KR101925709B1 - Clamp Jig for Coil - Google Patents

Abstract

The multi-clamp jig assembly according to one embodiment of the present invention includes a first guide rail and a second guide rail extending parallel to each other; Wherein at least one of the first guide rail and the second guide rail includes a plurality of multi-clamp jig units including a thin jig main body corresponding to the first guide rail and the second guide rail, Lt; / RTI > According to the multi-clamp jig assembly according to an embodiment of the present invention, a plurality of coils can be fixed to the multi-clamp jig assembly and can be simultaneously or continuously processed, so that the working time can be remarkably shortened.

Description

Clamp Jig for Coil}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-clamp jig for a rotor coil of a generator, and more particularly, to a multi-clamp jig for a coil for a coil which enables continuous machining by fixing a plurality of coils during a process of forming a groove in a rotor coil, To a clamp jig.

As is widely known, a conventional generator includes a stator in which a coil is wound around a laminated iron core, and a rotor positioned inside the stator with an air gap therebetween. The rotor generates a magnetic flux by the permanent magnet, and the stator generates electric power by rotation of the rotor magnetic flux. Although there is an example in which a permanent magnet is used for a small generator as described above, an electromagnet is generally used in which a field coil is wound around an iron core and a direct current flows through the coil.

A gas turbine rotates a load device such as a compressor impeller and a generator by the power of the turbine, compresses the air by the rotating force of the compressor impeller, and burns the air with the fuel in the combustion chamber to obtain power of the turbine. The rotary shaft of the turbine and compressor impeller can be directly coupled to the rotor of the generator, whereby the rotor of the generator rotates.

As the rotor rotates, the coil inevitably generates heat when the generator generates electricity. Particularly, in the case of high-speed rotation, heat generation becomes even larger. Among them, the rotor coils are drilled for cooling and the grooves are drilled to increase the surface area. So as to secure a hydrogen flow passage for cooling the hydrogen.

In order to break such a groove in the rotor coil, a clamp or a jig for fixing the coil is required. However, conventionally, there has been a problem that only one clamp or a jig is used for forming the groove, so that the groove forming operation takes too long.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a clamp jig assembly that includes a plurality of clamp jigs having a plurality of clamps instead of a single clamp, .

In order to achieve the above object, a multi-clamp jig unit according to an embodiment of the present invention includes a jig main body; A hydraulic pressure supply unit formed at an end of the jig body; And a plurality of clamp portions formed on the jig body in a row in the longitudinal direction of the jig body, wherein the plurality of clamp portions can receive the hydraulic pressure from the hydraulic pressure supply portion and clamp the coils.

Wherein each of the plurality of clamp portions includes: a first clamp that moves up and down by a first cylinder; A second clamp moving in the longitudinal direction of the jig body by a second cylinder; A side support positioned opposite the second clamp with respect to the first clamp and having a support surface parallel to a surface of the second clamp; A moving lead fixed to an upper portion of the second clamp; And a fixed lead formed at an upper end of the side support portion at a height corresponding to the movable lead.

Preferably, the fixed lead extends inwardly of the support surface of the side support, and the movable reed extends inward beyond the pressure surface of the second clamp, and the distance between the fixed reed and the movable reed is greater than the distance Is formed closer to the surface than the distance between the pressure surface of the second clamp and the pressure surface.

In order to achieve the above object, a multi-clamp jig assembly according to an embodiment of the present invention includes a first guide rail and a second guide rail extending parallel to each other; Wherein at least one of the first guide rail and the second guide rail includes a plurality of multi-clamp jig units including a thin jig main body corresponding to the first guide rail and the second guide rail, Lt; / RTI >

The plurality of multi-clamp jig units include a jig main body; A hydraulic pressure supply unit formed at an end of the jig body; And a plurality of clamp portions formed on the jig body in a row in the longitudinal direction of the jig body, wherein the plurality of clamp portions can receive the hydraulic pressure from the hydraulic pressure supply portion and clamp the coils.

