JP2011244561A - Distribution board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a distribution board capable of installing a transformer without additional space and an installation work.SOLUTION: In a distribution board, an installation rail 2 is attached to a breaker unit 6 having an insertion receiving part for connecting a bus bar at one end thereof. In a transformer unit 7, a pair of insertion parts is disposed at the edge and a transformer 42 is housed in an enclosure 40. An insertion part 43 at the edge of the transformer unit 7 is attached to an insertion receiving part of an adjoining breaker unit so as to install a transformer. In the transformer unit 7, a transformer 42 is disposed at the back of the enclosure 40, and a breaker 45 or a terminal block 46 is disposed on an iron substrate 44 that covers the front of the transformer 42.

Description

  The present invention relates to a distribution board in which a branch breaker can be added as necessary and includes a transformer.

  Distribution boards generally have a structure in which bus bars and breakers are housed inside the cabinet. However, if there is a possibility that the required number of branch breakers will increase, there will be room for extra space. In addition to a cabinet, the length of the bus bar was set longer with extra length in consideration of expansion. However, when an additional branch breaker is not required, space is wasted and the manufacturing cost is increased.

  Accordingly, the present inventor previously arranged a trunk unit having a trunk breaker on the upper part of a vertically long casing having a support column and made it possible to connect a necessary number of branch units having a branch breaker and a bus bar. A distribution board has been developed and patent applications have been filed as Patent Documents 1 and 2. With this structure, since the bus bar is connected, the extra length of the bus bar is not required, and a conventional large cabinet is not required.

  Since such a distribution board is mainly a power distribution board, a three-phase three-wire power source is connected and the line voltage is 200V. Therefore, a transformer is required to supply power to a 100V load. In this case, it is necessary to separately install a transformer cabinet on the side of the housing to house the transformer and a breaker for 100V load, and to wire the wiring drawn out from the housing to the transformer cabinet. For this reason, there is a problem that the original advantage of the distribution board which eliminates the waste of space is impaired, and further construction is required, which increases costs and wiring is unsightly.

JP 2007-300706 A JP 2008-154364 A

  Accordingly, the object of the present invention is to solve the above-mentioned conventional problems, and to add a distribution breaker that can be installed with branch breakers as needed, and can install a transformer without requiring extra space or installation work. Is to provide.

  The present invention made in order to solve the above-mentioned problems is a distribution board in which a breaker unit having an insertion portion for connecting a bus bar at one end is attached to an attachment rail, and a pair of insertion portions at an end portion And a transformer unit including a transformer in a housing is attached to an attachment rail by connecting an insertion portion at an end thereof to an insertion portion of an adjacent breaker unit.

  As in claim 2, the breaker unit may be a main unit provided with a inserted portion for connecting a bus bar at one end or a branch unit provided with an inserted portion at one end and an inserted portion at the other end. it can. Further, as in claim 3, the insertion part or the inserted part of the breaker unit is formed for three phases, and at least one of the insertion parts of the transformer unit can be phase-switched with respect to the inserted part. it can. Further, as in claim 4, the transformer unit may be configured such that a transformer is disposed on the rear side of the housing, a substrate is disposed so as to cover the front side, and a breaker or a terminal block is disposed on the substrate. . Further, as in claim 5, the transformer unit includes fixing portions for attaching the casing to the mounting rail on both sides of the casing, and the transformer is arranged so as to block a straight line connecting the fixing portions on both sides. be able to.

  According to the invention of claim 1 of the present application, a transformer unit having a pair of insertion portions at the end and having a transformer built in the housing, and an insertion portion of the breaker unit adjacent to the insertion portion at the end. By connecting to the mounting rail, the transformer can be installed on the distribution board without the need for extra space or installation work. In addition, according to invention of Claim 2, as a breaker unit, the main unit provided with the insertion part for bus-bar connection in one end, or the branch unit provided with the insertion part in one end, and the insertion part in the other end Therefore, the transformer unit can be attached to either the main unit or the branch unit.

  According to the invention of claim 3, since at least one of the insertion portions of the transformer unit can be phase-exchanged with respect to the insertion portion, the load is not concentrated on a specific phase, and the phase can be easily adjusted. Can balance the tube. Furthermore, according to the invention of claim 4, since a transformer is disposed on the rear side of the housing, a substrate is disposed so as to cover the front side, and a breaker or a terminal block is disposed on the substrate, a safety unit is used. The wiring workability can be improved. According to the invention of claim 5, since the center of gravity of the transformer unit in the depth direction is located in the vicinity of the attachment position, the transformer unit is less likely to be tilted forward when the transformer unit is attached and workability is improved.

It is a perspective view which shows embodiment of this invention. It is a perspective view explaining embodiment of this invention. It is a downward perspective view which shows the structure of a branch unit. It is an upper perspective view which shows the structure of a branch unit. It is a perspective view which shows the bus-bar of a branch unit. It is a downward perspective view of a breaker base. It is a perspective view of a breaker base substrate. It is a perspective view of a transformer unit. It is sectional drawing of a transformer unit. It is a perspective view of the insertion part of a transformer unit. It is a perspective view of the insertion part of a transformer unit. It is a perspective view of a transformer unit. It is a perspective view of a transformer unit.

