer is placed between the first glass panel and the second glass panel. The spacer includes a stack of two or more films including at least one resin film.

AUTOMATED SPACER FRAME FABRICATION AND METHOD

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in an repeatable, straightforward manner. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated from succeeding material still passing through the notching and bending station. 1. Apparatus for fabricating spacer frames from strip stock of different material for use in an insulating glass unit , said apparatus including multiple work stations for treating an elongated metal strip of said strip stock as the metal strip moves through successive work stations comprising:a) a punching station having a punch drive for moving a die into engagement with a flat surface of the metal strip at controlled locations along a length of said metal strip to form corner locations that facilitate bending of the metal strip into a closed multi-sided structure having an adjustable stop with multiple stop surfaces for limiting movement of the die to a controlled amount that depends on a type of material of the metal strip stock passing through the punching station;b) a forming station for forming a spacer frame having side walls to which an adhesive is applied during fabrication of an insulated glass unit;c) a severing station for separating a lead spacer frame from subsequent spacer frames after the lead frame has moved through the punching and forming stations; andd) a control station for adjusting energy transferred during engagement between the die and the metal strip at the punching station ...

AUTOMATED SPACER FRAME FABRICATION

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in an repeatable, straightforward manner. Better control over the notching process is also achieved by exhaust flow control of a double acting cylinder. A positioning spacer achieve very accurate side to side positioning of a die and anvil to precisely notch and deform the metal strip. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated from succeeding material still passing through the notching and bending station. 1. (canceled)2. (canceled)3. (canceled)4. (canceled)5. (canceled)6. (canceled)7. (canceled)8. (canceled)9. (canceled)10. (canceled)11. (canceled)12. (canceled)13. (canceled)14. (canceled)15. (canceled)16. (canceled)17. (canceled)18. (canceled)19. (canceled)20. (canceled)21. (canceled)22. (canceled)23. (canceled)24. (canceled)25. (canceled)26. (canceled)27. (canceled)28. (canceled)29. (canceled)30. (canceled)31. (canceled)32. (canceled)33. (canceled)34. (canceled)35. (canceled)36. (canceled)37. (canceled)38. (canceled)39. (canceled)40. (canceled)41. (canceled)42. (canceled)43. Apparatus for fabricating a spacer frame that forms part of an insulating glass unit comprising:a first source of a first elongated strip for fabricating spacer frames;a second source of a second elongated strip for fabricating spacer frames;a drive system for advancing the first and second elongated strips from the first and second sources along a travel path; anda corner forming station ...

PROCESS AND PLANT FOR MANUFACTURING AN INSULATING GLAZING UNIT

A process includes the assembling of an insulating glazing subassembly which includes a spacer frame and at least one central glass sheet, the spacer frame being formed of four profiles angularly assembled at their ends, where each profile has a groove for receiving one edge of the central glass sheet. The assembling of the insulating glazing subassembly includes successive steps wherein: the four edges of the central glass sheet are inserted into the grooves of the four profiles; the ends of the profiles are assembled by welding at each corner of the spacer frame without an alignment bracket, using the edges of the central glass sheet inserted in the grooves of the profiles as a frame of reference for guiding the profiles at each corner of the spacer frame into a configuration where their end faces are aligned by superposition in one and the same plane. 1. A process for manufacturing an insulating glazing unit , comprising assembling an insulating glazing subassembly which comprises a spacer frame and at least one central glass sheet , the spacer frame being formed of four profiles angularly assembled at their ends , where each profile has a groove for receiving one edge of the central glass sheet , wherein the assembling of the insulating glazing subassembly comprises successively:inserting the four edges of the central glass sheet into the grooves of the four profiles;assembling by welding the ends of the profiles at each corner of the spacer frame without an alignment bracket, using the edges of the central glass sheet inserted in the grooves of the profiles as a frame of reference for guiding the profiles at each corner of the spacer frame into a configuration where their end faces are aligned by superposition in one and the same plane.2. The process as claimed in claim 1 , wherein the ends of the profiles are assembled at each corner of the spacer frame by ultrasonic welding.3. The process as claimed in claim 2 , wherein claim 2 , at each corner of the spacer ...

SHEET FOR FORMING PILLAR FOR GLASS PANEL UNIT, PILLAR MOUNTING DEVICE FOR MANUFACTURING GLASS PANEL UNIT, GLASS PANEL UNIT MANUFACTURING METHOD, AND GLASS WINDOW MANUFACTURING METHOD

A glass panel unit manufacturing method includes a punching step and a pillar mounting step. In the punching step, a punch punches at least one of a plurality of portions from a base material of a sheet to form at least one pillar. Each of the plurality of portions is surrounded by a corresponding one of a plurality of loop-shaped grooves in the base material. In the pillar mounting step, the at least one pillar is mounted on a surface of a first substrate including a glass pane. 1. A glass panel unit manufacturing method , comprising:a punching step of preparing a punch and a sheet including a base material having a plurality of loop-shaped grooves, and punching at least one of a plurality of portions of the base material from the base material by the punch to form at least one pillar, each of the plurality of portions being surrounded by a corresponding one of the plurality of loop-shaped grooves;a pillar mounting step of mounting the at least one pillar on a surface of a first substrate including a glass pane; anda bonding step of bonding the first substrate and a second substrate including a glass pane together with a sealing member to form an inside space between the first substrate and the second substrate so that the at least one pillar is located in the inside space.2. The glass panel unit manufacturing method of claim 1 , whereinthe base material is made of a resin.3. The glass panel unit manufacturing method of claim 1 , whereinin the pillar mounting step, the punch mounts the at least one pillar on the surface of the first substrate.4. The glass panel unit manufacturing method of claim 3 , whereinin the punching step and the pillar mounting step, the sheet is located between the punch and the first substrate.5. The glass panel unit manufacturing method of claim 1 , whereinthe punch includes at least one suction pin,in the punching step, the at least one suction pin punches at least one of the plurality of portions from the base material to form the at ...

Method and device for manufacturing and applying a rigid spacer frame to an insulating glass

The present invention deals with integrating methods for manufacturing and applying a spacer frame to a glass plate, particularly in the circumstance of increased sizes thereof, of the rigid type, i.e. which profiles essentially are formed by a hollow body having cross section close to the rectangular, micro-perforated in the wall facing the chamber of the insulating glass, where at least the wall facing the outer cavity intended for the secondary sealant is made of solid metal material or with a metal liner, the remaining walls or all the walls being capable of being made of plastic or metal, e.g. aluminum or stainless steel. Certain innovative elements of the devices implementing such methods are also claimed. 1. Method for manufacturing an insulating glass provided with at least one glass plate and a rigid spacer frame , comprising the manufacture of the rigid spacer frame and the application of said rigid spacer frame to at least one glass plate , wherein the manufacture of the rigid spacer frame comprises the steps of:providing a template according to the size and shape of the rigid spacer frame,laying on the template of components making up the rigid spacer frame,{'b': '300', 'joining these components so as to obtain the finished spacer frame and locking on the template () of the spacer frame thus assembled,'}and wherein the application of said rigid spacer frame to at least one glass plate comprises:the transfer of the finished spacer template-frame assembly at the station of the insulating glass production line;the application of said spacer template-frame assembly to at least one glass plate,release and removal of the template from the spacer template-frame assembly.2. Method according to claim 1 , wherein during the laying phase on the template claim 1 , on appropriate housings of the template claim 1 , said frame components are pre-loaded with hygroscopic material and/or pre-coated with primary sealant.32. Method according to or claim 1 , wherein the ...

DOSING DEVICE FOR CONTINUOUS EXTRUSION AND THE APPLICATION OF A SPACER PROFILE OF AN INSULATING GLASS.

