KR102094749B1 - Power distribution device - Google Patents

Abstract

The present invention relates to a power distribution device which simplifies winding between a branch terminal and a main terminal through fitting-coupling and screw-coupling structures between a branch terminal box and the main terminal, and simplifies expansion of the branch terminal box and a location adjustment of the branch terminal box in accordance with a winding location. To this end, the power distribution device comprises: a plurality of branch terminals disposed to be spaced apart from each other and having a screw hole for screw-coupling formed to be penetrated; a branch terminal box having the branch terminal embedded therein to allow at least one of both end units of the branch terminal to protrude toward a first direction; a plurality of main terminals disposed to be spaced apart from each other along the first direction corresponding to the branch terminal and formed long in a second direction crossing the first direction; and a plurality of bolt members disposed to be spaced apart from each other corresponding to the main terminal and connected to the main terminal in a state in which the bolt member is coupled to the screw hole by a screw.

Description

Power Distribution Device {POWER DISTRIBUTION DEVICE}

The present invention relates to a power distribution device, and more specifically, to facilitate the connection between the branch terminal and the main terminal through the fitting and screw coupling structure between the branch terminal box and the main terminal, and the expansion and expansion of the branch terminal box according to the connection location and It relates to a power distribution device for simplifying the position adjustment of the branch terminal box.

In general, separating the power of industrial and household electric distribution boards and switchboards is composed of various circuit breakers such as main circuit breakers, branch circuit breakers, and earth leakage circuit breakers. There is a problem that it is possible to manufacture.

In addition, to separate the power of the electric distribution panel and the distribution panel, it is connected to the busbar using a busbar and attached to the circuit breaker. Complex manufacturing such as hole processing, tap processing, chamfering processing, coating, tube bending and cutting, etc. Since it goes through the process, excessive cost is incurred, and only a place equipped with a special equipment (bus bar processing machine) can manufacture, which causes a delay in delivery.

In the conventional busbar, the power of the R line is supplied to R1-RL-NR, the power of the S line is supplied to S1-SL-SR, the power of the T line is supplied to T1-TL-TR, and the N line is The power is supplied to N1-NL-NL-RR, which creates a space when a breaker is attached, so that foreign matter can infiltrate and always poses a risk of accident. In the conventional busbar connection method, the left and right connections of the branch breaker are connected. Since the position of the circuit breaker that is connected is misaligned so that each phase cannot be matched, it is precisely and completely implemented with a connection busbar, so it cannot be matched when installing the left and right branch circuit breakers. There is a problem that it cannot be quickly processed during recovery.

In addition, in the case of disassembling the distribution panel and the distribution panel, since parts are not standardized, it cannot be recycled and must be disposed of, and since the charging part is exposed, the steel must be used as a protective cover. Use the cover only on the live parts. However, in this case, there is a problem that the toxic gas from the acrylic is generated in a fire, and the charging part is exposed during inspection or when the circuit breaker is replaced, so that an electric shock, short circuit, or ground fault can not be prevented.

Republic of Korea Registered Patent Publication No. 10-0874388 (Name of invention: connection structure of modular block-type power distribution device, announced on December 18, 2008)

The object of the present invention is to solve the conventional problems, and the connection between the branch terminal and the main terminal is simplified through the fitting and screwing structure between the branch terminal box and the main terminal, and the expansion and expansion of the branch terminal box according to the connection location. It is to provide a power distribution device for easy adjustment of the position of the branch terminal box.

According to a preferred embodiment for achieving the object of the present invention described above, the power distribution device according to the present invention is a plurality of spaced apart from each other, the screw hole 111 for screw coupling is formed through the branch terminal 10; A branch terminal box 20 into which the branch terminal 10 is built so that at least one of both ends of the branch terminal 10 protrudes in a first direction; A plurality of main terminals 30, which are arranged to be spaced apart from each other along the first direction in correspondence to the branch terminal 10, and are elongated in a second direction intersecting the first direction; And a plurality of spaced apart from each other corresponding to the main terminal 30, is configured to extend to match the distance between the branch terminal 10 and the main terminal 30, coupled from the outside of the branch terminal box 20 Includes; bolt member 40 for mediating the electrical connection between the branch terminal 10 and the main terminal 30; includes, the branch terminal box 20, the main terminal 30 is a plurality of passages to pass It is spaced apart from each other along the first direction, the main through-hole portion 211 formed through the second direction; is included, the branch terminal box 20, one is fitted with the main terminal 30, or Two or more spaced apart from each other along the second direction to be fitted with the main terminal 30, the branch terminal box 20, the screw hole 111 and the main through-hole based on the screw hole 111 A member passing hole portion 212 communicating the hole portion 211; And a member inlet hole portion 241 formed coaxially with the member passing hole portion 212 and communicating the screw hole 111 and the outside of the branch terminal box 20; through which the member terminal hole 20 is formed, Inside, the bottom bracket member 22, which supports the lower surface of the branch terminal 10 in close contact with the member through-hole 212, and the upper surface of the branch terminal 10 in close contact with the member inlet hole part A cover bracket member 25 on which 241 is formed is further provided, and the threaded portion 42 of the bolt member 40 passes through the member insertion hole portion 241 and the member passing hole portion 212 in turn. At this time, while being screwed to the screw hole 111, the main terminal 30 is pressed, and the main terminal 30 has a connection groove 31 to enlarge the contact area with the bolt member 40; The bottom valve is formed so that one end is connected to the branch terminal 10 and the other end is connected to the main terminal 30. Characterized in that it further comprises; a jacket member (22) and penetrating in the structure, U-shaped cover to the bracket member 25 is energized connection line 70 is installed in the branch junction box 20.

