JP6356863B1 - Power board - Google Patents

Abstract

A power panel capable of easily and surely disconnecting and connecting an electrical connection portion of a main body and shortening the construction period and cost of replacement work is provided. SOLUTION: A main body portion 1 having a casing 10 in which power equipment is accommodated and installed in a direction standing upright on an installation surface and supported on both side surfaces 10d and 10e when viewed from the front side of the casing 10. And a connection portion 11 that is fixed to the outside of the housing 10 and electrically connects the power device to the fixed-side connection portion 21 of the terminal board T1. [Selection] Figure 1

Description

  Embodiments described herein relate generally to a power board.

  An uninterruptible power supply system (UPS) is a system that supplies power of the same standard to a load for a predetermined time even if a power supply trouble occurs. An uninterruptible power supply system usually includes a main body and its peripheral board, and is installed in a data center or the like. The main body is a main part of the uninterruptible power supply system, and includes a power converter such as a converter that converts alternating current into direct current and an inverter that converts direct current into alternating current. Peripheral boards are an input transformer board, a storage battery board, etc.

  The main body and the peripheral board are generally housed in a substantially rectangular parallelepiped housing. These cases are often arranged in a line along a wall surface of an electric room or the like. In addition, the depth dimension and the height dimension of the casing of the main body and the casing of the peripheral board are unified from an aesthetic point of view. The dimensions of these cases are, for example, a depth dimension of about 1000 mm, and a height dimension of about 1900 mm when the capacity is 500 kVA and about 2300 mm when the capacity is 1000 kVA.

  A housing such as a main body is provided with a door on the front, and the door is opened to perform maintenance and inspection inside the main body or the peripheral board. Therefore, a working space is provided in front of the main body and the peripheral board. In addition, the main body and the peripheral board are updated when their expected life ends. Updating the main body and the peripheral board means that the whole main body and the peripheral board are replaced with new ones.

  The expected lifespan differs between the main body and the peripheral board, and the implementation time differs greatly between the replacement work of the main body and the replacement work of the peripheral board. Specifically, the expected life of the main body is about 15 years, and the replacement of the main body is indexed to 15 years after delivery of the uninterruptible power supply system. On the other hand, the expected life of the peripheral board is about 25 years, which is about 10 years later than the replacement time of the main body.

JP 2014-222982 A

  As described above, the replacement work of the main body must be carried out 10 years earlier than the peripheral board. Therefore, when the replacement work of the main body is performed, the connection between the main body and the peripheral board is disconnected, but the peripheral board itself remains installed. Therefore, in the replacement work of the main body, it is necessary to remove only the main body to be replaced from the group of housings arranged side by side from the fixed installation place and install the new main body in the same place. Become.

  However, the main body part is lined up with the peripheral board after installation, and is difficult to pull out first. It cannot be pulled out unless the internal heavy objects are disassembled and the casing is lightened.

  In addition, the power device of the main body and the peripheral board are electrically connected via a cable, and the connecting portion is provided inside the main body. For this reason, when only the main body is removed from the installation location, it is necessary to perform the work of separating the connection portions with the plurality of cables inside the main body, which is very troublesome. Also, when installing a new main body, wiring work for a plurality of cables has to be performed inside the main body, which is troublesome and a connection error is likely to occur.

  Furthermore, considering the labor cost of the replacement work, the shorter the work period of the replacement work for the main body, the better. However, the renewal cost increases if it takes time to perform the disconnection work and the connection work of the connection portion. In the case of UPS, if the construction period is prolonged, the safety against a power failure may be reduced.

  The present embodiment has been proposed to solve the above-described problems. The purpose of the present embodiment is to easily and reliably perform the disconnection and connection work of the electrical connection portion of the main body, and the replacement work can be performed. The purpose is to provide a power panel that shortens the construction period and reduces costs.

