KR102326751B1 - Variable jig appratus for winding transformer coil - Google Patents

Abstract

The present invention relates to a variable-type jig apparatus for winding a transformer coil, which winds a coil wire in a rectangular parallelepiped or cube shape to manufacture a coil used in a transformer. The variable-type jig apparatus for winding a transformer coil includes: a body frame; four wing frames which are installed at predetermined intervals along the outer circumferential surface of the body frame, and are bent in an L-shape to form a rectangular parallelepiped or cube shape; and a connection structure which is installed between the body frame and the wing frames to connect the body frame and the wing frames.

Description

Variable jig appratus for winding transformer coil}

The present invention relates to a variable-type jig device for winding a transformer coil, and more particularly, it is used in a process of winding a coil wire in a cuboid or cube shape to manufacture a coil used in a transformer, and the width of the jig is electronically and hydraulically It relates to a variable jig device for winding a variable transformer coil.

An electric transformer is a device that changes the value of an alternating current voltage or current by using electromagnetic induction. Transformers are widely used from small electronic devices to large-scale substation or power transmission facilities.

A transformer is formed in a structure in which a plurality of windings are wound around a common iron core, and power is input to one winding and then power is output to the other winding. In the case of a power transformer, a coil, a foil, or a sheet-type winding may be used as the winding. In the case of a coil, the surface is coated with enamel to insulate it.

In order to manufacture such a coil for a transformer, conventionally, a jig (a wooden jig, etc.) for determining the size and shape of a coil for a transformer is prepared, and an epoxy frame is attached on the jig to make a reference frame in the form of a cuboid, A coil corresponding to the shape of the reference frame is manufactured by winding a coil wire around the outer circumferential surface of the reference frame.

However, since these epoxy molds have to be manufactured in various ways and precisely depending on the size of the transformer, there is a problem that a jig for determining the shape of the epoxy mold must be precisely processed, and the larger the size of the coil for manufacturing, the greater the amount of wood. There are problems that need to be secured.

On the other hand, Korea Patent No. 10-1890920, etc. discloses a coil wire automatic winding device for manufacturing a coil for a transformer, but the size of the bobbin on which the coil wire is wound is fixed, so that the size of the bobbin is fixed depending on the type of transformer. There is a limit that the coil cannot be manufactured.

On the other hand, the above-mentioned background art is technical information that the inventor possessed for the derivation of the present invention or acquired in the process of derivation of the present invention, and it cannot be said that it is necessarily a known technique disclosed to the general public before the filing of the present invention. .

Korean Patent No. 10-1890920

One aspect of the present invention provides a variable-type jig device for winding a transformer coil used in a process of winding a coil wire in a cuboid or cube shape to manufacture a coil used in a transformer.

In addition, there is provided a variable-type jig device for winding a transformer coil capable of electronically and hydraulically varying the width of a jig used to wind a coil wire in a rectangular parallelepiped or cube shape.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

A variable jig device for winding a transformer coil according to an embodiment of the present invention is used to wind a coil wire in a rectangular parallelepiped or cube shape for manufacturing a coil used in a transformer.

The variable jig device for winding the transformer coil,

a cylindrical body frame;

Four wing frames installed at predetermined intervals along the outer circumferential surface of the body frame and bent in a L-shape to form a rectangular parallelepiped or a cube shape; and

and a connecting structure installed between the body frame and the wing frame to connect the body frame and the wing frame,

The body frame,

a main cylinder provided in a cylindrical shape with a space formed therein, and in which a working fluid is stored;

a pressure piston which is inserted into the lower surface of the main cylinder and ascends or descends along the longitudinal direction of the main cylinder to generate hydraulic pressure;

four branch cylinders communicating with the main cylinder and protruding from one side of a side surface of the main cylinder in a direction in which the wing frame is disposed; and

Including; an interlocking piston installed inside each of the branch cylinders;

The connection structure is

a first housing that is fixedly installed on the interlocking piston, has an opening formed on one side and a receiving portion larger than the diameter of the opening therein;

a second housing fixed to the wing frame and having an opening formed on one side facing the first housing and having a receiving portion larger than the diameter of the opening therein;