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According to the power distribution device according to the present invention, the connection between the branch terminal and the main terminal is simplified through the fitting and screwing structure between the branch terminal box and the main terminal, and the expansion of the branch terminal box and the location of the branch terminal box according to the location of the connection Adjustment is easy.

In addition, the present invention can simplify the replacement and reassembly of the branch terminal box in the maintenance or maintenance of the power distribution device.

In addition, according to the present invention, since the connection portion of the branch terminal and the main terminal is covered by the branch terminal, foreign substances can be prevented from entering the connection portion of the branch terminal and the main terminal.

In addition, the present invention can stably distribute power to one or both sides of the branch terminal box.

In addition, the present invention can stably fix the branch terminal box to the main terminal through the detailed structure of the branch terminal box and the fastening structure of the bolt member, as well as facilitate the connection between the branch terminal and the main terminal.

In addition, the present invention can conveniently adjust the position of the branch terminal box just by adjusting the screwed state through the bolt member.

In addition, the present invention can increase the contact area between the main terminal and the bolt member through the connecting groove, and prevent or minimize power loss between the main terminal and the branch terminal.

In addition, the present invention can stabilize the electrical connection between the branch terminal and the main terminal through the additional configuration of the energized connection line, it is possible to prevent the connection failure through the bolt member.

In addition, the present invention protects the main terminal by minimizing the external exposure of the main terminal through the detailed structure of the branch terminal box and the fastening structure of the bolt member, and the spacing between the main terminals is automatically aligned, and the main terminal and the branch terminal box It is easy to attach and detach between, increase the contact area between the main terminal and the block member, and prevent or minimize power loss between the main terminal and the branch terminal.

In addition, the present invention can easily move the slide of the block member based on the branch terminal box through the detailed structure of the fitting member, and prevent the block member from being separated from the branch terminal box.

In addition, the present invention can easily arrange each phase of the main terminal through the detailed structure of the branch terminal, prevents mutual contact between the branch terminals, and can easily couple the breaker at the end of the branch terminal. .

In addition, the present invention can stably support the branch terminal inside the branch terminal box through the divided structure of the branch terminal box, and make the position of the screw hole inside the branch terminal box clear.

In addition, the present invention is to position the branch terminal in the interior of the branch terminal box through the branch seating portion, it is possible to prevent the flow of the branch terminal for screwing through the bolt member.

1 is a plan view showing a power distribution device according to a first embodiment of the present invention.
2 is a perspective view showing a branch terminal box in a power distribution device according to a first embodiment of the present invention.
3 is a plan view showing an arrangement state of a branch terminal in a power distribution device according to a first embodiment of the present invention.
4 is a longitudinal cross-sectional view taken along line AA of FIG. 3 in the power distribution device according to the first embodiment of the present invention.
5 is a longitudinal sectional view showing an exploded state of FIG. 4 in a power distribution device according to a first embodiment of the present invention.
6 is a longitudinal sectional view showing a modification of FIG. 4 in the power distribution device according to the first embodiment of the present invention.
7 is a longitudinal cross-sectional view taken along line AA of FIG. 3 in the power distribution device according to the second embodiment of the present invention.
8 is a longitudinal sectional view showing an exploded state of FIG. 6 in a power distribution device according to a second embodiment of the present invention.

Hereinafter, an embodiment of a power distribution device according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted to clarify the gist of the present invention.

1 to 6, the power distribution device according to the first embodiment of the present invention includes a branch terminal 10, a branch terminal box 20, a main terminal 30, and a bolt member 40 can do.