Hereinafter, preferred embodiments of the present invention will be described.
1 and 2 are perspective views showing an embodiment of the present invention, wherein 1 is a base, and 2 is a support member as a mounting rail standing on the base 1. Mounting holes are formed in the column member 2 at predetermined intervals.
Reference numeral 3 denotes a main unit that is attached to the upper portion of the column member 2 and accommodates the main breaker 4, the branch breaker 8, and the like. Reference numeral 6 denotes a branch unit that houses an extension branch breaker 35 and is attached to the lower side, which is one end of the main unit 3. Reference numeral 7 denotes a transformer unit attached further below. In the example shown in FIG. 2, a wiring cover 9 for covering the wiring drawn from the main unit 3 and the branch unit 6 is fixed to the side surface of each unit.

In this embodiment, the breaker unit has a structure in which a part of the branch breakers 8 is arranged inside the main trunk unit 3 and the branch unit 6 is further connected to the main trunk unit 3 to increase the number of breaker units. What is necessary is just to comprise by the one or both of the branch unit 6. FIG.
That is, the breaker unit can be constituted by only the main unit 3 or only a plurality of branch units 6, and only the main breaker 4 is accommodated in the main unit 3, and the branch units 6 are connected and expanded. It can also be a structure. The feature of the present invention resides in the transformer unit 7. First, the extension branch unit 6 will be described in order to help understanding the structure. The structures of the main unit and the branch unit are described in detail in the above-mentioned Patent Document 1.

  The structure of the branch unit 6 is shown in FIGS. In these drawings, the branch unit 6 includes a lower (back side) bus bar case 20 and an upper (front side) breaker case 30. As shown in FIG. 5, the bus bar case 20 includes bus bars 21 for three phases therein. These bus bars 21 extend in the height direction of the branch unit 6 (connection direction of the bus bars), and the lower end, which is one end of the branch unit 6, serves as a plugged portion as shown in FIGS. It is an insertion receiving part 24. An insertion receiving portion 23 is provided at the center of the bus bar 21, and an insertion portion 22 is provided at the upper end, which is the other end of the branch unit 6.

The insertion receiving portion 24 at the lower end is for receiving the insertion portion 22 of the branch unit 6 located below or the insertion portion 43 that is the insertion portion of the transformer unit 7. As shown in FIG. 4, the upper surface of the bus bar case 20 has a slit shape in these insertion receiving portions 24 so that the insertion portions 22 and 43 of the unit located on the lower side can be inserted. ing. Thus, by inserting the insertion portions 22 and 43 of the unit located on the lower side into the insertion receiving portion 24 of the branch unit 6 located on the upper side, the branch unit 6 is sequentially connected in the vertical direction and the bus bar 21 is also connected in the vertical direction.
In addition, in this embodiment, the insertion part of the transformer unit 7 and the branch unit 6 is the insertion parts 22 and 43 of the shape where the one part protruded, and the insertion part of a breaker unit is the insertion parts 22 and 43. However, the shapes of the insertion portion and the inserted portion are not limited to these. Moreover, the insertion part of the transformer unit 7 and the branch unit 6 may be formed as a substantially U-shaped insertion receiving part, and the insertion parts 22 and 43 may be provided in the insertion part of the breaker unit.

  As shown in FIG. 6, the branch breaker 35 incorporated in the breaker case 30 is fixed to the breaker base 33, and the insertion portion 32 for three phases protrudes from the back surface of the substrate 31 of the breaker base 33. ing. These insertion parts 32 are inserted into the insertion receiving part 23 in the center of the bus bar 21 shown in FIG. Each insertion portion 32 is connected to a connection bar disposed in the breaker base 33, and an end portion 34 of the connection bar rises from the substrate 31 as shown in FIG. A branch breaker 35 is mounted on the surface of the substrate 31, and an end 34 of the connection bar is connected to a power supply side terminal of the branch breaker 35. In this way, the connection from the three-phase bus bar 21 to the branch breaker 35 is established. As shown in FIG. 4, the breaker case 30 is provided with a lid 36 that can be opened and closed.

  The extension branch unit 6 is connected to the lower portion of the case 3 as shown in FIG. 2 by inserting the insertion portion 22 at the upper end thereof into the insertion receiving portion of the bus bar 21 extending downward from the inside of the case 3. Yes.

Next, the structure of the transformer unit 7 will be described with reference to FIGS.
As shown in FIGS. 8 and 9, the transformer unit 7 houses a transformer 42 inside a housing 40 having a door 41, and has a pair of insertion portions 43 projecting from the upper end which is an end portion of the housing 40. It is. These insertion parts 43 are electrically connected by being inserted into the insertion receiving part 24 of the bus bar 21 of the main unit 3 or the branch unit 6 located adjacent to the upper part of the insertion part 43, and a power supply voltage of 200 V is applied to the transformer 42. Supply power. As shown in FIGS. 10 and 11, at least one of the insertion portions 43 of the transformer unit 7 can be phase-exchanged with respect to the insertion receiving portion 24 so that the phase to which the transformer 42 is connected can be freely selected. Shall be kept. This prevents the load from being intensively connected to a specific phase of the three-phase alternating current, and makes it easy to balance the phases.