In order to achieve the above object, a power board according to an embodiment of the present invention has a casing in which power equipment is accommodated, a main body portion installed in a direction standing upright on an installation surface, and a front surface of the casing A connection part that is supported on one or both side surfaces when viewed from the side and is electrically connected to a fixed-side connection part fixed to the outside of the housing, and provided at a position adjacent to the installation surface. A terminal board having a housing that accommodates the fixed-side connection portion, and the connection portion can be connected to and disconnected from the fixed-side connection portion in a state where the main body portion is installed on the installation surface. The main body is provided so that it can be pulled out from the installation surface adjacent to the terminal board .
The power board according to another aspect has a casing in which power equipment is accommodated, and a main body portion installed in a direction standing upright on the installation surface, and one or both side surfaces as viewed from the front side of the casing. And a connection part for electrically connecting the power device to a fixed-side connection part fixed to the outside of the housing, and the connection part is in a state where the main body part is installed on the installation surface The movable-side connection portion is movably provided according to the position of the fixed-side connection portion, and the casing is installed on the installation surface of the connection portion of the movable-side connection portion to the fixed-side connection portion. In this state, it is provided so as to be movable between a disconnect position separated from the fixed side connecting portion and a closed position electrically connected to the fixed side connecting portion.

It is a perspective view of the board for electric power of an embodiment. It is a front view of the board for electric power of an embodiment. It is a circuit diagram of an uninterruptible power supply system containing an embodiment. It is a perspective view of the connection part of an embodiment. It is the side view (A) and top view (B) which show the connection part and fixed side connection part in a disconnection position. It is the side view (A) and top view (B) which show the connection part and fixed side connection part in a closed position. It is a top view which shows preparation for extraction | drawer from the installation position of the power panel of embodiment. It is a top view which shows the middle of pulling out from the installation position of the power panel of embodiment. It is a top view which shows just before completion of extraction from the installation position of the power board of the embodiment. It is a top view which shows the carrying-out state of the power board of embodiment. It is a top view which shows the carrying-in state of the power panel of embodiment. It is a top view which shows positioning to the installation position of the power panel of embodiment. It is a top view which shows insertion to the installation position of the power panel of embodiment. It is a front view which shows the example which used the main-body part as a pair of housing | casing. It is a perspective view which shows the example of the terminal board which provided the door. It is a front view which shows the example which provided the door in the terminal board by making a main-body part into a pair of housing | casing. It is a perspective view which shows insertion of one housing | casing of the example of FIG.14 and FIG.10. It is a perspective view which shows insertion of the other housing | casing of the example of FIG.14 and FIG.16. It is a perspective view which shows the modification of a connector part. It is a perspective view which shows the modification of a connection part. It is a side view which shows the modification of the connection part in a disconnection position, and a fixed side connection part. It is a side view which shows the modification of the connection part in a closed circuit position, and a fixed side connection part. It is a perspective view which shows the modification of a connection part and a fixed side connection part. It is a perspective view which shows the other example of a base part. It is a front view of a power board. It is a rear view of a power board. It is a right view of a power board. It is a left view of a power board. It is a top view of a power board. It is a bottom view of a power board. It is a front view of a power board. It is a rear view of a power board. It is a right view of a power board. It is a left view of a power board. It is a top view of a power board. It is a bottom view of a power board. It is a front view of a terminal board. It is a rear view of a terminal board. It is a right view of a terminal board. It is a left view of a terminal board. It is a top view of a terminal board. It is a bottom view of a terminal board. It is a front view of a terminal board. It is a rear view of a terminal board. It is a right view of a terminal board. It is a left view of a terminal board. It is a top view of a terminal board. It is a bottom view of a terminal board. It is a front view of the power board which has a terminal board. It is a rear view of the power board which has a terminal board. It is a right view of the power board which has a terminal board. It is a left view of the power board which has a terminal board. It is a top view of the board for electric power which has a terminal board. It is a bottom view of the power board which has a terminal board.

A power board according to an embodiment will be described with reference to the drawings. The power board of this embodiment is an example applied to an uninterruptible power supply system (hereinafter referred to as UPS).
[Constitution]
As shown in the perspective view of FIG. 1 and the front view of FIG. 2, the power board has a main body portion 1 and a connection portion 11. The main body 1 has a housing 10 in which power equipment is accommodated, and is installed in a direction that stands upright on the installation surface. The power board of this embodiment is a board having a weight that is difficult for an operator to install alone. This weight is, for example, about 100 kg to 3000 kg. The power board can also be called a “heavy board”.

