KR200490634Y1 - Busbar supporter - Google Patents

Abstract

Busbar supporter according to an embodiment of the present invention, the insulating body; A busbar fastening body provided in the insulating body and fastened to the busbar; An inner passage formed in the busbar fastening body; An outer passage formed in the insulating body and in communication with the inner passage; A temperature sensor coupler disposed in the inner passage and the outer passage and in contact with the busbar; And a temperature sensor output terminal connected to the temperature sensor coupler and provided on an outer surface of the insulation body.

Description

Busbar supporter {Busbar supporter}

The present invention relates to a busbar supporter, and more particularly to a busbar supporter for supporting the busbar provided in the switchboard.

A power device panel such as a switchboard includes at least one busbar as a component, and a configuration for electrical insulation and mechanical fixing of the busbar is essential. In addition, the power equipment panel is provided with a temperature sensor for monitoring whether the temperature of the busbars does not increase excessively.

In a conventional switchboard, a separate temperature sensor is attached to the busbar to measure the temperature of the busbar and manages the temperature of the busbar. However, when a separate temperature sensor is attached, there is a possibility that a temperature measurement error occurs depending on the attachment state and the attachment position of the temperature sensor. In addition, when the attached temperature sensor is dropped or detached, additional insulation problems may occur due to the dropped temperature sensor.

In order to solve this problem, there is a method of using a temperature-sensitive sticker instead of a temperature sensor, but the temperature-sensitive sticker is only able to confirm whether the temperature has risen afterwards, such as monitoring the user in real time when the temperature increases Difficult to implement functionality

In addition, in order to check the temperature-sensitive sticker, a viewing window is required, and in the case of a component that is difficult to check inside through the viewing window, there is a problem that can only be confirmed in a diagonal state during maintenance period.

One problem to be solved by the present invention is to provide a busbar supporter with a built-in configuration for temperature measurement.

Busbar supporter according to an embodiment of the present invention, the insulating body; A busbar fastening body provided on the insulating body and fastened to the busbar; An inner passage formed in the busbar fastening body; An outer passage formed in the insulating body and in communication with the inner passage; A temperature sensor coupler disposed in the inner passage and the outer passage and in contact with the busbar; And a temperature sensor output terminal connected to the temperature sensor coupler and provided on an outer surface of the insulation body.

The temperature sensor coupler may include a contact portion in contact with the bus bar; And an extension part extending from the contact part to the temperature sensor output terminal.

The inner passage may include a first passage formed in a length direction of the insulating body and in which the contact portion is located; And a second passage communicating with the first passage and the outer passage, respectively, and formed in a radial direction of the insulating body.

The temperature sensor output terminal may be provided on an outer circumference of the insulation body.

The electronic device may further include an elastic member disposed in the first passage and providing an elastic force in a direction in which the contact portion approaches the bus bar.

The temperature sensor output terminal is disposed on the outer circumference of the insulating body and an output terminal connection part formed in a flat shape may be formed.

The busbar fastening body may include one fastening hole and another fastening hole spaced apart from the one fastening hole, and the first passage may be located between the one fastening hole and the other fastening hole.

Busbar supporter according to another embodiment of the present invention, the insulating body; A busbar mounting groove formed in the insulating body and to which the busbar is fitted; A depression formed in one side of the busbar mounting groove; An inner passage communicating with the depression and formed in the insulation body; A temperature sensor coupler disposed in the recess and the inner passage and in contact with the busbar; And a temperature sensor output terminal connected to the temperature sensor coupler and provided on an outer surface of the insulation body.

The temperature sensor coupler may include a contact portion disposed in the depression and in contact with the busbar; And an extension part embedded in the inner passage and extending from the contact part to the temperature sensor output terminal.

It may further include an elastic member disposed in the inner passage or the recessed portion, and providing an elastic force in a direction in which the contact portion is close to the bus bar.

The busbar mounting grooves may be formed in a plurality spaced apart from each other by a predetermined interval with respect to the longitudinal direction of the insulating body.

The depression formed in one busbar mounting groove may be formed in an end side closer to the busbar mounting groove among both ends of the insulating body.

The temperature sensor output terminal may overlap the bus bar mounting groove in a direction perpendicular to the length direction of the insulating body.

The contact part may include a guide surface that is formed obliquely or roundly with respect to an insertion direction of the busbar inserted into the busbar mounting groove.