A plurality of extension members having one end inserted and installed into the opening formed in the first housing, the other end being inserted and installed into the opening formed in the second housing, the diameter of which increases from the first housing toward the second housing. Continuously connected length adjusting member;

a second member extending from one end of the length adjusting member inserted into the opening formed in the first housing and having a diameter larger than the diameter of the opening formed in the first housing and smaller than the diameter of the accommodating part formed in the first housing 1 locking member;

The second housing is formed extending from the other end of the length adjusting member inserted and installed in the opening formed in the second housing, and is larger than the diameter of the opening formed in the second housing and has a smaller diameter than the diameter of the receiving part formed in the second housing. 2 locking member;

a first elastic member having one end fixed to the bottom surface of the accommodating part formed in the first housing and the other end being connected to the first locking member; and

a second elastic member having one end fixed to the bottom surface of the receiving part formed in the second housing and the other end being connected to the second locking member and installed;

The variable jig device for winding the transformer coil,

When information on the size of the coil used in the transformer is input to the electronic control device connected to the pressure piston, the rising or falling of the pressure piston is electronically controlled by the electronic control device,

When the pressure piston rises along the longitudinal direction of the main cylinder by the electronic control device, the pressure piston pressurizes the working fluid stored in the main cylinder to transfer the interlocking piston installed in the branch cylinder to the main cylinder The winding area of the coil wire formed by the four wing frames is primarily expanded by pushing the wing frame away from the main cylinder by pushing it from the

The wing frame spaced apart from the main cylinder is adjusted according to the length of the length adjusting member, so that the winding area of the coil wire formed by the four wing frames is secondarily expanded.

According to one aspect of the present invention described above, by implementing a variable width of a jig used for winding a coil wire in a rectangular parallelepiped or cube shape, coils for transformers of various sizes can be manufactured through one jig, and this process The width of the jig can be precisely adjusted electronically and hydraulically.

1 is a view showing a schematic configuration of a variable jig device for winding a transformer coil according to an embodiment of the present invention.
2 and 3 are conceptual views for explaining the schematic operation principle of the variable jig device for winding the transformer coil shown in FIG. 1 .
4 is a cross-sectional view illustrating a detailed configuration of the body frame shown in FIG. 1 .
5 and 6 are cross-sectional views illustrating a detailed configuration of the connection structure shown in FIG. 1 .
7 is a view showing an example of a support leg formed in the connection structure.
8 is a view showing an auxiliary support member.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0014] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a view showing a schematic configuration of a variable jig device for winding a transformer coil according to an embodiment of the present invention.

The variable jig device for winding a transformer coil (1) according to the present invention is a structure that performs a function similar to a mold or a jig used in a process of winding a coil wire in a cuboid or cube shape for manufacturing a coil used in a transformer.

That is, the variable jig device 1 for winding a transformer coil according to the present invention is generally designed in a rectangular parallelepiped or cube shape. Shaped coils can be manufactured.

In particular, the variable jig device 1 for winding a transformer coil according to the present invention is characterized in that it is possible to manufacture coils for transformers of various sizes in one device by adjusting the area in which the coil wire is wound as needed.

To this end, the variable jig device 1 for winding a transformer coil according to an embodiment of the present invention includes a body frame 100 , a wing frame 200 and a connection structure 300 .

The body frame 100 is a cylindrical member installed in the center of the variable jig device 1 for winding a coil.

The wing frame 200 is a L-shaped member that is installed to be spaced apart from each other at predetermined intervals along the periphery of the outer peripheral surface of the body frame 100 . As shown, the wing frame 200 may be disposed at a position corresponding to each vertex of a cube or a rectangular parallelepiped so that the variable jig device 1 for winding a transformer coil may form a cube or a rectangular parallelepiped as a whole.

The overall shape of the variable jig device 1 for winding the transformer coil may be determined according to the arrangement position of the four wing frame 200 .

For example, when the four wing frames 200 are arranged at intervals of 90° along the outer circumference of the body frame 100 as shown in FIG. 2, the variable jig device 1 for winding a transformer coil according to the present invention is A coil having a square cross-section can be manufactured, and when the four wing frames 200 are arranged along the periphery of the outer circumferential surface of the body frame 100 in the form shown in FIG. 3, for winding the transformer coil according to the present invention The variable jig device 1 can manufacture a coil having a rectangular cross section.