  The housing 10 is a substantially rectangular parallelepiped container. The casing 10 is installed in the installation space F on the installation surface by moving in the depth direction as indicated by a thick white arrow in the figure. The installation space F of this embodiment is a horizontal floor surface. A horizontal surface opposite to the installation space F of the housing 10 installed in the installation space F is defined as an upper surface 10a. Of the four vertical surfaces of the housing 10, any one surface is defined as a front surface 10b, the opposite surface is defined as a back surface 10c, and the other two surfaces are defined as side surfaces 10d and 10e. In FIG.1 and FIG.2, the near side is a front. The housing 10 is provided with doors on the front, and these can be opened for internal maintenance and inspection. The depth direction is the thickness direction between the front surface 10b and the back surface 10c.

  The power device accommodated in the housing 10 is a device that exhibits a function upon receiving power supply. The power equipment includes equipment that constitutes a part of the power receiving / transforming system or the power distribution system. For example, a power device includes a device constituting a UPS, a switching device that opens and closes an electric circuit such as a circuit breaker and a disconnecting switch, a transformer, and a protection relay. Moreover, equipment for equipment monitoring, for example, a PLC, a relay, an arrester, a hub, a timer, and the like are also included in the power equipment. Moreover, the terminal board and circuit board which have an electrical contact are also contained in an electric power apparatus. Furthermore, power consumption devices such as air conditioners, computers, and display devices are also included in the power devices.

  The power device of the present embodiment is a device that constitutes a part of the UPS. The UPS can be applied to both a common standby uninterruptible power supply system and a parallel redundant uninterruptible power supply system, but in the following description, the circuit is simplified.

  First, the power devices accommodated in the housing 10 in the present embodiment are a converter 2, an inverter 3, and an AC switch 4, as shown in FIG. The converter 2 is a device that converts alternating current into direct current. The inverter 3 is a device that converts direct current into alternating current. The converter 2 and the inverter 3 are connected to the main path R1 from the alternating current input to the output in the steady state. The AC switch 4 is a device that opens and closes the bypass path R <b> 2 that does not pass through the converter 2 and the inverter 3. The bypass route R2 is a route for directly sending AC power from the AC input to the output during maintenance inspection or failure. In addition, a charge / discharge path R3 is branched and connected to a main path R1 between the converter 2 and the inverter 3.

  The input side of the main path R1 and the input side of the bypass path R2 are connected to the transformer of the input transformer board 6. The input transformer panel 6 is a panel that houses a step-down transformer connected to a commercial power source. The charge / discharge path R <b> 3 is connected to the storage battery of the storage battery panel 7. The storage battery panel 7 is a panel that houses a storage battery serving as a power source during a power failure. Output sides of the main route R1 and the bypass route R2 are connected to the branch board 8. The branch board 8 is a board connected to a connection device that consumes power. Hereinafter, the input transformer board 6, the storage battery board 7, the branch board 8, and the like are referred to as peripheral boards. Although not shown, the peripheral board is installed in an electric room or the like in which the main body 1 is accommodated. You may install in the position adjacent to the housing | casing 10 of the main-body part 1. FIG.

  The connection unit 11 is supported by both side surfaces 10 d and 10 e when viewed from the front side of the housing 10, and electrically connects the power device to the fixed-side connection unit 21 fixed to the outside of the housing 10. Thereby, the part by which the connection part 11 is supported protrudes outward rather than both the side surfaces 10d and 10e, without being hidden behind a back surface. Thus, since the connection part 11 is arrange | positioned, an operator is easy to confirm, grasp, and operate from the front side. However, a part of the connection part 11 and a part of the electrical connection part may be hidden behind the housing 10.

  The connection part 11 is a movable side connection part that is movably provided in accordance with the position of the fixed side connection part 21 in a state where the main body part 1 is installed on the installation surface. As shown in FIG. 3, a plurality of connection portions 11 of the present embodiment are provided on the input side of the main route R1, the input side of the bypass route R2, the charge / discharge route R3, the output side of the main route R1, and the bypass route R2, respectively. It is connected. Note that the electrical connection portion of the connection portion 11 with the fixed-side connection portion 21 is grasped by an operator as viewed from the front side of the housing 10 because the connection portion 11 is supported at the position as described above. Cheap.