Spacer profile for a spacer frame for an insulating window unit and insulating window unit

창유리(51, 52) 사이의 개재 공간(53)을 형성하기 위한 단열 윈도우 유닛의 에지 영역에 장착가능한 스페이서 프로파일 프레임용 스페이서 프로파일(50)은 합성재로 이루어지는 프로파일 몸체(10)를 갖고, 습기 흡수재를 수용하기 위한 하나 이상의 챔버(20)를 포함한다. 금속 필름(30)은 스페이서 프로파일이 벤딩된/조립된 상태에서 상기 프로파일 몸체의 둘러싸여지지 않은 내측이 창유리의 개재 공간을 향하도록 3측부에서 프로파일 몸체를 둘러싼다. 상기 프로파일 몸체의 둘러싸여지지 않은 내측은 챔버에 수용된 습기 흡수재와 창유리 간의 개재 공간 사이에서 습기를 교환하기 위한 개구부(15)를 포함한다. 상기 금속 필름은 창유리의 개재 공간으로 향하는 각 단부에 프로파일(31a 내지 31g, 32a 내지 32g)을 포함한다. 각 프로파일은 적어도 하나의 에지 또는 벤딩을 갖는다. The spacer profile 50 for the spacer profile frame, which can be mounted to the edge region of the insulating window unit for forming the intervening space 53 between the panes 51 and 52, has a profile body 10 made of a composite material, and a moisture absorbing material. It includes one or more chambers 20 for receiving the. The metal film 30 surrounds the profile body at three sides such that the unenclosed inner side of the profile body faces the intervening space of the pane with the spacer profile bent / assembled. The unenclosed inner side of the profile body includes an opening 15 for exchanging moisture between the moisture absorbing material contained in the chamber and the intervening space between the pane. The metal film comprises profiles 31a to 31g and 32a to 32g at each end directed to the intervening space of the pane. Each profile has at least one edge or bending. 스페이서 프로파일, 창유리, 단열 윈도우 유닛, 확산 배리어 필름 Spacer profiles, panes, insulating window units, diffusion barrier films

Corner connector for insulating glazing units

Eckverbinder (1) für Hohlprofilabstandshalter von Isolierverglasungen mindestens umfassend einen ersten Schenkel (2.1) und einen zweiten Schenkel (2.2), die über einen Eckbereich (9) verbunden sind, mindestens zwei Schenkelinnenseiten (3), zwei Schenkelaußenseiten (4), zwei Stirnflächen (5) und mehrere Seitenflächen (6), wobei - die Schenkelinnenseiten (3), die Schenkelaußenseiten (4) und/oder die Seitenflächen (6) mindestens ein Rückhalteelement (7) umfassen, - die Schenkelinnenseiten (3) jeweils eine innere Auflagefläche (10) bereitstellen, - die inneren Auflageflächen (10) einen dem Eckbereich (9) benachbarten inneren Bereich (11) aufweisen, - die inneren Auflageflächen (10) einen dem inneren Bereich (11) und der Stirnfläche (5) benachbarten äußeren Bereich (12) aufweisen und die innere Auflagefläche (10) mindestens einer Schenkelinnenseite (3) im inneren Bereich (11) vom Eckbereich (9) ausgehend in Richtung der Stirnflächen (5) eine positive Steigung aufweist.

Method and device to lay distancing tapes onto window glasses

РЕФЕРАТ Устройство для одновременного накладывания упруго-пластичных дистанционных лент для двух оконных стекол с идентичной формой контура и идентичными размерами имеет две накладывающие головки (107), которые установлены с возможностью совершения поступательного движения по линейным осям (105) в вертикальном направлении. Накладывающие головки (107) перемещаются синхронно, точно так же и оба оконных стекла с помощью удерживающих устройств, приданных им, которые перемещают оконные стекла в направлении, перпендикулярном направлению движения накладывающих головок (107). Таким образом, достаточно замерить единственное оконное стекло тройного стеклопакета, и можно оба стекла с накладкой, относящиеся к стеклопакету, одновременно снабжать дистанционными лентами, так что экономится время, и оба стекла с накладками с покрывающим стеклом в более короткое время могут собираться в стеклопакет с тремя стеклами. 3 н.п. и 20 з.п. ф-лы, 7 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (51) МПК E06B 3/673 (13) 2 512 870 C1 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2011134496/12, 21.10.2010 (24) Дата начала отсчета срока действия патента: 21.10.2010 (72) Автор(ы): МАДЕР Леопольд (AT), КАРНЕР Леопольд (AT) 22.10.2009 AT A1664/2009 (45) Опубликовано: 10.04.2014 Бюл. № 10 10350312 A1, 16.06.2005 . SU 1454725 A1, 30.04.1987 . RU 2349529 C2 , 20.03.2009 . EP 0816265 A2, 07.01.1998 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 17.08.2011 (86) Заявка PCT: AT 2010/000401 (21.10.2010) 2 5 1 2 8 7 0 (56) Список документов, цитированных в отчете о поиске: US 6378586 B1, 30.04.2002 . DE R U (73) Патентообладатель(и): ИНОВА ЛИСЕЦ ТЕХНОЛОГИЦЕНТРУМ ГМБХ (AT) Приоритет(ы): (30) Конвенционный приоритет: 2 5 1 2 8 7 0 R U WO 2011/047402 (28.04.2011) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (54) СПОСОБ И УСТРОЙСТВО ДЛЯ НАКЛЫДЫВАНИЯ ДИСТАНЦИОННЫХ ...

Method for producing spacers for insulating glass panes

Dividing device for insulated glasing units with fusible connector

Изобретение относится к области строительства, а именно к конструкциям остекления. Изобретение позволит увеличить прочность сцепления соединителя с дистанционным профилем. Устройство разделительной рамки стеклопакета содержит основную часть дистанционного профиля, вытянутую в первом направлении и имеющую заданное поперечное сечение в плоскости, перпендикулярной первому направлению, определяющее полое внутреннее пространство основной части дистанционного профиля с заданными размерами в указанной плоскости, перпендикулярной первому направлению. Дистанционный профиль сформирован, по меньшей мере, на внутренней поверхности, ограничивающей указанное внутреннее пространство, из термопластичного материала. Устройство содержит соединитель, включающий часть, приспособленную для введения в первом направлении в полое внутреннее пространство основной части дистанционного профиля за счет формы своего поперечного сечения, перпендикулярного первому направлению, соответствующей с заданными допусками упомянутому поперечному сечению основной части дистанционного профиля, ограничивающей полое внутреннее пространство. По меньшей мере, наружная поверхность указанной части соединителя, обращенная после его введения к внутренней поверхности полого внутреннего пространства основной части дистанционного профиля, выполнена из термопластичного материала, который при формировании сплавленной поверхности контакта совместим с материалом внутренней поверхности основной части дистанционного профиля, при его плавлении при температуре менее 315°С. Указанная часть соединителя приспособлена для ввода в полое в РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 378 473 (13) C2 (51) МПК E06B 3/667 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ, ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21), (22) Заявка: 2008107606/03, 28.07.2006 (24) Дата начала отсчета срока действия патента: 28.07.2006 (73) Патентообладатель(и): ТЕХНОФОРМ КАПРАНО УНД БРУННХОФЕР ГМБХ УНД КО. КГ (DE) R U (30) ...

Spacer profile for a spacer frame for an insulating window unit and insulating window unit

本发明公开了一种间隔型材框的间隔型材(50)，可安装在保温窗户单元的边缘区域以形成窗户玻璃(51，52)之间的间隔空间(53)，其中，间隔型材具有由合成材料制成的型材体(10)，并包括一个或多个容纳吸湿材料的室(20)。型材体的三个侧面都覆盖有扩散阻挡膜(30)，从而当间隔型材处于弯曲/已安装的状态下时，型材体未被封闭的内壁朝向窗户玻璃之间的间隔空间。型材体未被封闭的内壁包括用来使室内容纳的吸湿材料和窗户玻璃的间隔空间之间进行水分交换的开口(15)。扩散阻挡膜的各个指向窗户玻璃之间的间隔空间的末端都包括一个型材(31a-g，31a-g)。每个型材至少有一个边缘或弯曲位置。

Vacuum glass window

본 발명은 내외측 유리패널(2) 사이의 구조를 새롭게 하여 단열 및 차음효과를 대폭 향상시키면서 내구성을 향상시키도록 한 진공유리창(1)을 제공코자 하는 것으로서, 상기 본 발명은 내외측에 이격되게 위치토록 구성된 한 쌍의 유리패널(2)과, 내외측 유리패널(2) 사이에 내입되게 구성된 투명의 지지패널(3)과, 상기 지지패널(3)의 양면에 돌출 형성된 간격유지돌기(31)가 내외측 유리패널(2)에 접하도록 하여 내외측 유리패널(2)과 지지패널(3) 양면 사이로 생성되는 간격이 진공 흡입되게 구성된 한 쌍의 진공층(6)이 포함된 것을 특징으로 하며, 이에 의하면 한 쌍의 진공층(6)과 지지패널(3)에 의해서 단열 및 차음효율을 향상시킬 수 있으며, 외부 충격 등에 의해서 내외측 유리패널(2)의 파손을 최소화하면서 진공 흡입을 위해서 유리패널(2)에 구멍을 형성하는 대신에 가장자리 측면에 진공흡입구(10)를 설치하여 전체적으로 내구성을 월등히 향상시킬 수 있는 등 다수의 효과를 기대할 수 있는 것이다. The present invention is to provide a vacuum glass window (1) to improve durability while significantly improving the heat insulation and sound insulation effect by renewing the structure between the inner and outer glass panels (2). A pair of glass panels (2) configured to be positioned, a transparent support panel (3) configured to be inserted between the inner and outer glass panels (2), and a gap maintaining protrusion (31) protruding from both sides of the support panel (3) ) to be in contact with the inner and outer glass panels 2, so that the gap created between both sides of the inner and outer glass panels 2 and the support panel 3 is vacuum-sucked. According to this, heat insulation and sound insulation efficiency can be improved by the pair of vacuum layers 6 and the support panel 3, and for vacuum suction while minimizing damage to the inner and outer glass panels 2 due to external impact, etc. Instead of forming a hole in the glass panel 2, a number of effects can be expected, such as being able to significantly improve the overall durability by installing the vacuum suction port 10 on the side of the edge.