The connection structure 300 is a member installed between the body frame 100 and each wing frame 200 to connect the body frame 100 and the wing frame 200 , and the wing frame 200 is the connection structure 300 . ) may be connected in a state spaced apart from the body frame 100 by a predetermined distance.

In the variable jig device 1 for winding a transformer coil according to the present invention, a working fluid is stored in the body frame 100 . Therefore, the variable jig device 1 for winding a transformer coil can push the connection structure 300 from the body frame 100 or pull it toward the body frame 100 using the hydraulic pressure provided from the body frame 100 , Accordingly, it is characterized in that the cross-sectional area of the variable jig device 1 for winding a transformer coil can be expanded or reduced by adjusting the spacing between the wing frame 200 and the body frame 100 .

As a result, the variable jig device 1 for winding a transformer coil according to the present invention has the effect of being able to manufacture coils for transformers of various sizes and shapes with one device.

Hereinafter, a specific configuration of the variable jig device 1 for winding a transformer coil of the present invention having such a variable cross-sectional area will be described.

4 is a cross-sectional view illustrating a detailed configuration of the body frame shown in FIG. 1 .

As shown, the body frame 100 includes a main cylinder 110 , a pressure piston 120 , a branch cylinder 130 , and an interlocking piston 140 .

The main cylinder 110 is a cylindrical member with a space formed therein. A working fluid such as oil is stored in the inner space formed in the main cylinder 110 , and an insertion hole for inserting a pressure piston 120 to be described later is formed on the lower surface thereof.

The pressure piston 120 is a member inserted and installed through an insertion hole formed in the lower portion of the main cylinder 110 . The pressure piston 120 can maintain the sealing of the main cylinder 110 , and for this purpose, the head portion is designed to contact the inner wall of the main cylinder 110 to form a T-shape as a whole.

The pressure piston 120 rises or falls along the longitudinal direction of the main cylinder, and in this process, pressurizes the working fluid stored in the main cylinder 110 to generate hydraulic pressure.

The driving motor (not shown) for driving the pressure piston 120 is electrically and circuitly connected to the electronic control device, and as the electronic control device controls the driving motor (not shown), the pressure piston 120 is electronically operated. can be driven

The branch cylinder 130 communicates with the main cylinder, and is a tubular member protruding from one side of the side of the main cylinder in the direction in which the wing frame 200 is disposed.

Four branch cylinders 130 are provided to protrude in the direction in which each wing frame 200 is formed, and one side of the connecting structure 300 is inserted into the branch cylinder 130 .

The interlocking piston 140 is a cylindrical member installed inside each branch cylinder 130 . The interlocking piston 140 slidably moves the branch cylinder 130 according to the hydraulic pressure of the working fluid stored in the main cylinder 110, and in this process, it is attached to the inner wall of the branch cylinder 130 so that the sealing of the main cylinder 110 is maintained. designed to be in contact.

The connection structure 300 has one end connected to the above-described interlocking piston 140 , and the other end connected to the wing frame 200 , so that it approaches or moves away from the main cylinder 110 according to the movement of the interlocking piston 140 . . Accordingly, the wing frame 200 connected to the connection structure 300 may be spaced apart from the main cylinder 110 .

5 is a view showing a detailed configuration of such a connection structure 300 .

As shown, the connection structure 300 includes a first housing 310 , a second housing 320 , a length adjusting member 330 , a first engaging member 340 , a second engaging member 350 , and a first It includes an elastic member 360 and a second elastic member 370 .

The first housing 310 is fixedly installed on the interlocking piston 140 , an opening is formed on one side, and a receiving portion larger than the diameter of the opening is formed therein.

The second housing 310 is fixedly installed on the wing frame 200 , an opening is formed on one side facing the first housing, and a receiving portion larger than the diameter of the opening is formed therein.

That is, the first housing 310 and the second housing are installed in such a way that their respective openings face each other.

One end of the length adjusting member 330 is inserted and installed into the opening formed in the first housing 310 , and the other end is inserted and installed into the opening formed in the second housing 320 .

The length adjusting member 330 is composed of a plurality of extension members having different diameters, and the diameter increases from the first housing 310 to the second housing 320 similarly to the connection structure of an antenna or a monocular telescope. A plurality of extension members are provided in a continuously connected form.