  The fixed side connection unit 21 is a component fixed to equipment outside the housing 10. The external equipment here refers to equipment constituting the place where the casing 10 is installed or equipment installed in this place. The external equipment is, for example, equipment constituting an electric room, equipment installed in the electric room, and includes a wall surface of the electric room, a panel installed in the electric room, a frame surrounding the casing 10, and the like. In this embodiment, external facilities are terminal boards T1 and T2. The terminal boards T1 and T2 have a housing 20 that houses the fixed-side connection portion 21. The terminal boards T1 and T2 are disposed adjacent to the main body 1 so that the fixed-side connection portion 21 faces the connection portion 11. That is, the pair of terminal boards T1 and T2 are installed at positions adjacent to the side surfaces 10d and 10e of the housing 10 of the main body 1.

  The fixed-side connection portion 21 is electrically connected to the peripheral board via the cable C. That is, the cable C from the input transformer panel 6, the storage battery panel 7, and the branch panel 8 is extended through the bus duct and connected to the fixed-side connection portion 21. As shown in FIG. 3, a plurality of fixed-side connection portions 21 are provided corresponding to the connection portions 11, and the connection portions 11 are connected to the fixed-side connection portions 21, so that the input side of the main route R <b> 1, The input transformer board 6 is connected to the input side of the bypass path R2, the storage board 7 is connected to the charge / discharge path R3, and the branch board 8 is connected to the output side of the main path R1 and the bypass path R2.

  Further, the electrical connection portion E (see FIGS. 5 and 6) of the connection portion 11 with the fixed side connection portion 21 is separated from the fixed side connection portion 21 in a state where the housing 10 is installed on the installation surface. It is provided so as to be movable between the disconnection position and the closed position electrically connected to the fixed-side connecting portion 21. Further, a plurality of connection portions 11 are provided for each AC phase. A plurality of connection portions 11 are provided separately for alternating current and direct current.

  The connection part 11 has the conductor 11a, as shown in FIGS. Although not shown, the conductor 11a is connected to a power device via a flexible cable or the like. The conductor 11 a is a flat plate parallel to the depth direction of the housing 10. In the present embodiment, a pair of flat conductors 11a arranged in parallel is provided.

Hereinafter, more specific configurations of the connection portion 11, the fixed side connection portion 21, and the terminal board T will be described.
(Connection part)
The connection part 11 is supported by the support part 101. As shown in FIGS. 1 and 2, the support portion 101 is a plate-like member that is provided on the side surfaces 10d and 10e of the housing 10 and is fixed in a direction parallel to the front surface 10b. For this reason, the connecting portion 11 is supported by the side surfaces 10 d and 10 e of the housing 10.

  The connection unit 11 supported by the support unit 101 includes a guide unit 111, a movable unit 112, and an operation unit 113. The guide portion 111 is a member that guides the movement of the conductor 11a in order to adjust the position of the conductor 11a with respect to the fixed-side connection portion 21. The guide part 111 includes a guide rail 111a and a slider 111b. The guide rail 111a is an elongated member having a substantially U-shaped cross section in which the back side of the housing 10 is an opening. The guide rail 111a is attached in the width direction of the housing 10, that is, in the horizontal direction. The slider 111b is a rectangular tube-shaped elongated member inserted into the guide rail 111a, and slides in the width direction of the housing 10 along the guide rail 111a.

  The movable part 112 is a member that moves while supporting the conductor 11a. The movable part 112 includes a moving plate 112a and a support plate 112b. The moving plate 112a is a flat plate that is attached to the slider 111b and moves in the width direction of the housing 10 together with the slider 111b. The support plate 112b has a pair of flat plate shapes that protrude in parallel with the depth direction, and is attached to the back side of the moving plate 112a. The support plate 112b has a guide groove 112c in the depth direction. The pair of conductors 11a are supported so as to be movable along the guide grooves 112c of the support plate 112b.

  For this reason, the conductor 11a can move in the width direction of the housing 10 together with the slider 111b that moves along the guide rail 111a. In addition, the conductor 11a can move in the depth direction of the housing 10 along the guide groove 112c. Since the cable connected to the conductor 11a is flexible, conduction with the cable is ensured even if such movement occurs.

  The operation unit 113 is a member for manually operating the position of the conductor 11a. The operation unit 113 includes an urging plate 113a and a handle 113b. The urging plate 113a has a rectangular shape parallel to the front surface of the housing 10 and long in the width direction. A substantially U-shaped connecting portion 11b that connects the pair of conductors 11a is attached to the urging plate 113a. That is, the connecting portion 11 b attached to the conductor 11 a provided on the back side of the support portion 101 passes through the hole 101 a formed in the support portion 101 and is provided on the front side of the support portion 101. 113a is secured with insulation. The urging plate 113a is formed of a transparent material so that the insertion state of the conductor 11a can be visually recognized. The handle 113b is a substantially U-shaped bar-shaped member. Both ends of the handle 113b are fixed to the front surface of the urging plate 113a so that the longitudinal direction is the width direction of the housing 10.