Insulated glazing comprising a spacer, and production method

An insulating glazing unit having a first pane, a second pane, a third pane arranged between the first pane and the second pane, an outer pane interspace, an inner pane interspace, and a spacer is described. The spacer having a plastic profile with a first glazing interior surface and a second glazing interior surface, a first pane contact surface, a second pane contact surface, a primary sealing means, and a main member containing a sealing material and a drying material. The plastic profile includes a groove, into which the third pane is inserted and which runs parallel to the first pane contact surface and to the second pane contact surface. The plastic profile separates the outer pane interspace from the inner pane interspace. The main member is arranged in the outer pane interspace between the plastic profile and the primary sealing means, the main member being adjacent the plastic profile and the primary sealing means.

Spacer for use in a sealed multiple glazed unit

Method and apparatus for making insulating glass units

A method of making a spacer frame assembly including the steps of providing a supply of thin, flexible relatively narrow sheet metal ribbon stock, feeding the ribbon stock endwise to a first forming station (104), stamping the ribbon stock to form spacer frame corner structures at the first forming station by defining zones of weakness at frame corner locations spaced along the stock, stopping the movement of stock through the first forming station while stamping, feeding the stock to a second forming station, and roll forming the stock at the second forming station (110) to define a rigid linearly extending frame element having opposite side walls and a base wall, the corner structures disposed at least in part in the opposite channel side walls. The method further includes the steps of severing the frame element to define leading and trailing spacer frame element ends, accumulating stock between the first and second forming stations comprising forming a variable length stock travel path segment, maintaining a substantially continuous movement of the stock through the second forming station, and increasing length of the stock travel path segment when the stock speed through the first forming station is greater than the feeding speed through the second forming station and reducing the length of the stock travel path segment when the feeding speed through the second forming station is greater than the feeding speed through the first station.

Process and device for producing a spacer for insulating discs

Insulating glass pane comprises a compound containing a drying agent applied to a primary sealing compound to seal gaps and subsequently to the side of the spacer

Beschrieben wird eine Isolierglasscheibe, in welcher zwei einzelne Glasscheiben (2, 3) durch einen aus einem Profilstab gebildeten Abstandhalter (4) auf Abstand gehalten sind, welcher eine Innenseite (12), eine Außenseite (6) und zwei Flanken (11) hat, DOLLAR A in Verbindung mit dem Abstandhalter (4) ein Trockenmittel vorgesehen ist, DOLLAR A und zu beiden Seiten des Abstandhalters (4) zwischen diesem und den beiden Glasscheiben (2, 3) ein Spalt vorgesehen ist, welcher durch eine primäre Versiegelungsmasse (19) abgedichtet ist, welche am Abstandhalter (4) und an den Glasscheiben (2, 3) haftet. DOLLAR A Erfindungsgemäß ist vorgesehen, dass eine Masse (18), welche ein Trockenmittel enthält, an die die beiden Spalte abdichtende primäre Versiegelungsmasse (19) anschließend auf der dem Innenraum (17) der Isolierglasscheibe zugewandten Seite (12) des Abstandhalters (4) (nachfolgend auch als Innenseite 12 bezeichnet), so angeordnet ist, dass sie die Innenseite (12) abdeckt, soweit diese nicht bereits durch die primäre Versiegelungsmasse (19) abgedeckt ist.

Stretched strips for spacer and sealed unit

A spacer for a sealed unit is formed of a stretched elongate strip of material, such as metal. The elongate strip is longitudinally stretched, causing a reduction in the thickness of the material. Stretching is performed by applying a tension across a segment of an elongate strip. The tension can be applied to the elongate strip by passing the elongate strip through at least two spaced sets of rollers. A first set of rollers operating at a first speed engages with the elongate strip and a second set of rollers operating at a second speed applies a tension to the elongate strip to cause stretching of the material. Corrugated rollers can also be used to form the material into an undulating shape.

Insulated glazing comprising a spacer, and production method

Disclosed is insulated glazing at least comprising a first pane (1), a second pane (2), a third pane (3) between the first pane (1) and the second pane (2), an outer pane interspace (4), an inner pane interspace (5) and a spacer (6) which includes a plastic profiled element (8) with a glazing interior surface (7.1) and a second glazing interior surface (7.2), a first pane contact surface (8.1), a second pane contact surface (8.2), a primary sealing means (10) and a main member (11) that contains at least one sealing material and at least one dry material; according to the invention, the plastic profiled element (9) includes a groove (14) into which the third pane (3) is inserted and which runs parallel to the first pane contact surface (8.1) and to the second pane contact surface (8.2), the plastic profiled element (9) separates the outer pane interspace (4) from the inner pane interspace (5), and the main member (11) is placed between the plastic profiled element (9) and the primary sealing means (10) in the outer pane interspace (4), adjacent to the plastic profiled element (9) and to the primary sealing means (10).

Triple pane window spacer, window assembly and methods for manufacturing same

A spacer, window assembly, method of manufacturing a window assembly, and method of manufacturing a spacer is described herein involving window assemblies having three sheets of material, which will be referred to as a triple pane assembly. Two interior spaces are defined within the window assembly: a first air space between the first sheet and intermediary sheet and a second air space between the second sheet and the intermediary sheet.

Assembly equipment line and method for windows

The technology disclosed herein generally relate to assembly equipment for window units. In one embodiment, a window unit assembly system is taught that has a frame component that is configured to support equipment for a window unit assembly line. A pane conveyor is supported by the frame component and is configured to move panes along the window unit assembly line. A spacer conveyor is supported by the same frame component as the pane conveyor and is configured to move spacer elements along the window unit assembly line.

Spacer and spacer frame for an insulating glazing unit

A substrate having a bead of a moisture and/or gas pervious adhesive having a desiccant therein is shaped to provide U-shaped spacer stock. The spacer stock is bent to provide a spacer frame having continuous corners.

Low thermal conducting spacer assembly for an insulating glazing unit and method of making same

An insulating unit has a pair of glass sheets about an edge assembly to provide a compartment between the sheets. The edge assembly has a U-shaped spacer made of metal, metal coated plastic, gas and moisture impervious polymer, or gas and moisture impervious film coated polymer. The outer legs of the spacer and the glass provide a long diffusion path to limit the diffusion of argon gas out of the compartment. The edge assembly has materials selected and sized to provide edge assembly having an RES-value of at least 75. A spacer for use in insulating units includes a plastic core having a gas impervious film e.g. a metal film or a halogenated polymer film. Also taught herein are techniques for making the unit and spacer.

Spacer frame for an insulating glass panel and method of making the same

A spacer frame assembly for an insulating glass panel is disclosed which is constructed by arranging a plurality of spacer frame segments end to end in substantial alignment, with adjacent frame ends being connected together, and supplying sealant to the aligned spacer frame segments substantially continuously along opposite sides. The adjacent frame segments are then pivoted about axes extending transversely to the opposite sides to form a generally planar polygonal frame configuration and the free ends of the frame are joined. A connector for adjacent ends of the spacer frame segments is disclosed which includes first and second body portions secured to first and second frame segments, respectively, and hinge structure connecting the body portions for enabling movement of one frame segment relative to the other. The connector body portions are secured relative to each other by connecting structure with the first frame segment in a predetermined angular position with respect to the second frame segment. Free ends of the frame segments are joined by a two part connector.

Spacer and spacer frame for an insulating glazing unit and method of making same

A substrate having a bead of a moisture and/or gas pervious adhesive having a desiccant therein is shaped to provide U-shaped spacer stock. The spacer stock is bent to provide a spacer frame having continuous corners.