Wherein each of the plurality of clamp portions includes: a first clamp that moves up and down by a first cylinder; A second clamp moving in the longitudinal direction of the jig body by a second cylinder; A side support positioned opposite the second clamp with respect to the first clamp and having a support surface parallel to a surface of the second clamp; A moving lead fixed to an upper portion of the second clamp; And a fixed lead formed at an upper end of the side support portion at a height corresponding to the movable lead.

Preferably, the fixed lead extends inwardly of the support surface of the side support, and the movable reed extends inward beyond the pressure surface of the second clamp, and the distance between the fixed reed and the movable reed is greater than the distance Is formed closer to the surface than the distance between the pressure surface of the second clamp and the pressure surface.

According to the multi-clamp jig assembly according to an embodiment of the present invention, a plurality of coils can be fixed to the multi-clamp jig assembly and can be simultaneously or continuously processed, so that the working time can be remarkably shortened.

1 is a perspective view of a multi-clamp jig assembly according to an embodiment of the present invention.
2 is a cross-sectional view of a clamp part of a multi-clamp jig assembly according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of a multi-clamp jig assembly according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a multi-clamp jig assembly according to an embodiment of the present invention. On the floor, two guide rails (30, 40) are spaced apart from each other and extend in the same direction. The first guide rail 30 extends in the form of a rectangular parallelepiped and the second guide rail 40 has a protrusion having slopes opposite to each other in addition to the shape of the first guide rail 30, Extends in the same direction as the extending direction.

A plurality of multi-clamp jig units 2 are seated on the two rails. Each of the multi clamp jig units 2 includes a clamp unit 10, a jig main body 20, a hydraulic pressure supply unit 25, and a hydraulic pressure supply line 26. A first guide groove 21 corresponding to the first guide rail 30 and a second guide groove 22 corresponding to the second guide rail 40 are formed in the lower portion of the jig main body 20, The multi-clamp jig unit 2 can be slid on the jig 30,

The first guide groove 21 is formed in a shape corresponding to the first guide rail 30. That is, it can be formed as a rectangular shape in a shape capable of receiving a rectangular parallelepiped.

The second guide groove 22 is formed in a shape corresponding to the second guide rail 40. That is, it may be formed in a shape having a slope corresponding to a sloped slope in addition to a rectangular-shaped groove capable of receiving a rectangular parallelepiped.

The operator can fix the position of the multi-clamp jig unit 2 by means of a fixing device (not shown), while the multi-clamp jig unit 2 can be freely slid on the respective guide rails, ) Can be adjusted and fixed.

1, an upper portion of the second guide rail 40 has an inclined portion 41. However, a typical artisan has found that the inclined portion 41 is formed by the two guide rails 30, 40 as well as the entire upper surface of any one of the guide rails 30, 40 may be formed as the inclined portion 41. [

When at least one of the guide rails 30 and 40 has an inclined surface or an inclined portion 41, when the coil is fixed to the multi-clamp jig units 2, the fragments coming out of the coils fall down and the guide rails 30, 40 and can be made to flow down as it is. Therefore, when the inclined portion 41 is formed, the fragments are easily gathered on the floor as compared with the case where the inclined portion 41 is not provided, and the frequency of cleaning the guide rails 30 and 40 is reduced.

A hydraulic pressure supply part 25 is formed at one side of the jig main body 20 and the hydraulic pressure supply part 25 can supply hydraulic pressure to all four clamp parts 10. [ The hydraulic pressure supply unit 25 may supply hydraulic pressure to all of the four clamp units 10 or selectively supply hydraulic pressure to only a part of the clamp units 10. This selective operation may vary depending on what the operator selects from the control panel by connecting some of the hydraulic supply lines 25 to the control unit and the control panel.

The jig body 20 has a longitudinal direction in a direction perpendicular to a direction in which the guide rails 30 and 40 extend, and a plurality of clamp portions 10 are disposed along the longitudinal direction. A detailed view of the clamp portion 10 will be described in detail with reference to Fig. 2, which is a cross section taken along the line A-A.