A plurality of branch terminals 10 are spaced apart from each other. The branch terminal 10 is formed with a screw hole 111 for screwing with the bolt member 40. At least one of both ends of the branch terminal 10 is formed to protrude in the first direction from the branch terminal box 20.

The branch terminal 10 may include a connection support portion 11, a connection extension portion 12, and a support protrusion 13 as shown in FIG.

The connection support 11 is formed to be elongated in a second direction crossing the first direction in correspondence with the main terminal 30. A screw hole 111 is formed through the connection support portion 11.

The connection extension portion 12 extends from at least one of both ends of the connection support portion 11. In the first embodiment of the present invention, the connection extension portion 12 extends in the first direction from both ends of the connection support portion 11 and may be bent while extending in the first direction according to the arrangement position of the connection support portion 11. .

The support protrusion 13 extends from the connection extension 12 so as to protrude from the branch terminal box 20.

Then, the plurality of branch terminals 10 are stacked sequentially on the branch terminal box 20. At this time, according to the stacking order, a step is formed between two adjacent connection support portions 11. In the first embodiment of the present invention, the plurality of connection support portions 11 may sequentially form a step in a stacking order.

The plurality of connection support portions 11 are spaced apart from each other in parallel, and the plurality of connection extension portions 12 are spaced apart from each other as at least one of them is bent. In addition, the plurality of support protrusions 13 are disposed on the same virtual plane. The planes in which the plurality of support protrusions 13 are disposed may be substantially the same as the virtual plane in which the plurality of main terminals 30 are disposed or spaced apart in parallel from the virtual plane in which the plurality of main terminals 30 are disposed. You can.

Although not shown, the plurality of branch terminals 10 are each formed long along the first direction, the plurality of connection support portions 11 are disposed on the same virtual support plane, and the plurality of connection extension portions 12 are supported. It can be disposed on a virtually parallel extension plane spaced apart from the plane.

The branch terminal box 20 includes a branch terminal 10 so that at least one of both ends (a pair of support protrusions) of the branch terminal 10 protrudes in the first direction.

Branch terminal box 20 is one of the main terminal 30 is fitted or coupled, or two or more spaced apart from each other along the second direction so that the main terminal 30 is fitted.

At this time, the through hole portion is formed through the branch terminal box 20. The main terminal 30 passes through the through hole. A plurality of through-hole portions are spaced apart from each other along the first direction in correspondence to the number of branch terminals 10 or the number of main terminals 30. The through hole portion is formed through in the second direction.

The through-hole portion will be described as the main through-hole portion 211 in the first embodiment of the present invention.

In the first embodiment of the present invention, the branch terminal box 20 includes a main through-hole portion 211, a member through-hole portion 212, and a member through-hole portion 241, as shown in FIGS. 4 and 5, A head seating groove 244 may be further included.

The main through hole 211 is provided below the branch terminal box 20 based on the branch terminal 10. A plurality of main through hole portions 211 are spaced apart from each other along the first direction in correspondence to the main terminal 30, and are formed through the second direction.

The member passing hole part 212 communicates the screw hole 111 and the main through hole part 211 based on the screw hole 111. The member passing hole portion 212 is formed to penetrate through the first terminal and the second direction in the thickness direction of the branch terminal box 20.

The member insertion hole portion 241 is provided on the upper portion of the branch terminal box 20 based on the branch terminal 10. The member insertion hole portion 241 communicates the outside of the screw hole 111 and the branch terminal box 20 based on the screw hole 111. The member insertion hole portion 241 is formed to penetrate through the first terminal and the second direction in the thickness direction of the branch terminal box 20. The member insertion hole portion 241 is formed coaxially with the member passing hole portion 212.

The head mounting groove 244 is recessed at the upper outer side of the branch terminal box 20 and communicates with the member insertion hole portion 241. The head seating groove 244 may prevent the head member 41 of the bolt member 40 from being inserted so that the bolt member 40 protrudes out of the branch terminal box 20.

In other words, in the first embodiment of the present invention, the branch terminal box 20 includes a bottom member 21, a cover member 24, and a bottom bracket member 22 as shown in FIGS. 4 and 5. And, it may further include a cover bracket member 25.

The bottom member 21 is fitted with the main terminal 30. The bottom member 21 may include a main through hole part 211 and a member through hole part 212. A protruding seating portion 213 into which the supporting protrusion 13 of the branch terminal 10 is inserted and supported may be recessed at the edge of the bottom member 21. The protruding seating portions 213 are opened to both sides of the branch terminal box 20 along the second direction.