Method of making a spacer frame assembly

A method of making a spacer frame assembly including the steps of providing a supply of thin, flexible relatively narrow sheet metal ribbon stock, feeding the ribbon stock endwise to a first forming station, stamping the ribbon stock to form spacer frame corner structures at the first forming station by defining zones of weakness at frame corner locations spaced along the stock, stopping the movement of stock through the first forming station while stamping, feeding the stock to a second forming station, and roll forming the stock at the second forming station to define a rigid linearly extending frame element having opposite side walls and a base wall, the corner structures disposed at least in part in the opposite channel side walls. The method further includes the steps of severing the frame element to define leading and trailing spacer frame element ends, accumulating stock between the first and second forming stations comprising forming a variable length stock travel path segment, maintaining a substantially continuous movement of the stock through the second forming station, and increasing length of the stock travel path segment when the stock speed through the first forming station is greater than the feeding speed through the second forming station and reducing the length of the stock travel path segment when the feeding speed through the second forming station is greater than the feeding speed through the first station.

Method of making an insulating unit having a low thermal conducting spacer

A method of fabricating an insulating unit includes the steps of: providing a pair of sheets and a substrate; forming the substrate into at least one spacer section having a base and a pair of outer legs connected to the base, the spacer section having a surface designated as a supporting surface; providing a bead on the supporting surface, the bead provided on the supporting surface includes a moisture pervious adhesive having a desiccant therein and assembling a spacer frame that includes the at least one spacer section and the sheets provide an insulating unit having the pair of sheets in a fixed relationship.

Stretched strips for spacer and sealed unit

A spacer for a sealed unit is formed of a stretched elongate strip of material, such as metal. The elongate strip is longitudinally stretched, causing a reduction in the thickness of the material. Stretching is performed by applying a tension across a segment of an elongate strip. The tension can be applied to the elongate strip by passing the elongate strip through at least two spaced sets of rollers. A first set of rollers operating at a first speed engages with the elongate strip and a second set of rollers operating at a second speed applies a tension to the elongate strip to cause stretching of the material. Corrugated rollers can also be used to form the material into an undulating shape.

Window glass seal

ABSTRACT OF THE DISCLOSURE A seal is provided for use in fabricating hermetically sealed multiple pane windows, by way of installation in seal-ing relation between a pair of adjacent window panes, the seal having a hollow section, generally of metal, of generally rec-tangular form having side portions for attachment to the re-spective adjoining window glass inner surfaces, a bottom seal-ing portion joining the two side portions of the section, the upper surface of the section having a gap therein serving as a thermal break between the two side portions, with a bridging member spanning the gap, being of low conductivity flexible material, generally plastic, to reinforce the section and forming therewith a perforated or perforable enclosure for desiccant material. A process and apparatus for manufacturing the seal is also disclosed, using roll forming to provide the hollow section, with gluing and heat curing of the joints attaching the low conductivity bridge piece to the section.

Spacer profile for a spacer frame for an insulating window unit and insulating window unit

창유리(51, 52) 사이의 개재 공간(53)을 형성하기 위한 단열 윈도우 유닛의 에지 영역에 장착가능한 스페이서 프로파일 프레임용 스페이서 프로파일(50)은 합성재로 이루어지는 프로파일 몸체(10)를 갖고, 습기 흡수재를 수용하기 위한 하나 이상의 챔버(20)를 포함한다. 금속 필름(30)은 스페이서 프로파일이 벤딩된/조립된 상태에서 상기 프로파일 몸체의 둘러싸여지지 않은 내측이 창유리의 개재 공간을 향하도록 3측부에서 프로파일 몸체를 둘러싼다. 상기 프로파일 몸체의 둘러싸여지지 않은 내측은 챔버에 수용된 습기 흡수재와 창유리 간의 개재 공간 사이에서 습기를 교환하기 위한 개구부(15)를 포함한다. 상기 금속 필름은 창유리의 개재 공간으로 향하는 각 단부에 프로파일(31a 내지 31g, 32a 내지 32g)을 포함한다. 각 프로파일은 적어도 하나의 에지 또는 벤딩을 갖는다. 스페이서 프로파일, 창유리, 단열 윈도우 유닛, 확산 배리어 필름

Wall, door or window element

FIELD: construction. SUBSTANCE: invention is referred to the field of construction, namely to structures of door or window elements. Wall or door element, which may, in particular be moved on support rollers, comprises frame along the whole contour, having mutually joined profiles, namely bearing profiles and transverse profiles. Profiles are arranged for installation of outer panels onto side surfaces of tight adjacency by means of fixation by binder or adhesive tape, in installation of stabilising facilities, namely one or more stabilising plates, preferably installed in the centre. They are installed into guiding groove of profiles. EFFECT: invention makes it possible to simplify design of the element. 14 cl, 10 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 391 478 (13) C1 (51) МПК E06B 3/46 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ, ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21), (22) Заявка: 2008148094/03, 05.12.2008 (24) Дата начала отсчета срока действия патента: 05.12.2008 (73) Патентообладатель(и): РАУМПЛЮС ГМБХ УНД КО.КГ (DE) R U (30) Конвенционный приоритет: 07.12.2007 DE 102007059222.3 (72) Автор(ы): ВЕФЕР Дирк (DE) (45) Опубликовано: 10.06.2010 Бюл. № 16 2 3 9 1 4 7 8 (56) Список документов, цитированных в отчете о поиске: DE 10119640 A1, 21.11.2002. US 3425163 A, 04.02.1969. FR 645505 A, 26.10.1928. US 2708774 A, 24.05.1955. RU 43293 U1, 10.01.2005. 2 3 9 1 4 7 8 R U (54) СТЕНОВОЙ, ДВЕРНОЙ ИЛИ ОКОННЫЙ ЭЛЕМЕНТ (57) Реферат: Изобретение относится к области строительства, а именно к конструкциям дверных или оконных элементов. Изобретение позволит упростить конструкцию элемента. Стеновой или дверной элемент, который можно, в частности, перемещать на опорных роликах, содержит раму по всему контуру, имеющую взаимно соединенные профили, а именно несущие профили и поперечные профили. Профили выполнены для установки внешних панелей на боковые поверхности плотного прилегания посредством прикрепления связующим или липкой лентой ...

Glass panel unit, the windowpane with the glass panel unit and the method for manufacturing glass panel unit

本发明的目的是提供一种真空玻璃面板，其能够减少间隔件的降解并因而稳定地保持真空空间。玻璃面板单元1包含：第一面板(T10)；面向第一面板(T10)的第二面板(T20)；密封构件，所述密封构件粘合到第一面板(T10)和第二面板(T20)的相互面对的周边部分；和设置在第一面板(T10)和第二面板(T20)之间的减压空间中的至少一个间隔件(40)。所述至少一个间隔件(40)包含树脂体(41)和设置在树脂体(41)的表面上的至少一层紫外线防护层(42)。

Patent FR2220338B1

PROCESS, DEVICE AND INSTALLATION FOR THE MANUFACTURING OF A MULTIPLE GLAZING AND MULTIPLE GLAZING THUS OBTAINED

Procédé, dispositif et installation pour la fabrication de vitrages multiples. On applique des intercalaires en un matériau déformable plastiquement sur les bords d'une première feuille de telle manière que leurs extrémités se trouvent à un coin de la feuille, on applique ensuite une deuxième feuille, on maintient l'assemblage ainsi formé en place et on applique des forces sur la matière de l'intercalaire en au moins un coin de l'assemblage afin de solidariser ses extrémités par pressage. L'invention peut s'appliquer à la fabrication d'un vitrage multiple, triple par exemple, et convient pour la production en série. Method, device and installation for the manufacture of multiple glazing. Spacers of a plastically deformable material are applied to the edges of a first sheet such that their ends are at a corner of the sheet, then a second sheet is applied, the assembly thus formed is held in place and applies forces to the material of the interlayer in at least one corner of the assembly in order to secure its ends by pressing. The invention can be applied to the manufacture of multiple glazing, for example triple glazing, and is suitable for mass production.

