KR101264359B1 - A attachment method of heat conduction bar for double pan cake coil - Google Patents

Abstract

PURPOSE: A coupling method of a top and a bottom heat conduction bar in a double-pancake coil is provided to easily control a coupling height using a pushing jig and a pulling jig. CONSTITUTION: A pushing jig and a pulling jig are selected. The jig is selected according to the height of a wire-wound double-pancake coil(100). The height is adjusted. A double-pancake coil is put on the jig by the adjustment. A heat conduction bar(120) and a heat conduction plate are coupled by bolting.

Description

Attachment method of heat conduction bar for double pan cake coil

The present invention relates to a double pancake coil, and to a coupling method of a vertical heat conducting bar coupled to upper and lower portions of a coil wound in a double pancake form used in a superconducting power storage device.

Recently, research and development of superconducting magnetic energy storage (SMES) have been actively conducted in order to supply high quality electric power as it has been developed into an advanced and information society.

Superconducting power storage devices range from small scale superconducting power storage devices to control power quality, and large capacity superconducting power storage devices for load leveling purposes.

Recently, several MJ-class small-scale superconducting power storage devices have been commercialized for the purpose of controlling the power quality of sensitive loads, and have been applied to industrial and military purposes to prove their effectiveness.

The main part of the superconducting power storage device includes a superconducting magnet composed of a superconducting coil, a cryostat for accommodating the superconducting magnet, a current lead for drawing two terminals of the superconducting magnet out of the cryostat, It consists of a power converter that converts and supplies power from the power system.

Conventionally, after winding a thin tape-shaped superconducting coil wire to form a superconducting coil in the form of a pancake, a pair is used together to form a double pancake. Thereafter, a superconducting magnet of a double pancake shape is laminated to make a superconducting magnet.

Superconducting coils have very different critical current characteristics depending on the intensity of the vertical magnetic field perpendicular to the pancake-shaped surface, that is, the broad surface.

The greater the intensity of the vertical magnetic field, the lower the threshold current, which in turn lowers the operating current of the superconducting magnet.

In the case of storing energy in the superconducting magnet, in order to improve the above-mentioned problem, the superconducting coil is disposed in a toroidal form, rather than a method of stacking superconducting coils, thereby reducing the strength of the vertical magnetic field of the superconducting coil.

Such prior arts include Publication No. 10-2011-0083045 (published July 20, 2011) and Publication No. 10-2009-0041520 (published April 29, 2009).

1 is a perspective view showing a conventional double pancake coil, Figure 2 is a perspective view showing a double pancake coil coupled in the form of a toroidal.

FIG. 2 is a form in which the double pancake coils are arranged at equal intervals, and the oxygen-free copper conduction plate for conduction cooling is attached above and below the toroidal coils arranged in this manner.

In conduction cooling, the contact between the double pancake coil and the oxygen free copper conduction plate is very important, and the height of each double pancake coil must be the same in order to increase the contact.

In general, a double pancake coil is wound around 430m of conductor, and the thickness of the conductor used for each of the 28 double pancake coils is different, and one conductor also has a slight thickness difference between sections. Therefore, the winding thickness may be thinner or thicker than expected.

In the conventional manufacturing method, there is a problem that it is difficult to constantly adjust the height of the double pancake coil.

In the double pancake coil according to the present invention, the purpose of the coupling method of the upper and lower heat conducting bars is to provide a method of combining the heat conducting bars to maintain a constant height in order to improve the contact of the upper and lower conducting plates.

In the double pancake coil according to the present invention, the coupling method of the upper and lower heat conducting bars includes selecting a pulling jig and a pushing jig according to the height of the wound double pancake coil, adjusting the height by raising the double pancake coil on the jig; It characterized in that it comprises the step of bolting the heat conduction bar and the heat conduction plate.

Here, when the height of the wound double pancake coil is small and the total height is combined to be smaller than the set height (H) when the heat conduction bar and the heat conduction plate are combined, the height is adjusted by bringing the upper and lower heat conduction bars into close contact with the left and right fixing bars of the pulling jig, and the heat conduction bar and the heat conduction bar. It is characterized by bolting the plate.

In addition, when the height of the wound double pancake coil is large, when the total height is smaller than the set height (H) when the heat conduction bar and the heat conduction plate are coupled, the fixing rod is installed on one side and the heat transfer plate is installed on the pushing jig which is horizontally moved on the other side. Raise the bar coupled double pancake coil, adjust the height by pushing the double pancake coil coupled to the heat conduction bar by a predetermined length, characterized in that the heat conducting bar and the heat conduction plate bolting coupling.

The pushing jig is characterized in that the locking step is formed so that the movable table to move horizontally to stop at a set length.

Coupling method of the upper and lower heat conducting bar in the double pancake coil according to the present invention can adjust the coupling height of the heat conducting bar by using the jig and the pulling jig according to the height of the coiled coil can be produced a double pancake coil having a certain height There is an advantage.

1 is a perspective view showing a double pancake coil;
Figure 2 is a perspective view showing a double pancake coil coupled in the form of a toroidal.
Figure 3 is a flow chart illustrating a coupling method of the upper and lower heat conducting bar in the double pancake coil according to an embodiment of the present invention.
4 is a perspective view showing the coupling of the double pancake coil and the heat conduction bar.
Figure 5 is a drawing substitute picture of the drawing jig used in the method of coupling the upper and lower heat conducting bar in the double pancake coil according to an embodiment of the present invention.
Figure 6 is a drawing substitute photo of the jig used for the coupling method of the upper and lower heat conducting bar in the double pancake coil according to an embodiment of the present invention.
7 is a drawing substitute photograph showing a double pancake coil mounted on a pulling jig.
8 is a drawing substitute photograph showing a double pancake coil mounted on a pushing jig.
9 is a drawing substitute photograph showing the locking jaw of the pushing jig.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Figure 3 is a flow chart illustrating a coupling method of the upper and lower heat conduction bar in the double pancake coil according to an embodiment of the present invention.