The cover member 24 is laminated and fixed to the bottom member 21 to surround the branch terminal 10. The cover member 24 may include a member insertion hole portion 241, and a head seating groove portion 244 may be further included. The cover member 24 may be provided with a protruding support portion 243 for supporting the support protrusion 13 of the branch terminal 10 inserted and supported in the protruding seating portion 213. The protruding support portion 243 protrudes in the thickness direction of the branch terminal box 20 and is fitted to the protruding seating portion 213 to support the supporting protrusion 13 of the branch terminal 10.

The bottom bracket member 22 supports the branch terminal 10 corresponding to the screw hole 111. The bottom bracket member 22 is protruded from the bottom member 21 toward the branch terminal 10. A member passage hole portion 212 is formed on the bottom bracket member 22 as an extension.

The cover bracket member 25 supports the branch terminal 10 corresponding to the screw hole 111. The cover bracket member 25 is formed to protrude toward the branch terminal 10 from the cover member 24. In the cover bracket member 25, a member insertion hole part 241 is extended.

The bottom bracket member 22 and the cover bracket member 25 are arranged to face each other based on the screw hole 111, so that the branch terminal 10 in a portion where the bottom bracket member 22 and the cover bracket member 25 overlap. ) Can be stably supported.

Here, in one of the bottom bracket member 22 and the cover bracket member 25, the branch seating portion 214 in which the connection support portion 11 of the branch terminal 10 including the screw hole 111 is inserted and supported is recessed. Is formed. In addition, the other of the bottom bracket member 22 and the cover bracket member 25 supports the connection support portion 11 of the branch terminal 10 inserted and supported in the branch seating portion 214. In more detail, the other end of the bottom bracket member 22 and the cover bracket member 25 is inserted into the branch seating portion 214 to be inserted into and supported by the branch seating portion 214. 11) can be supported.

In the first embodiment of the present invention, the branch terminal box 20 is illustrated as being separable into a bottom member 21 through which the bottom bracket member 22 protrudes and a cover member 24 through which the cover bracket member 25 protrudes. , It is not limited thereto, and the bottom member 21, the cover member 24, and the branch terminal 10 may be integrally formed through various methods such as insert injection of the branch terminal 10.

A plurality of main terminals 30 are spaced apart from each other along the first direction in correspondence with the branch terminals 10. The main terminal 30 is elongated in the second direction. The length of the main terminal 30 is formed to correspond to the maximum number of installations of the branch terminal box 20 in the power distribution box 60, so that the addition of the branch terminal box 20 or the separation of the branch terminal box 20 can be easily performed. .

At this time, in the main terminal 30, the connection groove portion 31 in which the end of the screw portion 42 of the bolt member 40 is closely inserted corresponding to the bolt member 40 that is screwed to the screw hole 111 is recessed and bolted. The contact area between the member 40 and the main terminal 30 can be increased.

A plurality of bolt members 40 are spaced apart from each other in correspondence with the main terminal 30. The bolt member 40 is connected to the main terminal 30 in a screwed state to the screw hole 111. The bolt member 40 may include a head portion 41 supported by the branch terminal box 20 and a thread portion 42 extending from the head portion 41 and screwed with the screw hole 111.

 At this time, when the screw portion 42 of the bolt member 40 is screwed to the screw hole 111 as well as screwed to the member passing hole portion 212, the bottom member 21 and the cover member 24 without separate fastening members ).

The power distribution device according to the first embodiment of the present invention may further include an energizing connection line 70.

The current connection line 70 is built in the branch terminal box 20 so that the branch terminal 10 and the main terminal 30 are interconnected. The energizing connection line 70 may be partially or partially embedded in the branch terminal box 20 through insert injection. One side of the energizing connection line 70 is connected to the branch terminal 10 corresponding to the screw hole 111, and the other side of the energizing connecting line 70 is exposed to the main through-hole part 211.

More specifically, the energized connection line 70 may include a branch connection terminal 71, a main connection terminal 72, and a connection line 73.

For example, the branch connection terminal 71 may be stacked on the connection support portion 11 of the branch terminal 10 of the floor bracket member 22 in correspondence with the screw hole 111. Then, when the bottom member 21 and the cover member 24 are combined, the connection support portion 11 and the branch connection terminal of the branch terminal 10 as the cover bracket member 25 presses the branch connection terminal 71 The adhesive force between (71) can be improved.

As another example, the branch connection terminal 71 may be seated on the branch seating portion 214 of the floor bracket member 22 in correspondence with the screw hole 111. Then, when the bottom member 21 and the cover member 24 are coupled, the connection support part 11 of the branch terminal 10 as the cover bracket member 25 presses the connection support part 11 of the branch terminal 10 ) And the branch connection terminal 71 can improve adhesion.

