MAGNETIC SEAMING MODULE AND SUPERCONDUCTIVE MAGNET DEVICE HAVING SAME
The present invention refers to superconducting magnet device relates to, including superconducting magnet device is provided to a high temperature superconductor coil module and are disclosed. Superconductor can be emitting without loss in power. For example, high temperature superconductor (HTS: high temperature superconductor) hereinafter is vaporization of liquid nitrogen in resistance if it has a critical temperature higher than or equal to 0. High temperature superconductor cable, transformer, generator, to contacted, and motor signal from and, magnetic resonance imaging (MRI), and nuclear magnetic resonance (NMR) studies for medical applications such as bio/obtains as washed reduces disclosed. The present invention stably fixing the core are if cylinder including superconducting magnet device and a passive magnetic seaming module or a reversed F. [...] number. The present invention refers to passive magnetic seaming module disclosure as follows. The modules are, cylinder; said outer circumference of the cylinder are inside the device of; said device of said plurality of cylinder used for covering the wound tape film; and at least one of said core and disposed between said tape film, said core are of different thicknesses for fixing said cylinder comprises a spacer block. Wherein, said core are: number 1 number 1 core are having a thickness; and has a thickness which is thinner than said number 1 and number 2, number 2 core comprising said number 1 core are disposed between the can be. Said spacer block has a release coating disposed on the core said number 2, said number 2 of said number 1 core are in contact with both sides of the core can be. According to one example of the present invention, said core and said spacer block has a same area may have. According to one example of the present invention, spacer block has a comprising said eddy can be. According to one example of the present invention, spacer block includes a dielectric can be said. According to one example of the present invention, spacer block comprising said plastic can be. According to one example of the present invention, said portion comprises a tape film can be tone tape film. According to one example of the present invention includes a superconducting magnet device, superconducting coil module; and said superconducting coil module disposed within the housing, said superconducting coil module comprising magnetic field number plower magnetic seaming module. Wherein, said magnetic seaming module, cylinder; said outer circumference of the cylinder are inside the device of; said device of said plurality of cylinder used for covering the wound tape film; and at least one of said core and disposed between said tape film, said core are of different thicknesses can be spacer fixed to said cylinder block. Said core are: number 1 number 1 core are having a thickness; and has a thickness which is thinner than said number 1 and number 2, number 2 core comprising said number 1 core are disposed between the can be. Said spacer block has a release coating disposed on the core said number 2, said number 2 of said number 1 core are in contact with both sides of the core can be. According to one example of the present invention, cooling said superconducting coil module storing refrigerant, said superconducting coil module can also refrigerant immersing said reaction chamber. Said refrigerant said refrigerant chamber separated from said magnetic seaming module 1308. ball number. As described above, according to the example of the present invention embodiment passive magnetic seaming module on core and tape film using spacer between lateral walls of the cylinder block can be moved between said core connected between. Figure 1 shows a cross-section of the present invention embodiment example according to superconducting magnet device also show are disclosed. Figure 2 shows a superconducting coil modules (showing one example of a perspective view of Figure 1 are disclosed. Figure 3 shows a plane view of Figure 1 showing one example of a magnetic seaming module are disclosed. Figure 4 shows a perspective view of Figure 3 is shown one example of 1a are disclosed. Hereinafter, a detailed drawing of the present invention preferred embodiment appended reference to less than 1000. Advantages and features of the present invention, achieve the appended drawing method and an electronic component connected to the reference surface in the embodiment together with specifically carry activitycopyright will. However in the embodiment described herein the present invention refers to a limited to different but are embodied in the form disapproval. Rather, the disclosure is introduced in the embodiment wherein the contents of the present invention to one skilled in the event can be calculated and complete and for allowing a target ball which can be transmitted sufficiently in order to number, defined by category of the present invention refers to claim only disclosed. The same references refer to the same components across special