As shown in FIG. 3, in the double pancake coil according to the present invention, the coupling method of the upper and lower heat conducting bars includes a step of selecting a jig, raising a double pancake coil on the selected jig, and combining a heat conducting bar and a heat conducting plate.

Specifically, the jig selection step is a step of selecting the pulling jig and pushing jig according to the height of the wound double pancake coil. The pulling jig is used when the height of the wound coil is low. The pushing jig is used when the height of the wound coil is high.

Next, on the selected jig, the height of the double pancake coil is raised to adjust the height, and the heat conduction bar is coupled by bolting the heat conduction bar and the heat conduction plate to produce a double pancake coil having a constant height.

4 is a perspective view showing the coupling of the double pancake coil and the heat conduction bar.

As shown in FIG. 4, the wound coil is coupled between a pair of heat conduction plates 110 to form a double pancake coil 100 in which a combination of two heat conduction plates forms a double pancake shape, and the heat conduction plate 110. The upper and lower side of the heat conducting bar 120 is coupled.

The coupling of the heat conduction plate 110 and the heat conduction bar 120 fixes the fastening hole 122 formed in the heat conduction bar 120 and the fastening hole 112 formed in the heat conduction plate 110 through bolts.

In the double pancake coil 100, the overall height H is determined according to the coupling position of the heat conducting bars 120 to be coupled, and the fine height difference greatly affects the efficiency of conduction cooling.

Next, the pulling jig and pushing jig used in the present invention will be described.

5 is a drawing substitute photograph of a drawing jig used in the method of coupling the upper and lower heat conductive bars in the double pancake coil according to an embodiment of the present invention.

As shown in FIG. 5, the pulling jig is vertically installed with a left and right fixtures 310 and 320 having a predetermined width (set height), and fastening holes 312 are formed in the left and right fixtures 310 and 320, and the fastening holes ( 312 is formed at a position corresponding to the fastening hole 124 formed on the side of the heat conduction bar 120 shown in FIG. 4 so that the top and bottom heat conduction bars are in close contact with the left and right fixtures.

That is, the pulling jig is constantly adjusted in height through a method of coupling the heat conduction bar to the double pancake coil in accordance with the width (H) in which the left and right fixtures 310 and 320 are installed.

7 is a drawing substitute photograph showing a double pancake coil mounted on a pulling jig.

As shown in FIG. 7, the upper and lower heat conducting bars 120 are closely attached to the left and right fixing plates 320 through the bolts B1, and the heat conducting bars and the heat conducting plates are firmly fixed through the bolts B2 to maintain the overall height constant. Do it.

FIG. 6 is a drawing substitute photograph of a pushing jig used in a method of coupling a top and bottom heat conduction bar in a double pancake coil according to an exemplary embodiment of the present invention.

The pushing jig as shown in FIG. 6 is used when the height of the wound double pancake coil is large, and a fixing stand 210 is installed at one side, and a movable table 220 is installed at the other side by rotating the handle 230. .

9 is a drawing substitute photograph showing the locking jaw of the pushing jig.

As shown in FIG. 9, it can be seen that the locking step 205 is formed at the bottom of the movable table 220 to stop at the set length.

8 is a drawing substitute photograph showing a double pancake coil mounted on a pushing jig.

As shown in FIG. 8, the double pancake coil 10 coupled with the heat conducting bar 120 mounted on the pushing jig is placed on the pushing jig and the double pancake coil 100 coupled with the heat conducting bar is pushed. When the set length, that is, the locking jaw 205 is reached, the movable table 220 is no longer moved, and the heat conducting bar 120 and the heat conducting plate are bolted and coupled like the pulling jig.

As described above, the present invention has a main technical idea to provide a method for coupling the upper and lower heat conducting bars in a double pancake coil, and the embodiment described above with reference to the drawings is only one embodiment, and thus the true scope of the present invention. Should be determined by the claims.

100: double pancake coil
110: heat conduction plate
112: fastening hole
120: heat conduction bar
122: fastening hole
124: fastening hole
205: jamming jaw
210: holder
220: moving table
310,320: left and right anchor

Claims (4)

In the method of coupling the upper and lower heat conducting bar to the double pancake coil,
Selecting a pulling jig and a pushing jig according to the height of the wound double pancake coil;
Adjusting the height by raising the double pancake coil on the jig;
A method of coupling the upper and lower heat conducting bars in a double pancake coil, comprising the steps of: bolting the heat conducting bars and the heat conducting plate.
The method of claim 1,
When the height of the wound double pancake coil is small and the total height is combined smaller than the set height (H) when the heat conduction bar and the heat conduction plate are combined,
The upper and lower heat conducting bars are brought into close contact with the left and right fixing bars of a pulling jig to adjust the heights, and the heat conducting bar and the heat conducting plate are bolted to each other.
The method of claim 1,
When the height of the wound double pancake coil is large and the total height is combined when the heat conduction bar and the heat conduction plate are combined to be larger than the set height H,
A pusher is installed on one side and a movable plate installed horizontally on the other side raises the double pancake coil combined with the heat conduction bar on the jig, pushes the double pancake coil combined with the heat conduction bar by the set length, adjusts the height, and bolts the heat conduction bar and the heat conduction plate together. The method of coupling the upper and lower heat conducting bars in a double pancake coil.
The method of claim 3, wherein
The pushing jig is
The coupling method of the upper and lower heat conduction bar in the double pancake coil, characterized in that the locking step is formed so that the horizontal moving table stops at a set length.

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