2 is a cross-sectional view of a clamp part of a multi-clamp jig assembly according to an embodiment of the present invention.

A side supporting portion 12 fixed to the jig main body 20 is located at one side and the side supporting portion 12 has a supporting surface facing the longitudinal direction of the multi clamp jig unit 2. [ On the uppermost portion of the side support portion 12, a fixed lead 11 which extends further inward than the support surface and forms an upper boundary portion is formed. The supporting surface and the lower surface of the fixed lead 11 serve as a reference surface for fixing the coil 5. That is, even when the hydraulic clamps apply pressure to the coil 5, the coil 5 is stopped and fixed on the support surface and the lower surface.

A first clamp 13 is provided below the support surface of the side support portion 12 so as to face the support surface and face the upper portion. The first clamp 13 is moved up and down by the first cylinder 14 and presses the coil 5 to the upper reference surface, that is, the lower surface of the fixed lead 11. [

A second clamp 15 is provided on the opposite side of the side support portion 12 so as to face the support surface. The second clamp 15 is moved to the left and right by the second cylinder 16 and presses the coil 5 to the left reference surface, that is, the support surface of the side support portion 12. [

The first cylinder (14) and the second cylinder (16) receive hydraulic pressure from the hydraulic pressure supply unit (25) and move.

A moving lead 17 is provided on the upper portion of the second clamp 15 and the moving lead 17 projects further inward than the pressing surface where the second clamp 15 contacts the coil 5. This is so that the movable lead 17 also forms an upper reference surface, such as the fixed lead 11, on the lower surface thereof. This is because both the fixed lead 11 and the movable lead 17 must support the pressure of the first clamp 13 so that the coil 5 may not be released to the outside. Although not shown in the drawing, the second clamp 15 is connected to the jig main body 20 so that the height thereof can be maintained. The movable lead 17 connected to the second clamp 15 has a role of supporting the coil 5 to be pressed from below by the first clamp, and therefore, it is preferable that the movable lead 17 is configured not to change the height.

1: Multi clamp jig assembly
2: Multi clamp jig unit
5: Rotor coils
10: Clamp section
11: Fixed lead
12:
13: first clamp
14: First cylinder
15: Second clamp
16: second cylinder
17: Moving lead
20: jig body
21: first guide groove
22: second guide groove
25: Hydraulic supply part
26: Hydraulic supply line
30: first guide rail
40: second guide rail

Claims (7)

delete delete delete A first guide rail and a second guide rail extending parallel to each other; And
And a plurality of multi-clamp jig units slidable along the first guide rail and the second guide rail,
Wherein each of the plurality of multi-clamp jigs comprises:
A jig body having a first guide groove formed corresponding to the first guide rail and a second guide groove formed corresponding to the second guide rail; And
And a plurality of clamp portions formed in a line in the longitudinal direction of the jig body on the jig main body so as to process the plurality of coils simultaneously or continuously and fix one of the plurality of coils respectively,
And an inclined surface that prevents fragments generated when the coil is actuated from being stacked on at least one of the first guide rail and the second guide rail.
5. The method of claim 4,
Wherein each of the plurality of multi-clamp jig units includes a hydraulic pressure supply part formed at an end of the jig main body,
And the plurality of clamp portions receive hydraulic pressure from the hydraulic pressure supply portion to clamp the coil.
6. The method of claim 5,
Wherein each of the plurality of clamp portions includes:
A first clamp moving up and down by a first cylinder;
A second clamp moving in the longitudinal direction of the jig body by a second cylinder;
A side support positioned opposite the second clamp with respect to the first clamp and having a support surface parallel to a surface of the second clamp;
A moving lead fixed to an upper portion of the second clamp; And
And a fixed lead formed at an upper end of the side support at a height corresponding to the movable lead.
The method according to claim 6,
Wherein the fixed lead extends inwardly of the support surface of the side support,
The moving reed extending inward beyond the pressure surface of the second clamp,
Wherein the distance between the fixed lead and the movable lead is closer to the distance between the support surface of the side support and the pressure surface of the second clamp.

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