As shown in FIGS. 9 and 11 to 13, in this embodiment, the transformer unit 7 has a transformer 42 disposed on the rear side of the housing 40, and an iron substrate 44 disposed so as to cover the front side. A plurality of breakers 45 and a terminal block 46 are arranged on the substrate 44.
With the above structure, it is not necessary to separately provide an installation space for the branch breaker 45 in the housing 40, and the transformer unit 7 can be downsized. Further, by bringing the breaker mounting position of the iron substrate close to the opening of the housing 40, the breaker 45 is housed in the door 41, so that the transformer unit 7 does not protrude forward. Furthermore, by arranging the iron substrate 44 so as to cover the transformer 42, there is no fear of inadvertently touching the transformer 42 when the breaker 45 is opened and closed, and safety can be improved. The breakers 45 are respectively arranged on the primary side and the secondary side of the transformer 42, and the current stepped down to 100V by the transformer 42 is supplied to the 100V load through the secondary side breaker 45a. The primary breaker 45b is for protecting the transformer 42 from a trunk accident. Thus, by arranging the plurality of breakers 45 and the terminal block 46 on the iron substrate 44, safety is improved and wiring work can be easily performed.

Handles 47 and 48 are provided on both sides of the housing 40 of the transformer unit 7 so that the heavy transformer unit 7 can be easily attached to the column member 2. Further, the transformer unit 7 includes fixing portions 49 for attaching the casing 40 to the column member 2 with mounting screws or the like on both sides of the casing, and the transformer 42 housed in the transformer unit 7 includes the fixing portions 49 on both sides. It is arranged to block the straight line connecting
As a result, the center of gravity of the transformer unit 7 in the depth direction is located in the vicinity of the mounting position, so that it is less likely to tilt forward when the transformer unit 7 is mounted and workability is improved. If the position of the center of gravity of the transformer unit 7 with respect to the depth direction matches the position of the fixed portion 49, the transformer unit 7 can be held more stably, and the transformer unit 7 can be tilted in the depth direction during installation. Since there is no, workability is improved.

  In the distribution board of the present invention configured as described above, the transformer unit 7 is simply attached to the column member 2 by connecting the insertion portion 43 at the upper end to the insertion receiving portion 24 of the upper breaker unit. Transformers can be installed on the distribution board without requiring space or installation work. For this reason, it is possible to supply power to a 100 V load through the transformer unit 7 at the same time that 200 V power is supplied to the factory through the branch unit 6. Moreover, since the wiring to the transformer is not exposed to the outside, the appearance is not unsightly.

  In this embodiment, the transformer unit 7 is attached below the extension branch unit 6 having the insertion portion 32 at the upper end and the insertion receiving portion 23 at the lower end, but the branch unit 6 is omitted and the main unit 3 is omitted. The transformer unit 7 can also be directly attached. In this case, it goes without saying that the main unit 3 provided with the insertion receiving part for connecting the bus bar at the lower end may be used. In this embodiment, the mounting rail is a column member 2 erected on the base 1, but the mounting rail may be attached to a pillar such as a factory building, and is fixed horizontally to a wall surface or the like. The transformer unit 7 may be connected to the adjacent breaker unit in the horizontal direction.

DESCRIPTION OF SYMBOLS 1 Base 2 Support | pillar member 3 Master unit 4 Master breaker 6 Branch unit 7 Transformer unit 8 Branch breaker 9 Wiring cover 20 Bus bar case 21 Bus bar 22 Insertion part 23 Insertion receiving part 24 Insertion receiving part 30 Breaker case 31 Substrate 32 Insertion part 33 Connection bar 34 Connection bar end part 35 Branch breaker 36 Lid 40 Housing 41 Door 42 Transformer 43 Insertion part 44 Iron substrate 45 Breaker 46 Terminal block 47 Handle 48 Handle 49 Fixed part

Claims (5)

  In a distribution board in which a breaker unit having a bus bar connection portion at one end is attached to the mounting rail, a transformer unit having a pair of insertion portions at the end and having a transformer built in the housing, A distribution board characterized in that an insertion portion at an end thereof is connected to an insertion portion of an adjacent breaker unit and attached to a mounting rail.   The breaker unit is a main unit provided with an insertion part for connecting a bus bar at one end or a branch unit provided with an insertion part at one end and an insertion part at the other end. Distribution board.   The insertion part or inserted part of the breaker unit is formed for three phases, and at least one of the insertion parts of the transformer unit can be phase-exchanged with respect to the inserted part. The distribution board described.   The transformer unit has a transformer disposed on the rear side of the housing, a substrate is disposed so as to cover the front side, and a breaker or a terminal block is disposed on the substrate. The distribution board described.   2. The transformer unit is provided with fixing portions for attaching the casing to the mounting rail on both sides of the casing, and the transformer is arranged so as to block a straight line connecting the fixing portions on both sides. The distribution board as described in ~ 4.