According to a preferred embodiment of the present invention, even in the live state of the busbar supported by the busbar supporter can measure the temperature of the busbar in real time.

In addition, the temperature of the busbars can be measured more accurately.

In addition, the temperature of the busbar can be measured regardless of the position of the busbar.

In addition, it is possible to prevent errors or errors that may occur when attaching a separate temperature measuring device.

1 is a perspective view illustrating a state in which a busbar is fastened to a busbar supporter according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the busbar supporter illustrated in FIG. 1 taken along AA ′.
3 is a cross-sectional view of the busbar supporter shown in FIG. 1 taken along BB ′.
4 is a perspective view illustrating a bus bar fastening to a bus bar supporter according to another embodiment of the present invention.
FIG. 5 is a perspective view illustrating an insulating housing of the busbar supporter illustrated in FIG. 4.
6 is a cross-sectional view showing the internal structure of the busbar supporter according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to be described in detail so that those skilled in the art to which the present invention pertains can easily implement the present invention. It does not mean that the technical spirit and scope of the invention is limited.

1 is a perspective view illustrating a bus bar fastening to a bus bar supporter according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the bus bar supporter shown in FIG. 1 taken along AA ′, and FIG. 1 is a cross-sectional view of the busbar supporter shown in FIG. 1 taken along BB ′.

Hereinafter, although the busbar supporter 2 will be described based on the case where the busbar supporter 2 is vertically extended as shown in FIGS. 1 to 3, the arrangement direction of the busbar supporter 2 may be changed as necessary.

The busbar supporter 2 according to the present embodiment includes an insulation body 4; A busbar fastening body 5 provided on the insulating body 4 and fastened to the busbar 1; An inner passage 13 formed in the bus bar fastening body 5; An outer passage 19 formed in the insulating body 4 and communicating with the inner passage 13; A temperature sensor coupler (8) disposed in the inner passage (13) and the outer passage (19) and in contact with the busbar (1); And a temperature sensor output terminal 9 connected to the temperature sensor coupler 8 and provided on an outer surface of the insulation body 4.

The busbar supporter 2 according to the present embodiment may be an insulator type supporter.

The busbar supporter 2 may be fastened to the busbar 1 to support the busbar 1 and to perform insulation while measuring the temperature of the busbar 1 in a live state.

Hereinafter, the configuration of the busbar supporter 2 will be described in more detail.

The busbar supporter 2 may include an insulation body 4 and a busbar fastening body 5. The busbar supporter 2 may further include a main fastening body 5A.

The insulating body 4 may be formed in a substantially cylindrical shape. The insulating body 4 may have an insulating material such as bulk molding compound (BMC), epoxy, plastic, or the like.

The insulating body 4 may include a first body 4A, a second body 4B, and a third body 4C.

The first body 4A may be provided with a busbar fastening body 5, and the second body 4B may be provided with a main fastening body 5A to be described later.

The third body 4C connects the first body 4A and the second body 4B, and at least a part of the outer circumference may be formed to be bent in a vertical direction. One end of the third body 4C may be connected to the first body 4A, and the other end thereof may be connected to the second body 4B. In addition, the height of the third body 4C may be higher than the height of the first body 4A and the second body 4B.

In addition, the temperature sensor output terminal 9 is disposed on the outer circumference of the insulating body 4, and an output terminal connection part 4D formed flat may be formed. In more detail, the output terminal connecting portion 4D may be formed at the outer circumference of the first body 4A. The output terminal connecting portion 4d may be formed by vertically cutting a portion of the outer edge of the first body 4A. Since the output terminal connecting portion 4D is formed flat, a connector (not shown) connected to the temperature sensor output terminal 9 can be easily connected or mounted.

The busbar fastening body 5 may be provided in the insulating body 4, more specifically, in the first body 4A. The busbar fastening body 5 may be fastened with the busbar 1 to support the busbar 1.

The busbar fastening body 5 may be formed in a substantially hemispherical shape and may include a flat portion and a curved portion. The planar portion may be exposed to the outside of the first body 4A, and at least a portion of the curved portion may be received in the first body 4A. The flat part may be a busbar contact surface in contact with the busbar 1.

The busbar fastening body 5 may be formed of a metal material such as aluminum. This is to have sufficient strength so that the fastening member C1, such as a screw, can be tightened strongly.