In the branch connection terminal 71, a threaded portion 42 of the bolt member 40 is screwed to the screw hole 111, or a branch connection passage hole through which the threaded portion 42 of the bolt member 40 passes is formed. Can be.

The main connection terminal 72 is integrally formed with the bottom member 21 so as to be exposed to the main through hole portion 211. For example, when the main terminal 30 is inserted into the main through hole 211, the main connection terminal 72 is disposed and connected to the lower portion of the main terminal 30, and the threaded portion 42 of the bolt member 40 is As the main terminal 30 is pressed, the adhesion between the main terminal 30 and the main connection terminal 72 can be improved. As another example, when the main terminal 30 is inserted into the main through-hole portion 211, the main connection terminal 72 is disposed and connected to the upper portion of the main terminal 30, and the threaded portion 42 of the bolt member 40 is As the main connection terminal 72 is pressed, the adhesion between the main terminal 30 and the main connection terminal 72 can be improved.

The connection line 73 electrically connects the branch connection terminal 71 and the main connection terminal 72. The branch connection terminal 71 and the main connection terminal 72 may be integrally formed at both ends of the connection line 73, respectively.

Looking at the coupling operation of the main terminal 30 and the branch terminal box 20 in the power distribution device according to the first embodiment of the present invention, the main terminal 30 corresponds to one or more branch terminal boxes 20 to branch. It is fitted to the main through-hole portion 211 provided in the.

And when the threaded portion 42 of the bolt member 40 passes through the member inlet hole portion 241 and the member passing hole portion 212 in sequence, it is screwed to the screw hole 111 to press the main terminal 30 to main The branch terminal box 20 may be fixed to the terminal 30, and the main terminal 30 and the branch terminal 10 may be connected.

In addition, one end of the main terminal 30 to which the branch terminal box 20 is coupled is connected to the main circuit breaker 50 installed in the power distribution box 60 and to which external power is applied.

Although not shown, the power distribution box 60 may be provided with a support rail (not shown) indicating the sliding path of the branch terminal box 20. In this case, reference numeral 215 is a terminal box support groove that is slideably coupled to the support rail (not shown). The terminal box support groove 215 is formed to be recessed along the second direction from the lower side of the branch terminal box 20 where the branch terminal 10 protrudes from the branch terminal box 20 so that a support rail (not shown) has a support protrusion 13 ).

7 and 8, the power distribution device according to the second embodiment of the present invention includes a branch terminal 10, a branch terminal box 20, a main terminal 30, and a bolt member 40 can do.

A plurality of branch terminals 10 are spaced apart from each other. The branch terminal 10 is formed with a screw hole 111 for screwing with the bolt member 40. At least one of both ends of the branch terminal 10 is formed to protrude in the first direction from the branch terminal box 20.

The branch terminal 10 may include a connection support portion 11, a connection extension portion 12, and a support protrusion 13 as shown in FIG.

The connection support 11 is formed to be elongated in a second direction crossing the first direction in correspondence with the main terminal 30. A screw hole 111 is formed through the connection support portion 11.

The connection extension portion 12 extends from at least one of both ends of the connection support portion 11. In the second embodiment of the present invention, the connection extension part 12 extends in the first direction from both ends of the connection support part 11 and may be bent while extending in the first direction according to the arrangement position of the connection support part 11. .

The support protrusion 13 extends from the connection extension 12 so as to protrude from the branch terminal box 20.

Then, the plurality of branch terminals 10 are stacked sequentially on the branch terminal box 20. At this time, according to the stacking order, a step is formed between two adjacent connection support portions 11. In the second embodiment of the present invention, the plurality of connection support portions 11 may sequentially form a step in a stacking order.

The plurality of connection support portions 11 are spaced apart from each other in parallel, and the plurality of connection extension portions 12 are spaced apart from each other as at least one of them is bent. In addition, the plurality of support protrusions 13 are disposed on the same virtual plane. The planes in which the plurality of support protrusions 13 are disposed may be substantially the same as the virtual plane in which the plurality of main terminals 30 are disposed or spaced apart in parallel from the virtual plane in which the plurality of main terminals 30 are disposed. You can.

Although not shown, the plurality of branch terminals 10 are each formed long along the first direction, the plurality of connection support portions 11 are disposed on the same virtual support plane, and the plurality of connection extension portions 12 are supported. It can be disposed on a virtually parallel extension plane spaced apart from the plane.

The branch terminal box 20 includes a branch terminal 10 so that at least one of both ends (a pair of support protrusions) of the branch terminal 10 protrudes in the first direction.

Branch terminal box 20 is one of the main terminal 30 is fitted or coupled, or two or more spaced apart from each other along the second direction so that the main terminal 30 is fitted.

