KR102181175B1 - Insulating member and distributing board having the same - Google Patents

Abstract

The insulating cover according to the present invention includes a first cover that accommodates the vertical bus bars on one side of the vertical bus bars provided in the switchboard and is coupled to the vertical bus bars, and is disposed on the other side of the vertical bus bars to couple with the first cover. A second cover may be included, and the first cover may have at least one insertion hole in which a connection conductor electrically connecting the horizontal bus bar disposed outside the first cover and at least one vertical bus bar is disposed. .

Description

Insulation member and switchboard having the same {INSULATING MEMBER AND DISTRIBUTING BOARD HAVING THE SAME}

The present invention relates to an insulating member capable of protecting a vertical bus, and a switchboard having the same.

In general, a switchboard is composed of a structure that attaches and supports a unit device such as a circuit breaker or a protection relay, and an assembly of conductors (busbar, cable, etc.) that connects and connects the unit device. It is divided into low voltage switchgear.

The main circuit that transmits power from the switchboard as described above is composed of a bus, which is a conductor (mainly using copper), and the bus is largely divided into a horizontal bus, which is a main bus, and a vertical bus, which is a branch bus. They are supported on the switchboard frame by a support member such as an insulator or clamp, which is an insulating member.

1 is a perspective view schematically showing a conventional switchboard.

Referring to this, the vertical bus bar 120 is disposed in the switchboard 100 and serves to receive electricity from the horizontal bus bar 110 and supply it to each unit (not shown).

The vertical bus bar 120 is fixed in the switchboard 100 by a plurality of support members 150. The support member 150 is designed to satisfy the insulation distance between the structure in the switchboard 100 and the vertical bus bar 120 and the insulation distance between each phase of the vertical bus bar, as well as satisfying mechanical and electrical strength.

However, in the conventional case, since the vertical bus bar 120 is exposed, there is a problem that there is a high risk of contact and a high probability of a short circuit accident.

An object of the present invention is to provide an insulating member for protecting a vertical bus and securing insulation of the vertical bus, and a switchboard having the same.

The insulating cover according to an embodiment of the present invention includes a first cover that accommodates the vertical bus bars on one side of the vertical bus bars provided in the switchboard and is coupled to the vertical bus bars, and the first cover is disposed on the other side of the vertical bus bars. And a second cover coupled with the first cover, wherein the first cover has at least one insertion hole in which a connection conductor electrically connecting the horizontal bus bar disposed outside the first cover and at least one vertical bus bar is disposed. can do.

In this embodiment, a plurality of the insertion holes may form a two-dimensional arrangement and may be arranged in a grid shape.

In the present embodiment, the first cover may further include a sealing member coupled to the insertion hole in which the connection conductor is not disposed.

In this embodiment, the first cover includes a plurality of partition walls, and each of the vertical busbars may be accommodated in a space partitioned by the partition walls.

In this embodiment, the second cover may include a plurality of slits into which the partition walls are inserted.

In the present embodiment, the second cover may include a plurality of through holes through which a connector of a unit provided in the switchboard is inserted and connected to the vertical bus bar.

In this embodiment, a third cover coupled to the second cover to block the through hole of the second cover may be further included.

In addition, a switchboard according to an embodiment of the present invention is a switchboard having a vertical busbar and a horizontal busbar, and an insulation cover coupled to the vertical busbar to accommodate the vertical busbar in an internal space, and an insulation cover that passes through the insulation cover and passes through the vertical busbar and It may include a connection conductor electrically connecting the horizontal bus bar.

In this embodiment, the insulating cover includes a first cover disposed between the horizontal bus bar and the vertical bus bar, and a second cover coupled to the first cover so that the vertical bus bars are accommodated inside the insulation cover. Can

In this embodiment, the first cover may have a plurality of insertion holes into which the connection conductors are inserted.

According to an embodiment of the present invention, it is possible to safely protect the vertical busbar from an external environment, and prevent the vertical busbar from unnecessarily contacting external elements. Therefore, the risk of contact or the occurrence of a short circuit can be minimized.