The first locking member 340 is a member extending from one end of the length adjusting member 330 inserted and installed in the opening formed in the first housing 310 . The first locking member 340 is larger than the diameter of the opening formed in the first housing 310 and has a smaller diameter than the diameter of the receiving portion formed inside the first housing 310 .

The second locking member 350 is a member extending from the other end of the length adjusting member 330 inserted and installed in the opening formed in the second housing 320 . The second locking member 350 is larger than the diameter of the opening formed in the second housing 320 and has a smaller diameter than the diameter of the receiving portion formed inside the second housing 320 .

Accordingly, the first locking member 340, the length adjusting member 330, and the second locking member 350 are formed in an I-shape as a whole.

One end of the first elastic member 360 is fixedly installed on the bottom surface of the receiving part formed in the first housing 310 , and the other end is connected to the first locking member 340 and provided in the form of a spring to provide elastic force. can do.

The second elastic member 370 has one end fixedly installed on the bottom surface of the accommodating part formed in the second housing 320 , and the other end connected to the second locking member 350 , similar to the first elastic member 360 . It is provided in the form of a spring to provide elasticity.

Such a connection structure 300 connects the body frame 100 and the wing frame 200, and uses the first elastic member 360 and the second elastic member 370 to apply an external force generated during the winding process of the coil wire. It is possible to improve the quality of the transformer coil manufactured using the variable jig device 1 for winding the transformer coil by absorbing or attenuating it.

In addition, as described above, it is implemented to adjust the length of the length adjusting member 330 to increase the overall length of the connecting structure 300 as shown in FIG. 5 or the connecting structure 300 as shown in FIG. 6 . can shorten the overall length.

The operation process of the variable jig device 1 for winding a transformer coil according to the present invention having such a structure is as follows.

First, the user inputs information on the size of the coil for the transformer to be manufactured into the electronic control device. The electronic control device may be in the form of a computer capable of input/output and calculation of information.

The electronic control device generates an electronic control signal for raising or lowering the pressure piston in response to numerical information input by the user. For example, when it is confirmed that the size of the transformer coil is relatively large, the electronic control device generates a control signal for raising the pressure piston 120 so that the wing frame 200 extends from the body frame 100 , When it is confirmed that the size is relatively small, it is possible to generate a control signal for lowering the pressure piston 120 so that the wing frame 200 is contracted toward the body frame 100 . In this case, the upward or downward movement amount of the pressure piston 120 may be determined with reference to a pre-stored lookup table.

The electronic control device controls the rotation direction and rotation time of the motor by transmitting the generated control signal to the motor providing driving force to the pressure piston 120 . Accordingly, the pressure piston 120 is electronically controlled by an electronic control device.

On the other hand, when the pressure piston rises along the longitudinal direction of the main cylinder by the electronic control device, the pressure piston 120 presses the working fluid stored in the main cylinder 110 to generate hydraulic pressure. The interlocking piston 140 installed in the branch cylinder 130 and the connecting structure 300 connected to the communicating piston 140 move away from the main cylinder 110 by hydraulic pressure, and accordingly, the wings connected to the connecting structure 300 The frame 200 is spaced apart from the main cylinder. As a result, the four wing frame 140 is extended from the body frame 100 so that the winding area of the coil wire formed by the four wing frame 140 is primarily expanded.

In addition, when the operator increases the length of the length adjusting member 330, the wing frame spaced apart from the main cylinder is adjusted according to the length of the length adjusting member, so that the winding area of the coil wire formed by the four wing frames is secondarily expanded do.

As described above, in the variable jig device 1 for winding a transformer coil according to the present invention, when the expansion of the hydraulic winding area through the pressure piston 120 is not sufficient, the winding area is additionally expanded by using the length adjusting member 330 . It can have a possible effect.

In some other embodiments, as shown in FIG. 7 , the support legs 380 may be installed on the connection structure 300 .

The support leg 380 is installed in the lower portion of the second housing 320 to support the wing frame 200 together with the second housing 320 to expand the support area of the connection structure 300 with respect to the wing frame 200 . can do it

This support leg 380 is in contact with the inner surface of the wing frame 200 and a plate-shaped support plate 381 for supporting the wing frame 200, one end is hinged to the support plate 381, the other end is It is hinged to the lower surface of the second housing 320 and includes a rotation arm 382 that supports the support plate 381 from the second housing 320 .