specification. The specification describes in the embodiment for the present invention the term used in which relayed a number that is even endured. In the specification, a plurality type comprises a unit in a single may be phrase will not specially mentioned. Used in specification 'includes (comprises)' and/or 'including (comprising)' handle components, steps, operation and/or element comprises at least one other components, steps, operation and/or devices does not number the presence or addition times. In addition, preferred embodiment according to which the, descriptions in order correction and which references the number always limited. In addition, in the specification, referred to as any film other films on substrates or when it other films that can be formed directly on a substrate or film may be interposed therebetween number 3 or another substrate. In addition, in the embodiment of the present invention are discussed specification the ideal example products on be described and/or plane view that excels in the cross-sectional drawing are disclosed. Substrate in drawing, description and technical content of effective for exaggerated thickness regions are disclosed. The, number bath techniques and/or tolerances of form can be modified by example degrees. Thus, the specific number of the present invention in the embodiment shown are but one type of change including process for preparing produced in accordance number are disclosed. For example, the etching area shown at right angles having an predetermined angular or round may be in the form disclosed. The, drawing exemplified regions are coarse has attribute, for example the shape for drawing exemplified areas in the region of the invention which form relayed number categories for endured. Figure 1 shows a device according to example of the present invention embodiment also pyroelectric magnet (100) 2001 KIPO. The reference also 1, of the present invention superconducting magnet device (100) comprising a nuclear magnetic resonance device can be. Alternatively, superconducting magnet device (100) comprising a magnetic resonance imaging device can be. According to one example, superconducting magnet device (100) includes a refrigerant chamber (110), superconducting coil modules (120), and magnetic seaming module (130) can be comprising. Refrigerant chamber (110) includes a refrigerant (112) can be storing. For example, refrigerant (112) comprising liquid nitrogen and/or liquid helium can be. Superconducting coil modules (120) a refrigerant chamber (110) can be disposed within. Superconducting coil modules (120) a refrigerant (112) can be immersed in 2000. Refrigerant (112) includes a refrigerant chamber (110) (not shown) can be re-circulated to an external chiller. Refrigerant (112) may have temperature of about 77K hereinafter. Superconducting coil modules (120) can be cooled by the refrigerant. Figure 2 shows a superconducting coil modules of Figure 1 (120) one example of 2001 KIPO. The reference 2 also, superconducting coil modules (120) each of the bobbin (122) and, superconducting coil (124) can be comprising. Bobbin (122) the superconducting coil (124) can be disposed within. For example, bobbin (122) can be a plastic or polymer insulator tube (pipe). Superconducting coil (124) is bobbin (122) can be wound along the outer circumference. Superconducting coil (124) including high temperature superconducting wire can be. Superconducting coil (124) is bobbin (122) of Figure 1 in magnetic field (114) can be derived. Again, the reference also 1, magnetic seaming module (130) a refrigerant chamber (110) and superconducting coil modules (120) can be disposed within. Magnetic seaming module (130) a refrigerant (112) can be spaced from 2000. Superconducting coil modules (120) of magnetic field (114) magnetic seaming module (130) can be passing through. Magnetic seaming module (130) is magnetic field (114) be uniformly [...] number. Figure 3 shows a of Figure 1 magnetic seaming module (130) one example of 2001 KIPO. The reference also 1 and also 3, magnetic seaming module (130) can be the passive magnetic seaming module. Alternatively, active magnetic seaming module be a. According to one example, magnetic seaming module (130) comprises a cylinder (132), core are (134), tape film (136), and spacer blocks (138) can be comprising. Cylinder (132) of Figure 1 includes a refrigerant chamber (110) extending along the inner wall of the can. For example, cylinder (132) can be metal is non-magnetic. Core are (134) comprises a cylinder (132) can be arranged along the outer circumference. Core are (134) (not shown) the cylinder by adhesive number (132) can be bonded to the outer wall. Core are (134) may have a ferromagnetic. The ferromagnetic magnetic field of Figure 1 (114) can be uniformity of control. The intensity of the core are ferromagnetic (134) can be proportional to the size and/or volume. In addition, magnetic field (114) (uniformity) uniformity of the core are (134) can be adjusted depending on the position of. Figure 4 shows a of Figure 3 core are (134) one example of 2001 KIPO. The reference also 3 and 