At least one fastening hole 6 may be formed in the busbar fastening body 5. However, it is preferable that a plurality of fastening holes 6 are formed. The fastening hole 6 may be formed to a predetermined depth, and a thread may be formed on the inner circumferential surface of the fastening hole 6 as necessary.

Each fastening hole 6 may be formed to correspond to the supporter fastening hole 7 formed in the bus bar (1). A separate fastening member C1 such as a screw may pass through the supporter fastening hole 7 and the fastening hole 6 to fasten the busbar 1 and the busbar fastening body 5.

However, the fastening method of the busbar supporter 2 and the busbar 1 is not limited thereto. For example, the busbar 1 may be fixed to a separate clamp (not shown), and the clamp may be fastened to the busbar fastening body 5.

The main fastening body 5A may be provided in the insulating body 4, more specifically, the second body 4B. The main fastening body 5 may be fixed to the supporter fixing member 12, such as an enclosure of a switchboard, to fix the busbar supporter 2.

The main fastening body 5A may be formed in a substantially hemispherical shape and may include a flat portion and a curved portion. The flat portion may be exposed to the outside of the second body 4B, and at least a portion of the curved portion may be accommodated in the second body 4B.

The main fastening body 5A may be formed of a metal material such as aluminum. This is to have sufficient strength so that the fastening member C2, such as a screw, can be tightened strongly.

At least one fastening hole 6A may be formed in the main fastening body 5A. However, it is preferable that a plurality of fastening holes 6A are formed. The fastening hole 6A may be formed to a predetermined depth, and a thread may be formed on the inner circumferential surface of the fastening hole 6A as necessary.

Each of the fastening holes 6A may be formed to correspond to the supporter fastening holes 7A formed in the supporter fixing member 12. A separate fastening member C2 such as a screw may pass through the supporter fastening hole 7A and the fastening hole 6A to fasten the supporter fixing member 12 and the main fastening body 5A.

Meanwhile, the busbar supporter 2 may include an inner passage 13 and an outer passage 19.

The inner passage 13 may be formed in the busbar fastening body 5. The inner passage 13 can penetrate from the flat portion to the curved portion of the busbar fastening body 5.

In more detail, the inner passage 13 may include a first passage 15 and a second passage 18.

The first passage 15 may be formed at a predetermined depth from the planar portion of the busbar fastening body 5. The first passage 15 may be formed in the longitudinal direction (eg, up and down direction) of the insulating body 4.

The contact portion 10 to be described later may be located in the first passage 15, and the first passage 15 may be referred to as a contact accommodating hole.

When a plurality of fastening holes 6 are formed in the busbar fastening body 5, the first passage 15 is one fastening hole 6 and another fastening hole 6 spaced apart from the first fastening hole 6. It can be located between. As a result, the gap between the contact portion 10 and the contact portion 10 in the busbar 1 may be minimized.

The second passage 18 may communicate with the first passage 15 and may be elongated in a direction different from that of the first passage 15. For example, the second passage 18 may be formed in the radial direction (eg, the horizontal direction) of the insulating body 4. In addition, the second passage 18 may be formed in a curved shape instead of a straight pipe.

The outer passage 19 may be formed inside the insulating body 4. In more detail, the outer passage 19 may be formed inside the first body 4A. The outer passage 19 may be formed long in the radial direction of the first body 4A.

The outer passage 19 may be in communication with the second passage 18 of the inner passage 13. One end of the outer passage 19 may communicate with the second passage 18 and the other end may be located at the output terminal connection portion 4D.

Meanwhile, the busbar supporter 2 may include a temperature sensor coupler 8 and a temperature sensor output terminal 9.

The temperature sensor coupler 8 may detect the temperature of the busbar 1. The temperature sensor coupler 8 may be in contact with the busbar 1 and may be disposed in the inner passage 13 and the outer passage 19.

More specifically, the temperature sensor coupler 8 may include a contact portion 10 in contact with the busbar 1, and an extension portion 11 extending from the contact portion 10 to the temperature sensor output terminal 9. .

The contact portion 10 may be exposed to the outside of the busbar fastening body 5. When the busbar 1 is fastened to the busbar fastening body 5, the contact portion 10 may be in contact with the busbar 1.

The contact portion 10 may be disposed in the first passage 15. The contact part 10 may be fixedly or movably disposed in the first passage 15.