At this time, the through hole portion is formed through the branch terminal box 20. The main terminal 30 passes through the through hole. A plurality of through-hole portions are spaced apart from each other along the first direction in correspondence to the number of branch terminals 10 or the number of main terminals 30. The through hole portion is formed through in the second direction.

The through-hole portion will be described as a block through-hole portion 261 in the second embodiment of the present invention.

The power distribution device according to the second embodiment of the present invention further includes a block member 26 and a fitting member 27 as shown in FIGS. 6 and 7.

The block member 26 is fitted with the block fitting groove portion 23 provided in the branch terminal box 20 so that the main terminal 30 is exposed toward the bottom of the block fitting groove portion 23 provided in the branch terminal box 20. . The block member 26 is formed with a block through-hole 261 through which the main terminal 30 passes. A plurality of block through-hole portions 261 are spaced apart from each other along the first direction in correspondence to the main terminal 30, and are formed through the second direction. The block member 26 is provided with a member connecting groove portion 262 for communicating the block through hole portion 261 and the block fitting groove portion 23 to expose the main terminal 30. A plurality of member connection grooves 262 are spaced apart from each other in the first direction in correspondence with the block through hole 261, and communicate with the block through hole 261 in correspondence with the member through hole 212. Since the member connection groove portion 262 is elongated in the second direction, one side surface of the main terminal 30 may be exposed to the member connection groove portion 262 in the longitudinal direction.

The fitting member 27 is connected to the branch terminal box 20 to allow the block member 26 to slide along the second direction in the block fitting groove 23 provided in the branch terminal box 20 based on the branch terminal box 20. The block member 26 is connected to the provided block fitting groove 23.

The fitting member 27 includes a fitting groove portion 271 that is formed to be elongated in a second direction from any one of the side wall of the block member 26 and the side wall of the block fitting groove portion 23, and the side wall and block of the block member 26 It may include a fitting protrusion 272 that is formed to protrude in the second direction from one of the sidewalls of the fitting groove portion 23 to be slideably coupled with the fitting groove portion 271.

At this time, in the second embodiment of the present invention, the branch terminal box 20 includes a block fitting groove portion 23, a member passing hole portion 212, and a head support portion 216, as shown in FIGS. At least one of the member supporting grooves 242 may be further included.

The block fitting groove 23 is formed to be recessed along the first direction at the lower end of the branch terminal box 20 in correspondence to the plurality of main terminals 30 spaced apart from each other. The block fitting groove 23 is formed through the second direction from the lower end of the branch terminal box 20. A block member 26 is fitted to the block fitting groove 23 through a fitting member 27 so as to be movable.

The member passing hole part 212 communicates the screw hole 111 and the block fitting groove part 23 based on the screw hole 111. The member passing hole portion 212 is formed to penetrate through the first terminal and the second direction in the thickness direction of the branch terminal box 20.

The head support portion 216 is recessed at the bottom of the block fitting groove portion 23 so that the head portion of the bolt member 40 is partially inserted and supported. The head support portion 216 communicates with the member passing hole portion 212.

The member supporting groove 242 is provided on the top of the branch terminal box 20 based on the branch terminal 10. The member supporting groove 242 is recessed from the screw hole 111 to the top of the branch terminal box 20. The screw 42 of the bolt member 40 is screwed to the member supporting groove 242, or the screw 42 of the bolt member 40 is fitted.

In other words, the power distribution device according to the second embodiment of the present invention further includes a block member 26 and a fitting member 27 as shown in FIGS. 6 and 7, and the branch terminal box 20 is 6 and 7, the bottom member 21 and the cover member 24 may be further included, and the bottom bracket member 22 and the cover bracket member 25 may be further included.

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The bottom member 21 is provided with a block fitting groove 23. In addition, a member passing hole portion 212 is provided on the bottom member 21. In addition, the head member 216 may be provided on the bottom member 21. A protruding seating portion 213 into which the supporting protrusion 13 of the branch terminal 10 is inserted and supported may be recessed in the bottom member 21. The protruding seating portions 213 are opened to both sides of the branch terminal box 20 along the second direction.

The cover member 24 is laminated and fixed to the bottom member 21 to surround the branch terminal 10. A member supporting groove 242 may be recessed in the cover member 24. The cover member 24 may be provided with a protruding support portion 243 for supporting the support protrusion 13 of the branch terminal 10 inserted and supported in the protruding seating portion 213. The protruding support portion 243 protrudes in the thickness direction of the branch terminal box 20 and is fitted to the protruding seating portion 213 to support the supporting protrusion of the branch terminal 10.