METHOD AND INSTALLATION FOR MANUFACTURING INSULATING GLAZING

Ce procédé comprend l'assemblage d'un sous-ensemble de vitrage isolant qui comporte un cadre espaceur (20) et au moins une feuille de verre centrale (16), le cadre espaceur (20) étant formé de quatre profilés (1) assemblés angulairement à leurs extrémités, où chaque profilé (1) comporte une rainure (3) de réception d'un bord de la feuille de verre centrale (16). L'assemblage du sous-ensemble de vitrage isolant comprend des étapes successives dans lesquelles : - on insère les quatre bords de la feuille de verre centrale (16) dans les rainures (3) des quatre profilés (1) ; - on assemble les extrémités des profilés (1) à chaque angle du cadre espaceur (20) sans équerre d'alignement. This method comprises assembling an insulating glazing subassembly which comprises a spacer frame (20) and at least one central glass sheet (16), the spacer frame (20) being formed of four assembled sections (1). angularly at their ends, where each profile (1) has a groove (3) for receiving an edge of the central glass sheet (16). The assembly of the insulating glazing subassembly comprises successive steps in which: - the four edges of the central glass sheet (16) are inserted into the grooves (3) of the four sections (1); - Assembling the ends of the profiles (1) at each corner of the spacer frame (20) without alignment bracket.

Patent FR2417479B1

Window component system including pusher for scrap removal

An apparatus for automatic removal of scrap elongated window component stock from a conveyor includes a path of travel altering mechanism, a translating mechanism, and a controller. The path of travel altering mechanism is positioned along the path of travel that selectively facilitates movement of scrap elongated window component stock off the path of travel. The translating mechanism is in communication with the path of travel altering mechanism for moving the scrap elongated window component stock off of the path of travel.

INSULATING GLAZING, IN PARTICULAR FOR CLIMATE FURNITURE

Apparatus and method for sealing the corners of insulated glass assemblies

The present invention relates to an apparatus and method for injecting sealant material into the comers of an insulated glass assembly (50) suitable for use in manual and automated production. It has been found that significant saving in both time and material can be achieved by only sealing the comers of the assembly, particularly using the automated method and apparatus. The apparatus includes a pair of wiper blocks (14, 16) each having a surface (15, 17) for abutting an edge of a glass assembly (50) arranged in substantially perpendicular configuration to each other, adapted for converging and diverging reciprocal movement from an adjoining position for molding a square comer to a separated position for wiping smooth the surface for the injected sealant material. A nozzle (12) is positioned between the wiper blocks (14, 16) for injecting sealant material into the comer area and retracting in concert with the converging movement of the wiper blocks (14, 16). The method according to the present invention includes confining a comer area to be filled with sealant material, injecting sealant material into the corner area, molding the injected sealant into a substantially square comer, and wiping smooth the surface of the injected sealant.

Flexible preformed adhesive strip, window structure and laminate

Method and system for manufacturing an insulating glazing unit

개시된 방법은 이격부 프레임(20) 및 적어도 하나의 중앙 유리 시트(16)를 포함하는 절연 글레이징 유닛 하위-조립체를 조립하는 단계를 포함하고, 이격부 프레임(20)은, 단부에서 각도를 이루어 조립된 4개의 프로파일형 섹션(1)에 의해서 형성되고, 각각의 프로파일형 요소(1)는 중앙 유리 시트(16)의 연부를 수용하기 위한 홈(3)을 갖는다. 절연 글레이징 유닛 하위-조립체의 조립은 이하의 연속적인 단계를 포함한다: - 중앙 유리 시트(16)의 4개의 연부가 4개의 프로파일형 섹션(1)의 홈(3) 내로 삽입되는 단계; - 프로파일형 섹션(1)의 단부들이, 프로파일형 섹션의 단부 면들이 동일 평면 내에서 중첩되는 방식으로 정렬되는 설계에서 이격부 프레임의 각각의 모서리에서 프로파일형 섹션을 안내하기 위한 기준으로서, 프로파일형 섹션의 홈(3) 내에 삽입되는, 중앙 유리 시트(16)의 연부를 이용하여, 정사각형체의 도움이 없이, 이격부 프레임(20)의 각각의 모서리에서 함께 용접되는 단계.

Corner connector for double-glazed windows

FIELD: construction.SUBSTANCE: corner connector (1) for hollow profile separators of double-glazed windows, including at least one first shelf (2.1) and one second shelf (2.2), which are connected by angular area (9), at least two inner sides (3) of the shelves, two outer sides (4) of the shelves, two end surfaces (5) and several side surfaces (6), wherein inner sides (3) of the shelves, outer sides (4) of the shelves and/or side surfaces (5) include at least one retaining element (7), inner sides (3) of the shelves form each inner surface (10) of abutment, inner surfaces (10) of the abutment have inner region (11) near corner region (9), inner surfaces (10) of the abutment have outer region (12) located near inner region (11) and end surface (5), and inner surface (10) of the abutment of at least one inner side (3) of the flange in inner region (11), starting from corner region (9), has a positive lift in the direction of end surfaces (5).EFFECT: corner connector is proposed.10 cl, 10 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 680 616 C1 (51) МПК E06B 3/667 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК E06B 3/667 (2018.08) (21)(22) Заявка: 2018110067, 26.08.2016 (24) Дата начала отсчета срока действия патента: Дата регистрации: 25.02.2019 (73) Патентообладатель(и): СЭН-ГОБЭН ГЛАСС ФРАНС (FR) (56) Список документов, цитированных в отчете о поиске: DE 8419558 U1, 11.10.1984. DE 26.08.2015 EP 15182521.3 3822117 A1, 04.01.1990. EP 2697467 A1, 19.02.2014. (45) Опубликовано: 25.02.2019 Бюл. № 6 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 26.03.2018 (86) Заявка PCT: 2 6 8 0 6 1 6 (87) Публикация заявки PCT: WO 2017/032862 (02.03.2017) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр. 3, ООО "Юридическая фирма Городисский и Партнеры" (54) УГЛОВОЙ СОЕДИНИТЕЛЬ ДЛЯ СТЕКЛОПАКЕТОВ (57) Реферат: Угловой соединитель (1) для полых внутреннюю поверхность (10) прилегания, профильных ...

Patent RU2018127762A3

`7ВУ’” 2018127762`” АЗ Дата публикации: 18.03.2020 Форма № 18 ИЗИМ-2011 Федеральная служба по интеллектуальной собственности Федеральное государственное бюджетное учреждение ж 5 «Федеральный институт промышленной собственности» (ФИПС) ОТЧЕТ О ПОИСКЕ 1. . ИДЕНТИФИКАЦИЯ ЗАЯВКИ Регистрационный номер Дата подачи 2018127762/12(044344) 31.12.2016 РСТ/ЕК2016/053692 31.12.2016 Приоритет установлен по дате: [ ] подачи заявки [ ] поступления дополнительных материалов от к ранее поданной заявке № [ ] приоритета по первоначальной заявке № из которой данная заявка выделена [ ] подачи первоначальной заявки № из которой данная заявка выделена [ ] подачи ранее поданной заявки № [Х] подачи первой(ых) заявки(ок) в государстве-участнике Парижской конвенции (31) Номер первой(ых) заявки(ок) (32) Дата подачи первой(ых) заявки(ок) (33) Код страны 1. 1563509 31.12.2015 ЕК Название изобретения (полезной модели): [Х] - как заявлено; [ ] - уточненное (см. Примечания) СПОСОБ И УСТАНОВКА ДЛЯ ИЗГОТОВЛЕНИЯ ИЗОЛИРУЮЩЕГО СТЕКЛОПАКЕТА Заявитель: СЭН-ГОБЭН ГЛАСС ФРАНС, ЕК 2. ЕДИНСТВО ИЗОБРЕТЕНИЯ [Х] соблюдено [ ] не соблюдено. Пояснения: см. Примечания 3. ФОРМУЛА ИЗОБРЕТЕНИЯ: [Х] приняты во внимание все пункты (см. Примечания) [ ] приняты во внимание следующие пункты: [ ] принята во внимание измененная формула изобретения (см. Примечания) 4. КЛАССИФИКАЦИЯ ОБЪЕКТА ИЗОБРЕТЕНИЯ (ПОЛЕЗНОЙ МОДЕЛИ) (Указываются индексы МПК и индикатор текущей версии) ЕОбВ 3/663 (2006.01) 5. ОБЛАСТЬ ПОИСКА 5.1 Проверенный минимум документации РСТ (указывается индексами МПК) ЕО6В 3/00 - 3/96 5.2 Другая проверенная документация в той мере, в какой она включена в поисковые подборки: 5.3 Электронные базы данных, использованные при поиске (название базы, и если, возможно, поисковые термины): Езрасепек, РабЗеагсь 6. ДОКУМЕНТЫ, ОТНОСЯЩИЕСЯ К ПРЕДМЕТУ ПОИСКА Кате- Наименование документа с указанием (где необходимо) частей, Относится к гория* относящихся к предмету поиска пункту формулы № 1 2 3 х \О 2014198431 А1 (ЗАТМТ СОВАПЛ [ЕВ ...