1 is a perspective view schematically showing a conventional switchboard.
2 is a perspective view schematically showing a switchboard according to an embodiment of the present invention.
3 is a cross-sectional view partially showing a cross section taken along line II′ of FIG. 2.
Figure 4 is an exploded view of Figure 3;
Figure 5 is an exploded perspective view of Figure 3;
Figure 6 is an exploded perspective view showing Figure 5 from a different angle.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided in order to more completely explain the present invention to those with average knowledge in the art. In addition, shapes and sizes of elements in the drawings may be exaggerated for clearer explanation.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view schematically illustrating a switchboard according to an exemplary embodiment of the present invention, and FIG. 3 is a partial cross-sectional view taken along line II′ of FIG. 2. In addition, FIG. 4 is an exploded view of FIG. 3, FIG. 5 is an exploded perspective view of FIG. 3, and FIG. 6 is an exploded perspective view of FIG. 5 from a different angle.

First, referring to FIG. 2, the switchboard 1 according to the present embodiment includes a vertical bus bar (20 in FIG. 5), a horizontal bus bar 10 disposed a predetermined distance from the vertical bus bar 20, and a vertical bus bar 20. It accommodates the inside and includes an insulating cover 40 coupled to the vertical bus bar (20).

The vertical busbar 20 serves to receive electricity from the horizontal busbar 10 and supply it to each unit (not shown). Since the configuration of the vertical bus bar 20 and the horizontal bus bar 10 is similar to the conventional configuration, detailed description thereof will be omitted.

The vertical busbar 20 is fixed in the switchboard 1 by an insulating cover 40. In addition, the vertical bus 20 is insulated between phases by the insulating cover 40.

3 to 6, the insulating cover 40 includes a first cover 40a disposed on one side of the vertical busbar 20, and a second cover 40b disposed on the other side of the vertical busbar 20. ), and a third cover 40c.

The first cover 40a and the second cover 40b are coupled to each other in a form surrounding the vertical bus bar 20. Therefore, when the first cover 40a and the second cover 40b are coupled, the vertical busbar 20 is located inside the first cover 40a and the second cover 40b.

The first cover 40a is disposed between the horizontal bus bar 10 and the vertical bus bar 20. Accordingly, the first cover 40a serves to protect the vertical busbar 20 from an external environment and prevent contact between the horizontal busbar 10 and the vertical busbar 20.

6, the first cover 40a has at least one insertion hole 42. In this embodiment, the insertion hole 42 is formed in the form of a through hole, and a plurality of the insertion holes 42 form a two-dimensional arrangement and are arranged in a grid shape. However, the configuration of the present invention is not limited thereto.

A connection conductor 30 electrically connecting the horizontal bus bar 10 and the vertical bus bar 20 is disposed in the insertion hole 42. Therefore, the insertion hole 42 is formed in a size in which the connection conductor 30 can be easily inserted.

The connection conductor 30 passes through the insertion hole 42 and has one end fastened to the horizontal busbar 10, and the other end is fastened to the vertical busbar 20 inside the insulating cover 40.

Meanwhile, the sealing member 43 may be coupled to the insertion hole 42 into which the connection conductor 30 is not inserted among the plurality of insertion holes 42. The sealing member 43 is formed in the form of a stopper and is basically coupled to the insertion hole 42 to keep the insertion hole 42 in a closed state. And only when the connection conductor 30 is inserted, the sealing member 43 is removed from the insertion hole 42 to open the insertion hole 42.

Since the sealing member 43 is coupled to the insertion hole 42, the first cover 40a opens only the insertion hole 42 into which the connection conductor 30 is inserted, and the other insertion holes 42 are sealed members. It is kept in a blocked form by (43). Therefore, it is possible to prevent foreign substances from flowing into the insulating cover 40 through the insertion hole 42.

In addition, the first cover 40a includes a plurality of partition walls 44. The partition wall 44 is interposed and disposed between the vertical bus bars 20. Accordingly, since the vertical busbars 20 are respectively distributed and disposed in the inner space of the insulating cover 40 partitioned by the partition wall 44 to ensure insulation between phases, it is possible to minimize a short circuit accident between phases.

The aforementioned insertion holes 42 are located between the partition walls 44. Specifically, they are arranged in a row along the length direction of the vertical bus bars 20 at positions corresponding to each partition space (or vertical bus bar). Accordingly, all of the insertion holes 42 may expose any one vertical bus bar 20. In addition, as the insertion holes 42 are arranged in a row in each partition space, the operator can electrically connect the horizontal bus bar 10 and the vertical bus bar 20 by selecting the insertion hole 42 at a required position.