When the contact portion 10 is disposed to be movable, the busbar supporter 2 may further include an elastic member 16.

The elastic member 16 may be disposed in the first passage 15 and may provide an elastic force in a direction in which the contact portion 10 approaches the busbar 1.

An elastic member support part 17 on which the elastic member 16 is supported may be formed in the first passage 15. The elastic member 16 may be tensioned or compressed between the contact portion 10 and the elastic member support portion 17.

In more detail, before the busbar 1 is fastened to the busbar fastening body 5, the contact portion 10 may protrude upward from the busbar fastening body 5. When the busbar 1 is fastened to the busbar fastening body 5, the contact part 10 may move downward by the busbar 1 and the elastic member 16 may be compressed. Therefore, the elastic member 16 exerts an elastic force upward on the contact portion 10 so that the contact between the contact portion 10 and the busbar 1 can be reliably maintained.

The extension part 11 may be disposed over the first passage 15, the second passage 18, and the outer passage 19. One end of the extension portion 11 may be connected to the contact portion 10 and the other end may be connected to the temperature sensor output terminal 9.

Temperature sensor output terminal 9 may be provided on the outer circumference of the insulating body (4). In more detail, the temperature sensor output terminal 9 may be provided at the output terminal connection part 4D formed at the first body 4A of the insulating body 4.

The temperature sensor output terminal 9 may be connected to the temperature sensing device 14. The temperature sensing device 14 may sense the temperature detected by the temperature sensor coupler 8. The temperature sensing device 14 may be connected to the temperature sensor output terminal 9 by a separate line and spaced apart from the busbar supporter 2. However, the configuration in which the temperature sensing device 14 is immediately mounted on the temperature sensor output terminal 9 is also possible.

That is, the temperature of the busbar 1 detected by the temperature sensor coupler 8 is transmitted to the temperature sensing device 14 through the temperature sensor output terminal 9, and the temperature sensing device 14 is the busbar 1. Can sense the temperature.

By the above configuration, the temperature sensing device 14 may detect the temperature of the bus bar 1 in real time even when the bus bar 1 is in a live state. Therefore, the temperature sensing device 14 may display a message or sound an alarm when the temperature of the bus bar 1 exceeds a set value during the operation of the power device (for example, the switchboard).

4 is a perspective view illustrating a bus bar fastening to a bus bar supporter according to another embodiment of the present invention, FIG. 5 is a perspective view showing an insulating housing of the bus bar supporter shown in FIG. 4, and FIG. The internal structure of the busbar supporter according to another embodiment of the invention is shown in cross-sectional view.

The busbar supporter 22 according to the present embodiment includes an insulating body 23; A busbar mounting groove 24 formed in the insulation body 23 and into which the busbar 21 is fitted; A depression 25 formed in one side in the busbar mounting groove 24; An inner passage 28 in communication with the depression 25 and formed inside the insulation body 23; A temperature sensor coupler 30 disposed in the depression 25 and the inner passage 28 and in contact with the busbar 21; And a temperature sensor output terminal 26 connected to the temperature sensor coupler 30 and provided on an outer surface of the insulation body 23.

The busbar supporter 22 according to the present embodiment may be a clamp type supporter.

The busbar supporter 22 may perform insulation while fixing the busbar 21 and measure the temperature of the busbar 21 in a live state.

Hereinafter, the configuration of the busbar supporter 22 will be described in more detail.

The busbar supporter 22 may include an insulation body 23, a busbar mounting groove 24, and a recess 25.

Insulating body 23 may have a bar shape formed long in one direction. The insulating body 23 may have an insulating material such as bulk molding compound (BMC), epoxy, plastic, or the like.

The busbar mounting groove 24 may be formed in the insulating body 23. The busbar 21 may be inserted into the busbar mounting groove 24, and the width of the busbar mounting groove 24 may be formed to correspond to the thickness of the busbar 21.

The busbar mounting groove 24 may include a first busbar mounting groove 24A and a second busbar mounting groove 24B. In this case, the busbar mounting groove 24 may be equipped with a pair of busbars 21 through which current of the same phase flows. Any one of the pair of busbars 21 may be fitted into the first busbar mounting groove 24A and the other may be fitted into the second busbar mounting groove 24B.

