Electric Motor With Maximized Active Motive Material

An electric motor configured to maximize active motive material within a given motor size by having one or more phase lead exit holes configured to prevent unwanted outside contaminants from entering the motor, phase leads each having an integral strain relief, and two or more Wye terminations that are not electrically connected to each other. 1. A three-phase electric motor comprising:a motor casing having an open end with three haft-round lead exit holes along an edge of the open end; a first set of three stator windings, each winding of the first set of three stator windings having a positive lead and negative lead, and wherein each negative lead of the first set of three stator windings is electrically connected to form a first Wye connection;', 'a second set of three stator windings, each winding of the second set of three stator windings having a positive lead and negative lead, and wherein each negative lead of the second set of three stator windings is electrically connected to form a second Wye connection;', a first positive lead of the first set of three stator windings is electrically connected to a first positive lead of the second set of three stator windings and to a first lead cable to form a phase A lead;', 'a second positive lead of the first set of three stator windings is electrically connected to a second positive lead of the second set of three stator windings and to a second lead cable to form a phase B lead;', 'a third positive lead of the first set of three stator windings is electrically connected to a third positive lead of the second set of three stator windings and to a third lead cable to form a phase C lead;', 'and wherein each of the phase A lead, the phase B lead and the phase C lead is covered with a separate heat shrink tubing thereby electrically insulating and increasing an overall outside diameter of a portion of each respective lead;, 'and wherein], 'a stator sized to fit within the motor casing, the stator having a multiplicity ...

Perimeter Drain

The present disclosure provides a water drainage system comprising: a plurality of lengths of drain pipe comprising a channel and a vertical wall, wherein (i) the vertical wall comprises one or more standoffs extending horizontally from the vertical wall and (ii) wherein the drain pipe comprises a top edge and a bottom edge, each of the top and bottom edges being bifurcated by a v-shaped notch. 1. A water drainage system comprising: a plurality of lengths of drain pipe comprising a channel and a vertical wall , wherein (i) the vertical wall comprises one or more standoffs extending horizontally from the vertical wall and (ii) wherein the drain pipe comprises a top edge and a bottom edge , each of the top and bottom edges being bifurcated by a v-shaped notch.2. The water drainage system of comprising the one or more standoffs in at least two (2) vertically displaced rows.3. The water drainage system of wherein the one or more standoffs are not continuous along a length of drain pipe.4. The water drainage system of wherein lengths of adjacent drain pipe are connected to one another via a clip positioned at the end of two (2) lengths of drain pipe.5. The water drainage system of wherein the clip is secured to the via a frictional fit.6. The water drainage system of wherein the clip is glued to the lengths of adjacent drain pipe.7. The water drainage system of wherein v-shaped notch forms two (2) channels in the interior of the drain pipe.8. The water drainage system of wherein the drain pipe is formed from extruded PVC.9. The water drainage system of wherein a portion of the clip is disposed within either of the v-shaped notches formed on the drain pipe.10. The water drainage system of wherein a portion of the clip is disposed within both of the v-shaped notches formed on the drain pipe. This application claims priority to and the benefit of pending U.S. Provisional Patent Application No. 62/796,205 filed on Jan. 24, 2019.Perimeter drain systems are used to collect and ...

Floor Support

The present disclosure provides a support system comprising a post, said post extending upward vertically from a pad and further comprising upper and lower ends, wherein said lower end is secured to a lower flange; and a joist flange secured to the post opposite the lower flange; wherein the lower flange is secured to the post via a frictional fit.

SYSTEMS AND METHODS FOR FORMING OPTICAL FIBER COATINGS WITH REDUCED DEFECTS ON MOVING OPTICAL FIBERS

The systems and methods of forming optical fiber coatings with reduced defects include moving a bare optical fiber through first and second coating sub-systems. The first coating sub-system forms a first coating on the bare optical fiber by depositing a first coating material and then curing the deposited first coating material with actinic light. This process also results in the formation of stray actinic light. The process also includes moving the coated optical fiber through a second coating sub-system to form a second coating on the first coating. A light-blocking device resides between the first and second coating sub-systems to block the stray actinic light. Without the light-blocking device, the stray actinic light can enter the second coating sub-system and reach the second coating material therein and form a gel therefrom, which in turn leads to defects in the coated optical fiber exiting the second coating sub-system. 1. A coating system for coating a moving optical fiber , comprising:a first coating sub-system, the first coating sub-system configured to apply a first coating material to a moving optical fiber, the first coating sub-system comprising a source of actinic light configured to generate actinic light for curing the first coating material to form a first coating on the moving optical fiber, the source of actinic light further generating stray actinic light, the stray actinic light exiting the first coating sub-system;a second coating sub-system containing a second coating material, the second coating sub-system configured to receive the moving optical fiber and to apply the second coating material to the first coating; anda light-blocking device operably disposed between the first and second coating sub-systems, the light-blocking device configured to receive the moving optical fiber, the light-blocking device further configured to receive the stray actinic light exiting the first coating sub-system and to direct the stray actinic light to the ...

Clip

Perimeter drain

The present disclosure provides a water drainage system comprising: a plurality of lengths of drain pipe comprising a channel and a vertical wall, wherein (i) the vertical wall comprises one or more standoffs extending horizontally from the vertical wall and (ii) wherein the drain pipe comprises a top edge and a bottom edge, each of the top and bottom edges being bifurcated by a v-shaped notch.

Perimeter Drain

The present disclosure provides a water drainage system comprising: a plurality of lengths of drain pipe comprising a channel and a vertical wall, wherein (i) the vertical wall comprises one or more standoffs extending horizontally from the vertical wall and (ii) wherein the drain pipe comprises a top edge and a bottom edge, each of the top and bottom edges being bifurcated by a v-shaped notch.