The bottom bracket member 22 supports the branch terminal 10 corresponding to the screw hole 111. The bottom bracket member 22 is protruded from the bottom member 21 toward the branch terminal 10. A member passage hole portion 212 is formed on the bottom bracket member 22 as an extension.

The cover bracket member 25 supports the branch terminal 10 corresponding to the screw hole 111. The cover bracket member 25 is formed to protrude toward the branch terminal 10 from the cover member 24. A member supporting groove 242 may be recessed in the cover bracket member 25.

The bottom bracket member 22 and the cover bracket member 25 are arranged to face each other based on the screw hole 111, so that the branch terminal 10 in a portion where the bottom bracket member 22 and the cover bracket member 25 overlap. ) Can be stably supported.

Here, in one of the bottom bracket member 22 and the cover bracket member 25, the branch seating portion 214 in which the connection support portion 11 of the branch terminal 10 including the screw hole 111 is inserted and supported is recessed. Is formed. In addition, the other of the bottom bracket member 22 and the cover bracket member 25 supports the connection support portion 11 of the branch terminal 10 inserted and supported in the branch seating portion 214. In more detail, the other end of the bottom bracket member 22 and the cover bracket member 25 is inserted into the branch seating portion 214 to be inserted into and supported by the branch seating portion 214. 11) can be supported.

In the second embodiment of the present invention, the branch terminal box 20 is illustrated as being separable by a bottom member 21 and a cover member 24, but is not limited thereto, such as insert injection of the branch terminal 10. The floor member 21, the cover member 24, and the branch terminal 10 may be integrally formed through various methods.

A plurality of main terminals 30 are spaced apart from each other along the first direction in correspondence with the branch terminals 10. The main terminal 30 is elongated in the second direction. The length of the main terminal 30 is formed to correspond to the maximum number of installations of the branch terminal box 20 in the power distribution box 60, so that the addition of the branch terminal box 20 or the separation of the branch terminal box 20 can be easily performed. .

A plurality of bolt members 40 are spaced apart from each other in correspondence with the main terminal 30. The bolt member 40 is connected to the main terminal 30 in a screwed state to the screw hole 111. The bolt member 40 may include a head portion 41 supported by the branch terminal box 20 and a thread portion 42 extending from the head portion 41 and screwed with the screw hole 111.

 In this case, when the screw portion 42 of the bolt member 40 is screwed to the screw hole 111 as well as screwed to the member supporting groove 242, the bottom member 21 and the cover member 24 without separate fastening members ).

Looking at the coupling operation of the main terminal 30 and the branch terminal box 20 in the power distribution device according to the second embodiment of the present invention, the main terminal 30 fits into the block through hole portion 261 of the block member 26 Combined. The block member 26 may be formed to have a length corresponding to the length of the main terminal 30, or may be dividedly arranged in correspondence with a branch location to be branched.

And the screw portion 42 of the bolt member 40 is screwed to the screw hole 111 through the member through-hole portion 212, the head portion 41 of the bolt member 40 is inserted into the head support portion 216 Is supported. At this time, the head portion 41 of the bolt member 40 protrudes from the bottom of the block fitting groove portion 23.

In addition, the block member 26 is fitted to the block fitting groove 23 provided in the at least one branch terminal box 20 in correspondence with the branch location. Here, the head portion 41 of the bolt member 40 protruding from the bottom of the block fitting groove portion 23 is inserted into the member connecting groove portion 262 of the block member 26 and is connected to the main terminal 30, thereby The terminal 30 and the branch terminal 10 can be connected.

In addition, one end of the main terminal 30 to which the branch terminal box 20 is coupled is connected to the main circuit breaker 50 installed in the power distribution box 60 and to which external power is applied.

According to the above-described power distribution device, the connection between the branch terminal 10 and the main terminal 30 is simplified through the fitting and screwing structure between the branch terminal box 20 and the main terminal 30, and the connection position is Accordingly, it is possible to easily expand the branch terminal box 20 and adjust the position of the branch terminal box 20.

In addition, in the maintenance or repair of the power distribution device, it is possible to easily replace and reassemble the branch terminal box 20.

In addition, since the connection portion of the branch terminal 10 and the main terminal 30 is covered by the branch terminal box 20, it is possible to prevent foreign matter from penetrating into the connection portion of the branch terminal 10 and the main terminal 30. have.

In addition, power can be stably distributed to one side or both sides of the branch terminal box 20.

In addition, through the detailed structure of the branch terminal box 20 and the fastening structure of the bolt member 40, the branch terminal box 20 is stably fixed to the main terminal 30, as well as the branch terminal 10 and the main terminal 30. The connection between them can be facilitated.

In addition, it is possible to conveniently adjust the position of the branch terminal box 20 only by adjusting the screwed state through the bolt member 40.