The first bus bar mounting groove 24A and the second bus bar mounting groove 24B may be spaced apart from each other. A depression 25 may be formed in the first bus bar mounting groove 24A, and the depression 25 may not be formed in the second bus bar 24B. This is because the same phase current flows through the bus bar 21 fitted into the first bus bar mounting groove 24A and the bus bar 21 fitted into the second bus bar mounting groove 24B. This may be because the temperatures are the same or similar. Therefore, by forming the depressions 25 in each of the first and second busbar mounting grooves 24A and 24B, the manufacturing cost may be reduced as compared with the case where the temperature of each of the busbars 21 is measured.

In addition, a plurality of busbar mounting grooves 24 may be formed. The plurality of busbar mounting grooves 24 may be spaced apart from each other by a predetermined distance with respect to the longitudinal direction of the insulating body 23.

For example, four busbar mounting grooves 24 may be formed in the insulating body 23. In this case, currents of R, S, T, and N phases may flow through the busbars fitted into the busbar mounting grooves 24.

The distance between the busbar mounting grooves 24 may be greater than the distance between the first busbar mounting groove 24A and the second busbar mounting groove 24B of the busbar 24.

The depression 25 may be formed to be recessed to one side in the busbar mounting groove 24. In more detail, the depression 25 may be recessed in a direction opposite to the second busbar mounting groove 24B in the first busbar mounting groove 24A.

In addition, the depression 25 formed in one busbar mounting groove 24 may be formed in an end side closer to the busbar mounting groove 24 among both ends of the insulating body 23.

Meanwhile, the busbar supporter 22 may include an inner passage 28, a temperature sensor coupler 30, and a temperature sensor output terminal 26.

The inner passage 28 may be formed inside the insulating body 23 and may be in communication with the depression 25.

The temperature sensor coupler 30 may detect the temperature of the bus bar 21 by contacting the bus bar 21 inserted into the bus bar mounting groove 24, and more specifically, the first bus bar mounting groove 24B. have.

The temperature sensor coupler 30 may be disposed in the depression 25 and the inner passage 28.

More specifically, the temperature sensor coupler 30 may include a contact 31 and an extension 32.

The contact part 31 may be disposed to contact the bus bar 21. In addition, the contact portion 31 may be disposed in the depression 25. The contact portion 31 may be disposed in the recess 25 or movably.

The contact part 31 may include a guide surface 31A formed at an angle with respect to the insertion direction of the bus bar 21 inserted into the first bus bar mounting groove 24A. The guide surface 31A may mean a portion in which some of the outer surface of the contact portion 31 is inclined or rounded.

The guide surface 31A may guide the contact portion 31 so that the contact portion 31 naturally moves into the recess 25 in the process of inserting the busbar 21 into the first busbar mounting groove 24A. have. Thereby, the possibility that the busbar 21 catches on the contact part 31 can be prevented.

When the contact part 31 is disposed to be movable, the busbar supporter 2 may further include an elastic member 33.

The elastic member 33 may be disposed in the inner passage 28 or the depression 25 and may provide an elastic force in a direction in which the contact portion 31 approaches the busbar 21.

When the elastic member 33 is disposed in the inner passage 28, the elastic member support part 29 may be formed in the inner passage 28. The elastic member 33 may be tensioned or compressed between the contact portion 31 and the elastic member support portion 29.

In more detail, before the bus bar 21 is fitted into the first bus bar mounting groove 24A, the contact part 31 may be in a state of protruding into the first bus bar mounting groove 24A. When the bus bar 21 is inserted into the first bus bar mounting groove 24A, the contact part 31 may be moved into the recess 25 by the bus bar 21 and the elastic member 33 may be compressed. . Therefore, the elastic member 33 exerts an elastic force on the contact portion 31 toward the first busbar mounting groove 24A, so that the contact between the contact portion 31 and the busbar 21 can be reliably maintained.

Extension 32 may be disposed in inner passage 28. One end of the extension part 32 may be connected to the contact part 31 and the other end may be connected to the temperature sensor output terminal 26.

The temperature sensor output terminal 26 may be provided on an outer surface of the insulating body 23.

The temperature sensor output terminal 26 may overlap the bus bar mounting groove 24 in a direction perpendicular to the length direction of the insulating body 23. In more detail, the temperature sensor output terminal 26 may overlap the first bus bar mounting groove 24A in a direction perpendicular to the length direction of the insulating body 23.

A portion of the temperature sensor output terminal 26 may be located inside the inner passage 28 and connected to the extension part 32.