(Fixed side connection)
The fixed side connection portion 21 is a member that performs electrical connection with the cable C via the connection portion 11. The fixed side connection portion 21 includes a fixed plate 211, a terminal plate 212, and a connector portion 213.

  The fixed plate 211 is a rectangular plate fixed to equipment outside the housing 10. In the present embodiment, the external facilities are the terminal boards T1 and T2 having the housing 20 as described above. The terminal plate 212 is a conductive plate fixed to the fixed plate 211. The upper end of the terminal board 212 is an end for connection with the terminal of the cable C. For example, although not shown, a connection hole is formed.

  The connector part 213 is a member through which the conductor 11a is inserted and removed. That is, the conductor 11a and the connector part 213 form a fitting part that is electrically connected when the conductor 11a moves from the connecting part 11 toward the fixed-side connecting part 21 and fits together. The connector part 213 has the recessed part 213a and the contact electrode 213b. The recess 213a is a hollow portion into which the conductor 11a is inserted. The contact electrode 213b is a member that is provided in the recess 213a and is electrically connected to the terminal plate 212.

  A plurality of such connector portions 213 are arranged with respect to the conductor 11a. In the present embodiment, three connector portions 213 are provided. The contact electrodes 213b of the connector portion 213 share the rated current equally. For example, when the rated current is 300 A, a current of about 100 A can be passed. However, it is good also as the single connector part 213 which bears a rated current.

  As shown in FIGS. 1 and 2, a plurality of sets of the connection part 11 and the fixed-side connection part 21 as described above are prepared by being divided into input / output sections. For example, the connection unit 11 and the fixed side connection unit 21 are provided separately for an AC input AN, a DC input DN, a bypass input BN, and an AC output AO. These connecting portions 11 are arranged side by side in the vertical direction so as to ensure an insulation distance.

  Also, AC input R phase, S phase, T phase, DC input P, N, bypass input R phase, S phase, T phase, AC output R phase, S phase, T phase are provided separately. Yes. Thereby, the electric current value which each connection part 11 and the fixed side connection part 21 bear is made small. These connecting portions 11 are arranged side by side with a space in the vertical direction to ensure an insulation distance. In addition, the fixed-side connection portion 21 is also arranged at a position corresponding to the connection portion 11 so as to be spaced apart from each other in the vertical direction to ensure an insulation distance. Furthermore, by dividing the connection portion 11 and the fixed-side connection portion 21 into a plurality of sets as described above, the insertion / extraction load of the fitting portion is reduced.

(Terminal board)
The terminal boards T1 and T2 have a substantially rectangular parallelepiped casing 20. The case 20 has a depth and height equivalent to those of the case 10, but is narrower than the case 10 because the width is shorter than the case 10. A fixed-side connection portion 21 is accommodated in the housing 20, and a plate-like wall plate is provided on the upper surface 20 a, the back surface 20 c, and the side surface 20 d or 20 e on the opposite side of the main body 1. The upper surface 20 a is provided with an opening through which the cable C connected to the fixed side connection portion 21 is inserted in the housing 20. The front surface 20b and the side surface 20d or 20e adjacent to the main body 1 are open surfaces that are not closed by wall plates. Thereby, the connection part 11 of the main-body part 1 can enter / exit in the housing | casing 20 from the front side.

  The casing 20 is provided with a vertical column 201 on the front side adjacent to the main body 1. The support column 201 prevents the strength of the housing 20 from being lowered due to the open surface. However, the support column 201 is detachably provided to the housing 20. For example, the support column 201 is fixed to the housing 20 by bolting, but can be removed from the housing 20 by removing the bolt. When the main body 1 is installed, the column 201 is removed, so that the connection unit 11 can move to the fixed side connection unit 21 without being disturbed by the column 201 when the casing 10 is moved in the depth direction.