Assembly equipment line for windows

Intermediate double-glazing window frame - is formed from hollow rods which are filled with dehydrated material

UNE BAGUETTE CREUSE 1 DESTINEE A L'ETABLISSEMENT DE CADRES INTERMEDIAIRES POUR VITRAGES MULTIPLES, RENFERME A SON INTERIEUR UNE SERIE DE PETITES MASSES 2 DE DESSECHANT SEPAREES PAR DES BOUCHONS 3. LA BAGUETTE EST DE LONGUEUR INDEFINIE ET L'ON PEUT AINSI EN DECOUPER DES MORCEAUX AUX DIMENSIONS DES CADRES A REALISER MOYENNANT UNE PERTE MINIME DE PRODUITS. LA RAINURE 1B PERMET DE PERFORER LA PAROI POUR METTRE EN ACTION LE DESSECHANT LORS DU MONTAGE. EN VARIANTE ON PEUT PREVOIR UNE VENTOUSE LONGITUDINALE REMPLIE DE PRODUIT COLLANT POUR MONTER A L'ATELIER LA BAGUETTE SUR LA VITRE SUPPLEMENTAIRE DU VITRAGE.

Assembly equipment line and method for windows

The technology disclosed herein generally relate to assembly equipment for window units. In one embodiment, a window unit assembly system is taught that has a frame component that is configured to support equipment for a window unit assembly line. A pane conveyor is supported by the frame component and is configured to move panes along the window unit assembly line. A spacer conveyor is supported by the same frame component as the pane conveyor and is configured to move spacer elements along the window unit assembly line.

Hollow section for the construction of double- or multiple insulation- or glazing units

A hollow section (10) for double- or multiple-insulation- or glazing- units (S) filled with an hygroscopic material and provided with perforations (20) is produced by an extrusion process, the perforations being subsequently made by a cutter W in the third wall (12), which at least in one region in close proximity to one of the side walls (11) has a wall thickness which is less than the wall thickness of the adjoining side walls. The reduced wall thickness may be provided across the full width of the third wall (12) or at one or both sides (Figs. 3 and 4). <IMAGE>

Multiple glass shoji

４枚以上のガラス板からなる多重ガラス障子において、断熱性能を確保しつつ中間ガラス板の熱割れを防止することができる多重ガラス障子を提供する。実施形態の多重ガラス障子１２０によれば、ガラス板１２２、１２４の分割中空層１３０に対向する内面、及び中間ガラス板１２６Ａ、１２６Ｃの中間ガラス板１２６Ｂに対向する内面に、Ｌｏｗ−Ｅ膜等の低放射膜１６６Ａ、１６６Ｂ、１６６Ｃ、１６６Ｄを成膜する。すなわち、ガラス板１２２、１２４、及び中間ガラス板１２６Ａ、１２６ＣをＬｏｗ−Ｅガラスとして構成する。そして、中央に配置された中間ガラス板１２６Ｂを、低放射膜を有していない通常の透明のガラス板とする。 Provided is a multiple glass shoji made of four or more glass plates, which can prevent thermal cracking of an intermediate glass plate while ensuring heat insulation performance. According to the multiple glass shoji 120 of the embodiment, the inner surface of the glass plates 122 and 124 facing the divided hollow layer 130 and the inner surface of the intermediate glass plates 126A and 126C facing the intermediate glass plate 126B are made of a Low-E film or the like. Low emission films 166A, 166B, 166C, and 166D are formed. That is, the glass plates 122 and 124 and the intermediate glass plates 126A and 126C are configured as Low-E glass. And let the intermediate glass plate 126B arrange | positioned in the center be a normal transparent glass plate which does not have a low radiation film | membrane.

METHOD AND DEVICE FOR SEALING ANGULAR JOINT OF GLASS PACKING

ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß (19) RU (11) 2006 142 743 (13) A (51) ÌÏÊ E06B 3/673 (2006.01) ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ, ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) ÇÀßÂÊÀ ÍÀ ÈÇÎÁÐÅÒÅÍÈÅ (21), (22) Çà âêà: 2006142743/03, 04.12.2006 (71) Çà âèòåëü(è): ËÈÇÅÊ ÏÅÒÅÐ (AT) (30) Êîíâåíöèîííûé ïðèîðèòåò: 05.12.2005 DE 102005058028.9 (72) Àâòîð(û): ËÈÇÅÊ Ïåòåð (AT) (43) Äàòà ïóáëèêàöèè çà âêè: 10.06.2008 Áþë. ¹ 16 A 2 0 0 6 1 4 2 7 4 3 R U Ñòðàíèöà: 1 RU A (57) Ôîðìóëà èçîáðåòåíè 1. Ñïîñîá çàäåëêè óãëîâîãî ñòûêà óïðóãîïëàñòè÷åñêîé ëåíòû, óñòàíîâëåííîé íà ñòåêëî â êà÷åñòâå ïðîñòàâêè ñòåêëîïàêåòà, ïóòåì ïðèæàòè óäëèíåííîé êëåéêîé ñ îäíîé ñòîðîíû ïîëîñêè ïëåíî÷íîãî ìàòåðèàëà, øèðèíà êîòîðîé, ïî ñóùåñòâó, ðàâíà øèðèíå óïðóãîïëàñòè÷åñêîé ëåíòû, ê ñõîä ùèìñ â ñòûêå ó÷àñòêàì ïðîñòàâêè, ïðè÷åì ïîëîñêó ïëåíî÷íîãî ìàòåðèàëà ïåðâîé ÷àñòüþ åå äëèíû ïðèæèìàþò ê ïåðâîìó ó÷àñòêó ïðîñòàâêè, à òó ÷àñòü ïîëîñêè, êîòîðà ñíà÷àëà ñâîáîäíî âûñòóïàåò çà óãîë ïðîñòàâêè, çàãèáàþò îá ýòîò óãîë è ïðèæèìàþò êî âòîðîìó ó÷àñòêó ïðîñòàâêè, îòëè÷àþùèéñ òåì, ÷òî ïîëîñêó ïëåíî÷íîãî ìàòåðèàëà îòäåë þò ìàøèííûì ñïîñîáîì îò àâòîìàòè÷åñêè ïîäàâàåìîãî ïîëîòíà ïëåíî÷íîãî ìàòåðèàëà è ïðè ýòîì óäåðæèâàþò ñ ïîìîùüþ ïåðåäàòî÷íîãî ïðèñïîñîáëåíè , ïåðåäàòî÷íûì ïðèñïîñîáëåíèåì ïîëîñêó ïëåíî÷íîãî ìàòåðèàëà ïðèæèìàþò ïåðâîé ÷àñòüþ åå äëèíû ê ïåðâîìó ó÷àñòêó ïðîñòàâêè, ïîñëå ÷åãî ïîëîñêó ïëåíî÷íîãî ìàòåðèàëà îòïóñêàþò, è ÷àñòü ïîëîñêè ïëåíî÷íîãî ìàòåðèàëà, ñâîáîäíî âûñòóïàþùóþ çà óãîë ïðîñòàâêè, çàãèáàþò îá ýòîò óãîë ñ ïîìîùüþ ïðèæèìíîé êàðåòêè è ñ íàò æåíèåì ïðèæèìàþò êî âòîðîìó ó÷àñòêó ïðîñòàâêè. 2. Ñïîñîá ïî ï.1, îòëè÷àþùèéñ òåì, ÷òî â òî âðåì êàê âûñòóïàþùóþ çà óãîë ÷àñòü ïîëîñêè ïëåíî÷íîãî ìàòåðèàëà ñ ïîìîùüþ ïðèæèìíîé êàðåòêè çàãèáàþò è ïðèæèìàþò êî âòîðîìó ó÷àñòêó ïðîñòàâêè, ïåðâóþ ÷àñòü äëèíû ïîëîñêè ïëåíî÷íîãî ìàòåðèàëà ïðèæèìàþò ê ïåðâîìó ó÷àñòêó îáðàçóþùåé ðàìêó ïðîñòàâêè ñ ïîìîùüþ ïðèæèìíîãî ïðèñïîñîáëåíè . 3. Ñïîñîá ïî ï.1 èëè 2, îòëè÷àþùèéñ òåì, ÷òî âòîðîé ó÷àñòîê ïðîñòàâêè ïåðåä ïðèæàòèåì ê íåìó ...