4 also, core are (134) can be arranged in a row along a circumferential. Core are (134) may all be the same height may have. Core are (134) may have different thickness in a circumferential direction. The core are (134) are formed on the outer peripheral surface may have. The reference also 3, tape film (136) are the core (134) of the cylinder (132) in a circumference direction thereof can cover. For example, tape film (136) can be portion comprises a tone tape film. Tape film (136) includes a cylinder (132) can be formed in surrounding. Tape film (136) are the core (134) of the cylinder (132) can be fixed. Core are (134) and the cylinder (132) easily number since the number of adhesion between the adhesion of the wetting ability are disclosed. Nevertheless, core are (134' comparison core are (134) thickness of at least one tape film (136) a gap between (140) can be generated. Gap (140) the device of (134) comprises a cylinder (132) can be separated from. The magnetic field of Figure 1 (114) can be reduced and the uniformity of. Spacer blocks (138) are the core (134) and tape film (136) can be disposed between. Spacer blocks (138) and core are (134) is adhesive between number 1308. ball number. Spacer blocks (138) and tape film (136) are the core (134) of the cylinder (132) can be fixed. Spacer blocks (138) are device of small thickness (134') and tape film (136) gap between (140) may be loaded into the in 2000. The, core are (134) comprises a cylinder (132) can be stably fixed. According to one example, spacer blocks (138) are the core (134) may have the same area. Spacer blocks (138) comprising the eddy can be. For example, spacer blocks (138) dielectric, plastic, polymer, paper, rubber, or wood can be a. Or more, but reference attached drawing of the present invention in the embodiment described, the present invention is provided to its technical idea or person with skill in the art in the present invention is essential features without changing other specific embodiment can form can be understand are disclosed. In the embodiment described above the all sides is provided with a non-limiting exemplary understood to which must substrate. Disclosed are a magnetic seaming module, and a superconductive magnet device having the same. The module comprises: a cylinder; a plurality of steel pieces disposed on the outer circumferential surface of the cylinder; a tape film covering the steel pieces and wound around the cylinder; and a spacer block disposed between at least one among the steel pieces and the tape film to fixate the steel pieces having different thicknesses to the cylinder. The present invention can stably fixate the steel pieces to the cylinder. COPYRIGHT KIPO 2017 Cylinder; said outer circumference of the cylinder are inside the device of; said device of said plurality of cylinder used for covering the wound tape film; and at least one of said core and disposed between said tape film, said core are of different thicknesses comprising a cylinder for fixing said spacer block, said core are: number 1 number 1 core are having a thickness; and has a thickness which is thinner than said number 1 and number 2, disposed between said number 1 number 2 core comprising a fraction, said spacer block has said number 2 core is arranged on, both sides of said number 1 core are in contact with the passive magnetic seaming module of fraction said number 2. According to Claim 1, said said core are having the same area as the spacer block has a passive magnetic seaming module. According to Claim 1, including eddy said spacer block has a passive magnetic seaming module. According to Claim 1, said spacer block has a dielectric including passive magnetic seaming module. According to Claim 1, said spacer block has a plastic including passive magnetic seaming module. According to Claim 1, including passive magnetic seaming module employs a tone tape film said tape film. Superconducting coil module; said superconducting coil module disposed within the housing, said superconducting coil module comprising a magnetic field number plower magnetic seaming module, said magnetic seaming module, cylinder; said outer circumference of the cylinder are inside the device of; said device of said plurality of cylinder used for covering the wound tape film; and at least one of said tape film and disposed between said core, said core are of different thicknesses comprising a spacer fixed to said cylinder block, said core are: number 1 number 1 core are having a thickness; and has a thickness which is thinner than said number 1 and number 2, number 2 core comprising a disposed between said number 1 core, said spacer block has said number 2 core is arranged on, both sides of said number 1 core are in contact with the superconducting magnet device of fraction said number 2. According to Claim 7, cooling said superconducting coil module storing refrigerant, said superconducting coil module also comprising immersing said refrigerant chamber, said refrigerant chamber separated from said magnetic seaming module includes said refrigerant number ball which superconducting magnet device.