[Electrical connection work]
Next, an operation for connecting the connecting portion 11 as described above to the fixed-side connecting portion 21 will be described. In addition, prior to the electrical connection work and the connection release work, the description of the work of releasing the charged portion with a circuit breaker or the like to ensure safety will be omitted. As shown in FIGS. 4, 5 </ b> A, and 5 </ b> B, when the main body 10 is installed in the installation space, the conductor 11 a and the recess 213 a of the connector unit 213 are spaced apart from each other. That is, at this time, the connecting portion 11 is in the disconnection position.

  The operator holds the handle 113b of the operation unit 113, and moves it in the width direction as shown in FIG. 5B, whereby the conductor 11a attached to the urging plate 113a and the recess 213a are positioned in the width direction. Then, as shown in FIG. 5A, the urging plate 113a is pushed to the back side. Then, as shown in FIGS. 6A and 6B, the connection portion E of the conductor 11a fits into the recess 213a of the connector portion 213, and comes into contact with and electrically connects to the contact electrode 213b. Thereby, the connection part 11 becomes a closed position, and the cable C is connected to the power device inside the housing 10 via the connection part 11 and the fixed side connection part 21. The connection with the cable C connects the peripheral board and the power equipment inside the housing 10.

[Electrical disconnection work]
When the connection between the connection part 11 and the fixed side connection part 21 is released, as shown in FIGS. 6A and 6B, the handle 113b of the operation part 113 is held and pulled to the front side. Then, the conductor 11a is detached from the concave portion 213a of the connector portion 213, and the electrical connection with the contact electrode 213b is released. Thereby, the connection part 11 becomes a disconnection position, as shown to FIG. 5 (A) and (B).

[Main body replacement work]
Next, the replacement work of the main body 1 will be described.

(Main body unloading work)
The carrying-out work of the main body 1 will be described with reference to FIGS. The installation space F is a region sandwiched between the casings 20 of the existing pair of terminal boards T. In the installation space F, the base portion B is placed. The base B is a rectangular frame-like plate that is interposed between the main body 1 and the installation surface and supports the main body 1. The installation on the installation surface includes the case where the casing 10 is installed in direct contact with the installation surface and the case where the housing 10 is installed via a member such as the base portion B.

  First, as shown in FIG. 2, the worker removes the support column 201 from the terminal boards T1 and T2. And as shown in FIG. 7, two rail parts M1 are installed in parallel and in front of the installation space F in which the housing 10 is installed. An eyebolt M <b> 2 is attached to a mounting hole (not shown) on the front surface of the housing 10. Further, the anchor M3 is fixed near the floor surface of the carry-in / out space S, and the lever block M4 is attached to the anchor M3. Then, the hook portion of the lever block M4 is hooked on the eyebolt M2 attached to the attachment hole, and the housing 10 is pulled out from the installation space F by operating the lever block M4.

  As shown in FIG. 8, when a mounting hole (not shown) on the side surface of the housing 10 appears by pulling out the housing 10, the drawing operation of the housing 10 is temporarily stopped. Then, the hook portion of the lever block M4 is removed from the eye bolt M2 in the front mounting hole, and the eye bolt M2 is mounted in the side mounting hole. The case 10 is further pulled out by hooking the hook portion of the lever block M4 on the eyebolt M2 and operating the lever block M4.

  As shown in FIG. 9, when the mounting hole near the rear side of the side surface of the housing 10 appears by further drawing of the housing 10, the drawing work is temporarily stopped. Then, the hook portion of the lever block M4 is removed from the eyebolt M2, and the eyebolt M2 is attached to the mounting hole closer to the back surface. The case 10 is further pulled out by hooking the hook portion of the lever block M4 on the eyebolt M2 and operating the lever block M4. As a result, the casing 10 is completely lowered from the base portion B, and the entire casing 10 is pulled out to the carry-in / out space S.

  As shown in FIG. 10, the housing 10 pulled out to the carry-in / out space S is lifted with a jack or the like, and the handlift M5 is brought into the room. Finally, using the hand lift M5, the worker H carries out the housing 10 through the carry-in / out space S, and the carry-out work of the main body 1 is completed.

(Bringing in the main unit)
Next, the carrying-in operation | work of the main-body part 1 is demonstrated with reference to FIGS. As shown in FIG. 11, a plurality of workers H carry the housing 10 of the main body 1 to the front of the installation space F using a hand lift M5.