Spacer profile for a spacer frame for an insulating window unit and insulating window unit

A spacer profile (50) for a spacer profile frame mountable in the edge area of an insulating window unit for forming an intervening space (53) between window panes (51, 52), has a profile body (10) made of synthetic material and comprises one or more chambers (20) for accommodating hygroscopic material. A metal film (30) encloses the profile body on three-sides such that, in the bent/assembled state of the spacer profile, the non-enclosed inner side of the profile body is directed towards the intervening space between the window panes. The not-enclosed inner side of the profile body comprises openings (15) for moisture exchange between hygroscopic material accommodated in the chamber(s) and the intervening space between the window panes. The metal film comprises a profile (31a-g, 32a-g) on each end directed towards the intervening space of the window panes. Each profile has at least one edge or bend.

Method for Providing an Oblong Shaped Piece and for Inserting Said Shaped Piece Into a Hollow Section Bar From Which a Spacer for Insulated Glass Panes is Formed

The invention relates to a method for providing a moulded body ( 22 ) and for inserting said moulded body ( 22 ) into a hollow bar section ( 23 ) with a cross-section of a predetermined width and height that remains constant over its length, from which a frame-type spacer for insulating glass panes is subsequently configured, the moulded body ( 23 ) bridging a gap in said spacer. According to said method, a strand-type semi-finished product ( 16 ) with a cross-section that remains constant over its length is provided; the semi-finished product ( 16 ) is positioned in relation to a separation tool ( 1 ) in such a way that a predefined section of the semi-finished product ( 16 a ) lies on one side and the remaining section of the semi-finished product ( 16 ) lies on the other side of a separation plane ( 8 ) of the separation tool ( 1 ) and the length of the predefined section ( 16 a ) that is measured in the longitudinal direction of the semi-finished product ( 16 ) is adapted to the inner width of the hollow bar section ( 23 ); the predefined section ( 16 a ) of the semi-finished product ( 16 ) is seized by means of an mechanical gripper ( 24 ); the moulded body ( 22 ) is formed by separating the predefined section ( 16 a ) that is held by the gripper ( 24 ) from the semi-finished product ( 16 ); and the moulded body ( 22 ) that is held by the gripper is inserted into the hollow bar section ( 23 ). The moulded body ( 22 ) is permanently held by said gripper during its formation and insertion.

INSULATING UNIT STRUCTURE AND METHOD OF MANUFACTURING THE SAME, ISOLATING MEMBER FRAME AND METHOD OF MANUFACTURING THE SAME

Insulation-glazed shaped window frame corner area sealing - using elastomer in cavities highly compressed for lower viscosity (BE140576)

Insulated glass window spacer and method for making window spacer

An integral metal spacer for insulated glass units and method of fabricating the spacer. The spacer defines a substantially closed cross-section contour having a bottom surface, a pair of sidewalls, and a pair of generally abutting inner surfaces. A gap may be defined between the adjacent inner surfaces. The three interior corners are defined by fully mitered sidewalls. A pair of bridges are provided to integrally interconnect the inner surfaces of adjacent spacer segments. The method of fabricating includes taking a roll of flat metal stock and completely punching all corner and other structures therein while the stock is planar; severing the punched stock into individual spacer members; roll-forming the individual members into a finished linear spacer piece; applying desiccant during roll-forming; applying sealant; thereafter folding the elongate member into a square spacer thereby locking the desiccant therein.

System for fabricating muntin bars from sheet material

A system for fabricating muntin bars from sheet material. Sheet material in the form of thin ribbon stock is fed to a first forming station including a punching mechanism that punches the ribbon stock at a precisely predetermined location. The ribbon stock is delivered from the first forming station to a second forming station in the form of a rolling mill. The stock passes through a succession of forming rolls to produce a tube having a desired cross-sectional shape. The tube is delivered from the second forming station to a third forming station including a severing apparatus that severs the tube at a precisely predetermined location to produce a muntin bar. After severing, the muntin bar is engaged by a conveyor and moved to a desired location.

POLYMER ADHESIVE STRIP, FLEXIBLE ADHESIVE TAPE, SEALING STRIP, PROCESS TO PRODUCE AN ADHESIVE COMPOSITION, WINDOW STRUCTURE, LAMINATE, SEALING; PROCESS FOR GLUING SELF-SUPPORTING LAYERS AND COMPOSITE STRUCTURE

METHOD AND INSTALLATION FOR MAKING AN INSULATING GLASS PACKAGE

РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2018 127 762 A (51) МПК E06B 3/663 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2018127762, 31.12.2016 (71) Заявитель(и): СЭН-ГОБЭН ГЛАСС ФРАНС (FR) Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): ЭРВЬЕ Себастьен (FR) 31.12.2015 FR 1563509 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 31.07.2018 R U (43) Дата публикации заявки: 31.01.2020 Бюл. № 4 (86) Заявка PCT: (87) Публикация заявки PCT: WO 2017/115062 (06.07.2017) A Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр. 3, ООО "Юридическая фирма Городисский и Партнеры" R U (57) Формула изобретения 1. Способ изготовления изолирующего стеклопакета (10), включающий в себя сборку узла (7) изолирующего стеклопакета, который содержит дистанционную рамку (20) и по меньшей мере один центральный стеклянный лист (16), при этом дистанционная рамка (20) состоит из четырех профилей (1), соединенных под острым углом на своих концах (1А,1В), при этом каждый профиль (1) содержит паз (3) для захождения края центрального стеклянного листа (16), отличающийся тем, что сборка узла (7) изолирующего стеклопакета включает в себя последовательные этапы, на которых четыре края центрального стеклянного листа (16) вставляют в пазы (3) четырех профилей (1); концы (1А,1В) профилей (1) на каждом углу дистанционной рамки (20) соединяют посредством сварки без установочного уголка, используя края центрального стеклянного листа (16), вставленные в пазы (3) профилей, в качестве опорной линии, чтобы направлять профили на каждом углу дистанционной рамки в конфигурацию, в которой их концевые стороны (S1) совмещены с наложением друг на друга в одной плоскости. 2. Способ по п. 1, отличающийся тем, что концы (1А,1В) профилей (1) соединяют на каждом углу дистанционной рамки (20) посредством ультразвуковой сварки. 3. Способ по п. 2, отличающийся тем, что во время ультразвуковой сварки концов (1А,1В) двух профилей (1) ...

Improvements in and relating to a Device for Perforating Tubes

1,171,693. Perforating. INSITU DOUBLE GLAZING Ltd. 4 March, 1968 [4 March, 1967], No. 10346/67. Heading B3W. A tool for perforating a tube of non-frangible material, e.g. plastics or non-ferrous metal, comprises a wheel 2 rotatably mounted on a handle 1 and having needles 6 in a peripheral groove 5. The curvature of the groove corresponds to that of the tube to be perforated. The needles abut a disc 7 detachably mounted in a recess in the wheel and are retained by grub screws 10. If a needle breaks, the disc 7 is removed and the broken needle is knocked into the recess. The perforated tube can be used for holding dessicant material such as silica gel for use between the panes of double glazing.

Method for manufacturing pillar supply sheet, method for manufacturing glass panel unit and method for manufacturing glass window

本発明の課題は、複数のピラーを基板上に適切にかつ容易に実装し、ガラスパネルユニットの製造を効率化する、ピラー供給用シートの製造方法、ガラスパネルユニットの製造方法及びガラス窓の製造方法を提供する。ピラー供給用シートの製造方法は、複数のピラー（４）と、キャリアシート（６０）と、各ピラー（４）とキャリアシート（６０）の間に介在する接着層（６５）を備えるピラー供給用シート（９００）の製造方法であって、ピラー形成工程を備える。複数のピラー（４）は、基材にエッチングまたはレーザ照射の処理を施し、処理後の基材から不要部分を除去して前記複数のピラーを形成する工程である。

Multiple glass shoji

Plastic spacer stock, plastic spacer frame and multi-sheet unit, and method of making same

A corner key for joining ends of spacer sections to form a corner of a spacer frame of a multi-sheet unit includes an elongated body having a first end and an opposite second end and a cut out between the ends of the body. The body is bendable to decrease spacing of the cut out to form a corner of the spacer frame.