In this way, the support leg 380 expands the support area of the wing frame 200 by supporting the upper side of the wing frame 200 under the connection structure 300 supporting the upper side of the wing frame 200 stably. To support the wing frame 200 .

In some other embodiments, each wing frame 200 may be formed with a L-shaped guide slit along the side portion, and as shown in FIG. 8 , the variable jig device 1 for winding a transformer coil is a wing frame ( It may further include an auxiliary support member 400 fastened to the guide slit formed in 200 .

The auxiliary support member 400 may supplementally fill a space in which two adjacent wing frames 200 are spaced apart from each other.

At this time, the auxiliary support member 400 is formed of a flexible material such as rubber, and while maintaining the connection structure between the wing frames 200 , when the coil wire is wound, the coil wire is bent into the space between the two wing frames 200 to be wound. can be prevented from becoming

Although the above has been described with reference to the embodiments, those skilled in the art will understand that various modifications and changes can be made to the present invention without departing from the spirit and scope of the present invention as set forth in the following claims. will be able

1: Variable jig device for winding transformer coil
100: body frame
110: main cylinder
120: pressure piston
130: branch cylinder
140: peristaltic piston
200: wing frame
300: connection structure

Claims (2)

In the variable jig device for winding a transformer coil, winding a coil wire in a rectangular parallelepiped or cube shape for manufacturing a coil used in a transformer,
The variable jig device for winding the transformer coil,
a cylindrical body frame;
Four wing frames installed at predetermined intervals along the outer circumferential surface of the body frame and bent in a L-shape to form a cuboid or a cube shape; and
and a connecting structure installed between the body frame and the wing frame to connect the body frame and the wing frame,
The body frame,
a main cylinder provided in a cylindrical shape with a space formed therein, and in which a working fluid is stored;
a pressure piston which is inserted into the lower surface of the main cylinder and ascends or descends along the longitudinal direction of the main cylinder to generate hydraulic pressure;
four branch cylinders communicating with the main cylinder and protruding from one side of a side surface of the main cylinder in a direction in which the wing frame is disposed; and
Including; an interlocking piston installed inside each of the branch cylinders;
The connection structure is
a first housing fixed to the interlocking piston and having an opening formed on one side and a receiving portion larger than the diameter of the opening therein;
a second housing fixed to the wing frame and having an opening formed on one side facing the first housing and having a receiving portion larger than the diameter of the opening therein;
One end is inserted into the opening formed in the first housing, and the other end is inserted and installed into the opening formed in the second housing. a length adjustment member connected to;
a second member extending from one end of the length adjusting member inserted into the opening formed in the first housing and having a diameter larger than the diameter of the opening formed in the first housing and smaller than the diameter of the accommodating part formed in the first housing 1 locking member;
The second housing is formed extending from the other end of the length adjusting member inserted and installed in the opening formed in the second housing, and is larger than the diameter of the opening formed in the second housing and has a smaller diameter than the diameter of the receiving part formed in the second housing. 2 locking member;
a first elastic member having one end fixed to the bottom surface of the receiving part formed in the first housing, and the other end being connected to the first locking member; and
a second elastic member having one end fixedly installed on the bottom surface of the accommodating part formed in the second housing and the other end connected to the second locking member;
The variable jig device for winding the transformer coil,
When information on the size of the coil used in the transformer is input to an electronic control device connected to the pressure piston, the rising or falling of the pressure piston is electronically controlled by the electronic control device,
When the pressure piston rises along the longitudinal direction of the main cylinder by the electronic control device, the pressure piston pressurizes the working fluid stored in the main cylinder to transfer the interlocking piston installed in the branch cylinder to the main cylinder The winding area of the coil wire formed by the four wing frames is primarily expanded by pushing the wing frame away from the main cylinder by pushing it from the
The wing frame spaced apart from the main cylinder is adjusted according to the length of the length adjusting member so that the winding area of the coil wire formed by the four wing frames is secondarily expanded, the transformer coil winding variable jig device.
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