The second cover 40b is coupled to the first cover 40a with the vertical bus 20 interposed therebetween. As the second cover 40b is coupled to the first cover 40a, the interior of the insulating cover 40 is divided into a plurality of spaces by a partition wall 44, and each of the plurality of spaces divided as described above The vertical busbar 20 is arranged.

As shown in FIG. 3, the second cover 40b includes a first slit 46 into which the partition wall 44 of the first cover 40a is inserted, and a second slit into which a part of the vertical bus bar 20 is inserted. It has (47). The first slit 46 is formed in a width and length in which the partition wall 44 can be firmly inserted. In addition, the second slit 47 is formed to have a width and a length in which the vertical bus bar 20 disposed parallel to the partition wall 44 can be easily inserted.

In addition, as shown in FIG. 6, a plurality of through holes 45 are formed in the second cover 40b. The through hole 45 is used as a passage through which units (not shown) provided in the switchboard 1 are connected to the vertical bus bar 20. Accordingly, the through hole 45 is formed to have a size into which a connector provided in the units can be inserted.

The connectors of the unit are inserted into the through holes 45 and electrically and physically coupled to the vertical busbar 20. Accordingly, the inside of the through hole 45 has a space for accommodating the connectors.

The third cover 40c is coupled to the rear surface of the second cover 40b and includes a plurality of access blocking members 48. The access blocking member 48 is provided to be detachable from the third cover 40c.

The third cover 40c is provided to close the through hole 45 of the second cover 40b that is not in use. Therefore, the part where the connector of the unit should be connected to the vertical bus line 20 is used by attaching a shutter (not shown) after removing the access blocking member 48. Accordingly, even if the unit is removed and the connector comes out, access from the outside is blocked.

The insulating cover of the vertical busbar configured as described above is formed of an electrically insulating material, and completely accommodates the vertical busbar in the internal space. Therefore, it is possible to protect the vertical bus bar from the external environment, and prevent the vertical bus bar from unnecessarily contacting external elements. Therefore, the risk of contact or the occurrence of accidents can be minimized.

In addition, since the insertion hole or through hole is provided, the vertical bus bar can be easily electrically connected to the horizontal bus bar or units even if the vertical bus bar is completely accommodated in the insulation cover. Therefore, it is very easy to assemble the switchboard.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible without departing from the technical spirit of the present invention described in the claims. It will be obvious to those of ordinary skill in the field.

1: switchboard
10: horizontal busbar
20: vertical busbar
30: connection conductor
40: insulation member
40a: first cover
40b: second cover
40c: third cover
42: insertion hole
43: sealing member
44: bulkhead
45: through hole
46: first slit
47: second slit
48: access blocking member

Claims (10)

A first cover accommodating the vertical busbars at one side of the vertical busbars provided in the switchboard and coupled to the vertical busbars; And
A second cover disposed on the other side of the vertical busbars and coupled to the first cover;
Including,
The first cover,
And at least one insertion hole in which a connection conductor electrically connecting the horizontal bus bar disposed outside the first cover and the at least one vertical bus bar is disposed,
A plurality of the insertion holes are arranged between the vertical bus bars and the horizontal bus bars in a grid form forming a two-dimensional arrangement,
The first cover,
An insulating cover formed in the form of a stopper and coupled to the insertion hole in which the connection conductor is not disposed, and comprising a sealing member coupled to the insertion hole so as to be removable from the insertion hole.
delete delete The method of claim 1, wherein the first cover,
An insulating cover having a plurality of partition walls, and each of the vertical busbars is accommodated in a space partitioned by the partition walls.
The method of claim 4, wherein the second cover,
An insulating cover having a plurality of slits into which the partition walls are inserted.
The method of claim 1, wherein the second cover,
Insulation cover having a plurality of through-holes connected to the vertical bus bar by inserting a connector of the unit provided in the switchboard.
The method of claim 6,
Insulation cover further comprising a third cover coupled to the second cover to block the through hole of the second cover.
A switchboard comprising the insulating cover according to claim 1. delete delete

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