Spacer arrangement with fusable connector for insulating glass units

A connector (31) for a spacer frame of an insulating glazing unit. The connector (31) is made .of a fusable material. When inserted into the hollow spacer profile body (1) the connector (31) is held in position by its resilient protrusions (31t, 31f, 32r, 32t, 32u) and is finally at least partly connected by fusing. The connector (31) can be used for linear and corner connection of spacer profiles. A method for manufacturing a spacer frame by fusing the connector piece, and an apparatus for carrying out the process is also claimed.

Low thermal conducting spacer assembly for an insulating glazing unit and method of making same

An insulating unit is disclosed having a pair of glass sheets about an edge assembly to provide a compartment between the sheets. The edge assembly has a U-shaped spacer made of metal, metal coated plastic, gas and moisture impervious polymer, or gas and moisture impervious film coated polymer. The outer legs of the spacer and the glass provide a long diffusion path to limit the diffusion of argon gas out of the compartment. The edge assembly has materials selected and sized to provide edge assembly having an RES-value of at least 75. Also disclosed is a spacer for use in insulating units including a plastic core having a gas impervious film e.g. a metal film or a halogenated polymer film. Also taught herein are techniques for making the unit and spacer. The unit has a long diffusion path to increase the time period in which insulating glass e.g. Argon gas may be retained in the compartment. The increased RES-value provides a unit that has a low thermal conducting edge. In this manner heat loss through the marginal edge of the unit is reduced.

Glass seal tracking spacer applicator

Various embodiments provide a method for applying a spacer to a planar substrate, comprising supplying the spacer to be adhered to the planar substrate; defining a first notch, a second notch, and a third notch in the spacer; applying an adhesive to the spacer; translating the spacer in a longitudinal direction; aligning a first end of the spacer with a first corner of the planar substrate; feeding the spacer and the planar substrate between a front carriage and a rear carriage along a longitudinal axis of an unadhered portion of the spacer while pressing the spacer against the planar substrate to adhere a portion of the spacer being pressed by the front carriage to the planar substrate, and rotating, with a six-axis robot, the planar sheet and adhered portion of spacer.

Corner connector for heat-protecting glass

用于隔热玻璃的中空型材间隔件的拐角连接件(1)，其至少包括经由拐角区域(9)连接的第一支腿(2.1)和第二支腿(2.2)、至少两个支腿内侧(3)、两个支腿外侧(4)、两个端面(5)和多个侧面(6)，其中，‑支腿内侧(3)、支腿外侧(4)和/或侧面(6)包括至少一个保持元件(7)，‑支腿内侧(3)各自提供内支承面(10)，‑内支承面(10)具有邻近拐角区域(9)的内部区域(11)，‑内支承面(10)具有邻近内部区域(11)和端面(5)的外部区域(12)，和至少一个支腿内侧(3)的内支承面(10)在内部区域(11)中在朝着端面(5)的方向上从拐角区域(9)开始具有正梯度。

Glass panel unit, glass window provided with same, and method for manufacturing glass panel unit

本發明提供一種可抑制間隔件之劣化而可穩定地形成真空空間之真空玻璃平板。玻璃平板單元1包含有第1平板(T10)、與第1平板(T10)對向之第2平板(T20)、接著於第1平板(T10)與第2平板(T20)彼此相向的周緣部之密封材、及設於第1平板(T10)與第2平板(T20)之間的減壓空間之間隔件(40)。間隔件(40)具有樹脂製本體(41)及設於樹脂製本體(41)之表面的至少1個紫外線防護層(42)。

Gripping device, and method for manufacturing an insulating glazing unit

Disclosed is a gripping device designed to hold an insulating glazing unit sub-assembly comprising a spacer frame (20) and at least one central glass sheet (16) that is accommodated in an inner peripheral groove (3) of the spacer frame. The gripping device comprises elements (93) for gripping the spacer frame and elements (92) for gripping the central glass sheet so as to ensure that the spacer frame (20) and the central glass sheet (16) are held independently while allowing a relative movement between the two.

Spacer and spacer frame for an insulating glazing unit and method of making same

A substrate having a bead of a moisture and/or gas pervious adhesive having a desiccant therein is shaped to provide U-shaped spacer stock. The spacer stock is bent to provide a spacer frame having continuous corners.

Spacer Profile for a Spacer Frame for an Insulating Window Unit and Insulating Window Unit

A spacer profile ( 50 ) for a spacer profile frame mountable in the edge area of an insulating window unit for forming an intervening space ( 53 ) between window panes ( 51, 52 ), has a profile body ( 10 ) made of synthetic material and comprises one or more chambers ( 20 ) for accommodating hygroscopic material. A metal film ( 30 ) encloses the profile body on three-sides such that, in the bent/assembled state of the spacer profile, the non-enclosed inner side of the profile body is directed towards the intervening space between the window panes. The not-enclosed inner side of the profile body comprises openings ( 15 ) for moisture exchange between hygroscopic material accommodated in the chamber(s) and the intervening space between the window panes. The metal film comprises a profile ( 31 a - g, 32 a - g ) on each end directed towards the intervening space of the window panes. Each profile has at least one edge or bend.

Insulation glazed spaced frame corner seal - with butyl rubber of high deformation velocity pressed into hollows

The system achieves optimal sealing to prevent penetration by water vapour, in the corner areas of an insulation-glazed spaced frame. Tubular sections have corner angle pieces inserted in their ends. An organic sealing mass, at relatively high pressure, is introduced into the hollow between the tubular sections and angles pieces. The sealing mass consists of butyl rubber, or a similar elastomer, with sufficient pressure for a deformation velocity of 10 cm./sec. or more, pressed into the hollow spaces. A deformation velocity of 14-20 cm./sec. is prefd. Sealing is improved by more effective penetration of the material into narrow spaces.

Plug connector

Die Erfindung betrifft einen Steckverbinder (110) zum Verbinden eines ersten Abstandshalters (112) und eines zweiten Abstandshalters (114) für eine Dreifachisolierverglasung, wobei der erste Abschnitt (116a) des Grundkörpers (116) und/oder der zweite Abschnitt (116b) des Grundkörpers (116) um eine vorgegebene Achse (L1) des Grundkörpers (116) bewegbar ist. Die Erfindung betrifft des Weiteren eine Isolierverglasung. Die Erfindung betrifft überdies ein Verfahren zur Herstellung einer Isolierverglasung sowie die Verwendung des Steckverbinders (110) in Mehrfachverglasungen.

Process for producing adhesive and sealing composition and adhesive tape

Insulating glazing unit

Window component stock indexing

A stock supply station for use in a insulated glass unit component production line includes a plurality of rotatable sheet stock coils, an indexing mechanism, and an uncoiling mechanism. The indexing mechanism is coupled to the sheet stock coils for indexing a selected one of the sheet stock coils to an uncoiling position. The uncoiling mechanism selectively uncoils sheet stock from a sheet stock coil indexed to the uncoiling position to thereby provide sheet stock to a downstream processing station.

REMOTE PROFILE FOR REMOTE FRAMEWORK FOR GLASS AND GLASS PACKAGES

В заявке описан дистанционный профиль (50), который предназначен для изготовления из него дистанционной рамки, предназначенной для установки на краях или вдоль краев стеклопакета и образования в нем между листами (51, 52) оконного стекла внутреннего пространства (53), и состоит из основной части (10), изготовленной из синтетического материала и имеющей одну или несколько внутренних полостей (20), заполняемых гигроскопичным материалом. С трех сторон основная часть профиля закрыта металлической пленкой (30), и после сгибания профиля/сборки стеклопакета его не закрытая пленкой внутренняя сторона оказывается обращена к расположенному между листами оконного стекла внутреннему пространству стеклопакета. На внутренней, не закрытой пленкой стороне профиля выполнены отверстия (15), через которые влага из расположенного между листами оконного стекла внутреннего пространства стеклопакета попадает во внутренние полости основной части профиля. Металлическая пленка имеет на концах профилированные участки (31a-g, 32a-g), которые обращены к расположенному между листами оконного стекла внутреннему пространству стеклопакета. Каждый профилированный участок состоит по меньшей мере из одного отогнутого или согнутого участка. The application describes a distance profile (50), which is intended for the manufacture of a distance frame intended for installation on the edges or along the edges of the glass unit and the formation between the sheets (51, 52) of window glass of the inner space (53), and consists of the main part (10) made of synthetic material and having one or more internal cavities (20) filled with absorbent material. On three sides, the main part of the profile is covered with a metal film (30), and after bending the profile / assembly of the glass unit, its inner side not covered by the film is facing the inner space of the glass unit located between the sheets of window glass. Holes (15) are made on the inner side of the profile, which is not covered by film, through which ...