The temperature sensor output terminal 26 may be connected to the temperature sensing device 14. The temperature sensing device 14 may sense the temperature detected by the temperature sensor coupler 30. The temperature sensing device 14 may be connected to the temperature sensor output terminal 26 by a separate line and spaced apart from the busbar supporter 22. However, of course, the configuration in which the temperature sensing device 14 is directly mounted to the temperature sensor output terminal 26 is also possible.

That is, the temperature of the busbar 21 detected by the temperature sensor coupler 30 is transmitted to the temperature sensing device 14 through the temperature sensor output terminal 26, and the temperature sensing device 14 is the busbar 21. Can sense the temperature.

By the above configuration, the temperature sensing device 14 may detect the temperature of the bus bar 21 in real time even when the bus bar 21 is in the live state. Therefore, the temperature sensing device 14 may display a message or sound an alarm when the temperature of the bus bar 21 exceeds a set value during the operation of the power device (for example, the switchboard).

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention belongs may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

2: busbar supporter 4: insulated body
4D: Output terminal connection 5: Busbar tightening body
8: Temperature sensor coupler 9: Temperature sensor output terminal
10: contact part 11: extension part
13: inner passage 14: temperature sensing device
15: first passage 16: elastic member
18: Second passage 19: Outer passage
22: busbar supporter 23: insulation body
24: busbar mounting groove 25: depression
26: Temperature sensor output terminal 28: Inner passage
30: temperature sensor coupler 31: contact
32: extension part

Claims (14)

Insulation body;
A busbar fastening body provided on the insulating body and fastened to the busbar;
An inner passage formed in the busbar fastening body;
An outer passage formed in the insulating body and in communication with the inner passage;
A temperature sensor coupler disposed in the inner passage and the outer passage and in contact with the busbar; And
A temperature sensor output terminal connected to the temperature sensor coupler and provided on an outer surface of the insulation body,
The temperature sensor coupler,
A contact portion in contact with the busbar; And
An extension part extending from the contact part to the temperature sensor output terminal;
And an elastic member disposed in the inner passage and providing an elastic force to the contact portion such that the contact portion is close to the bus bar. delete The method of claim 1,
The inner passage is
A first passage formed in the longitudinal direction of the insulating body and in which the contact portion is located; And
And a second passage in communication with the first passage and the outer passage, respectively, and a second passage formed in a radial direction of the insulating body. The method of claim 3, wherein
The temperature sensor output terminal is a bus bar supporter provided on the outer circumference of the insulation body. The method of claim 3, wherein
The elastic member is a bus bar supporter disposed in the first passage. The method of claim 1,
Busbar supporter is formed on the outer periphery of the insulating body is the output terminal connection portion is formed flat and the output terminal of the temperature sensor. The method of claim 3, wherein
The busbar fastening body has one fastening hole and another fastening hole spaced apart from the one fastening hole,
The first passageway busbar supporter is located between the one fastening hole and the other fastening hole. Insulation body;
A busbar mounting groove formed in the insulating body and to which the busbar is fitted;
A depression formed in one side of the busbar mounting groove;
An inner passage communicating with the depression and formed in the insulation body;
A temperature sensor coupler disposed in the recess and the inner passage and in contact with the busbar; And
A temperature sensor output terminal connected to the temperature sensor coupler and provided on an outer surface of the insulation body,
The temperature sensor coupler,
A contact portion disposed in the depression and in contact with the busbar; And
An extension part embedded in the inner passage and extending from the contact part to the temperature sensor output terminal;
And an elastic member disposed in the inner passage or the recessed portion and providing an elastic force to the contact portion in a direction in which the contact portion approaches the busbar. delete delete The method of claim 8,
The busbar support grooves are provided with a plurality of busbar mounting grooves spaced apart from each other by a predetermined distance with respect to the longitudinal direction of the insulating body. The method of claim 11,
Recesses formed in one busbar mounting groove, Busbar supporter formed recessed toward the end side closer to the one busbar mounting groove of both ends of the insulating body. The method of claim 8,
And the temperature sensor output terminal overlaps with the busbar mounting groove in a direction perpendicular to the length direction of the insulating body. The method of claim 8,
The contact portion,
Busbar supporter including a guide surface formed oblique or round to the insertion direction of the busbar is inserted into the busbar mounting groove.

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