In addition, the contact area between the main terminal 30 and the bolt member 40 is increased through the connection groove portion 31, and power loss between the main terminal 30 and the branch terminal 10 can be prevented or minimized. .

In addition, the electrical connection between the branch terminal 10 and the main terminal 30 can be stabilized through the additional configuration of the energized connection line 70, and connection failure through the bolt member 40 can be prevented.

In addition, through the detailed structure of the branch terminal box 20 and the fastening structure of the bolt member 40, the external exposure of the main terminal 30 is minimized to protect the main terminal 30, as well as between the main terminals 30. The spacing is automatically aligned, and it is easy to attach and detach between the main terminal 30 and the branch terminal box 20, increase the contact area between the main terminal 30 and the block member 26, and the main terminal 30 and Power loss between the branch terminals 10 may be prevented or minimized.

In addition, through the detailed structure of the fitting member 27, it is easy to move the slide of the block member 26 based on the branch terminal box 20, and it is possible to prevent the block member 26 from being separated from the branch terminal box 20. have.

In addition, each phase of the main terminal 30 can be easily disposed through the detailed structure of the branch terminal 10, prevents mutual contact between the branch terminals 10, and ends of the branch terminal 10 In the circuit breaker can be easily combined.

In addition, through the divided structure of the branch terminal box 20, the branch terminal 10 is stably supported in the interior of the branch terminal box 20, and the position of the screw hole 111 in the interior of the branch terminal box 20 is made clear. You can.

In addition, the branch terminal 10 is positioned in the interior of the branch terminal box 20 through the branch seating portion 214, and the flow of the branch terminal 10 can be prevented from being screwed through the bolt member 40. have.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art may vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It can be modified or changed.

10: branch terminal 11: connection support 111: screw hole
12: connection extension 13: support protrusion 20: branch terminal box
21: floor member 211: main through hole portion 212: member through hole portion
213: protruding seating portion 214: branch seating portion 215: terminal box support groove
216: head support 22: floor bracket member 23: block fitting groove
24: cover member 241: member insertion hole portion 242: member support groove
243: protruding support 244: head mounting groove 25: cover bracket member
26: block member 261: block through hole 262: member connection groove
27: fitting member 271: fitting groove 272: fitting protrusion
30: main terminal 31: connecting groove 40: bolt member
41: head 42: screw 50: main breaker
60: power distribution box 70: power connection line 71: branch connection terminal
72: main connection terminal 73: connection line

Claims (4)

A plurality of spaced apart terminals, a branch terminal 10 through which a screw hole 111 for screw coupling is formed;
A branch terminal box 20 into which the branch terminal 10 is built so that at least one of both ends of the branch terminal 10 protrudes in a first direction;
A plurality of main terminals 30 spaced apart from each other along the first direction and formed long in a second direction crossing the first direction in correspondence with the branch terminal 10; And
A plurality of pieces are spaced apart from each other in correspondence to the main terminal 30, and configured to extend to be equal to the distance between the branch terminal 10 and the main terminal 30, and coupled from the outside of the branch terminal box 20 , A bolt member (40) for mediating electrical connection between the branch terminal (10) and the main terminal (30).
The branch terminal box 20 includes a plurality of main spacer holes 211 that are spaced apart from each other along the first direction and pass through in the second direction so that the main terminal 30 passes.
The branch terminal box 20, one is fitted with the main terminal 30, or two or more are spaced apart from each other along the second direction, the main terminal 30 is fitted,
In the branch terminal box 20, a member passage hole portion 212 for communicating the screw hole 111 and the main through hole portion 211 based on the screw hole 111; And a member insertion hole portion 241 formed coaxially with the member passing hole portion 212 and communicating the outside of the screw hole 111 and the branch terminal box 20.
Inside the branch terminal box 20, a bottom bracket member 22 that closely supports the lower surface of the branch terminal 10 and is formed with the member through-hole 212; and the upper surface of the branch terminal 10. The cover bracket member 25, which is in close contact and is formed with the member inlet hole portion 241; is further provided,
When the threaded portion 42 of the bolt member 40 passes through the member insertion hole portion 241 and the member passing hole portion 212 in sequence, the main terminal 30 is screwed to the screw hole 111. Pressurize,
The main terminal 30, the connection groove portion 31 so as to increase the contact area with the bolt member 40; is recessed,
The branch has a structure that penetrates through the bottom bracket member 22 and the cover bracket member 25 in a 'c' shape so that one end is connected to the branch terminal 10 and the other end is connected to the main terminal 30. Power distribution device characterized in that it further comprises a; electrical connection line (70) embedded in the terminal box (20). delete delete delete

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