  As shown in FIG. 12, four square members M6 are installed in front of the front surface of the housing 10, the housing 10 is lifted with a jack or the like, the hand lift M5 is pulled out from under the housing 10, and the Put it on. Then, two parallel rail portions M1 are disposed between the square members M6, and the housing 10 is placed on the rail portions M1.

  As shown in FIG. 13, the eyebolt M <b> 2 is attached to an attachment hole (not shown) on the side surface of the housing 10. Further, the anchor M3 is fixed near the floor surface of the carry-in / out space S, and the lever block M4 is attached to the anchor M3. Then, the hook portion of the lever block M4 is hooked on the eyebolt M2 attached to the attachment hole, and the housing 10 is pushed into the installation space F by operating the lever block M4. When almost the entire housing 10 is mounted on the base B, the hook portion of the lever block M4 is removed from the eyebolt M2, the eyebolt M2 is removed from the mounting hole, and then the housing 10 is pushed into the main body portion. 1 carry-in work is completed.

[Function and effect]
The present embodiment includes a housing 10 in which power equipment is accommodated, and is supported on the main body 1 installed in a direction standing upright on the installation surface and both side surfaces 10d and 10e when viewed from the front side of the housing 10. And a connection portion 11 that electrically connects the power device to a fixed-side connection portion 21 fixed outside the housing 10.

  For this reason, during the replacement work of the main body 1, the connection portion 11 is provided outside the side surface of the housing 10 when viewed from the front surface side of the housing 10. The work of disconnecting the connecting part 11 from the fixed side connecting part 21 and the work of connecting can be easily and reliably performed. For example, compared with the case where a cable wiring work or a wire separation work is performed inside the housing 10 or a connection portion is present on the back side, the work becomes much easier. The side surfaces 10d and 10e are also easy to reach because they are also easily accessible by workers. For this reason, shortening of the construction period and cost reduction of the replacement work can be realized. In the case of UPS, since the stop period is shortened, it is possible to prevent a decrease in safety against a power failure. Furthermore, since the connection part 11 is supported by the side surfaces 10d and 10e of the housing 10, the space above the main body part 1 may be very narrow depending on the structure of the installation place and the size of the main body part 1. In this case, it can be installed. This is advantageous when other equipment is installed above, for example, when an external line rack is extended upward or a bus duct is extended. Further, in the case of a board having a high height, for example, it is advantageous when the height is about 2300 mm like a board having a capacity of 1000 kVA.

  The connection unit 11 is a movable side connection unit that is movably provided in accordance with the position of the fixed side connection unit 21 fixed to equipment outside the housing 10 in a state in which the main body unit 1 is installed on the installation surface. is there.

  For this reason, since the alignment work of the connection part 11 with respect to the fixed-side connection part 21 can be performed separately from the installation work of the main body part 1 at a position outside the side surface of the housing 10, the work is easy. Become. Furthermore, when the power board is a heavy board, it is very difficult to adjust the installation position of the main body 1 to a position where the connection part 11 matches the fixed-side connection part 21, but in this embodiment, Since it can be aligned after installation, it is easy.

  The connection part E of the connection part 11 to the fixed side connection part 21 is electrically connected to the disconnection position separated from the fixed side connection part 21 and the fixed side connection part 21 in a state where the housing 10 is installed on the installation surface. It is provided to be movable between the closed position.

  For this reason, the connection and disconnection work of the connection portion 11 with respect to the fixed-side connection portion 21 can be easily and reliably performed at a position outside the side surface of the housing 10. Moreover, the operation | work from the front side becomes easy by setting it as the structure which connects and disconnects the connection part 11 by moving to a depth direction. Since the flat conductor 11a parallel to the depth direction of the housing 10 can be used, it can be brought into and out of contact with the fixed-side connection portion 21 only by movement in the linear direction.

  The connecting portions 11 are divided into input and output sections, and are arranged side by side at intervals in the vertical direction. Further, the connecting portions 11 are divided into AC phases and are arranged side by side with a space in the vertical direction. For this reason, insulation between each division and each phase can be performed reliably, and safety can be ensured. Further, the work is facilitated by reducing the insertion / extraction load. Since it arrange | positions in the height direction of the housing | casing 10, it is easy to ensure an insulation distance.

  The terminal boards T1 and T2 are adjacent to the main body 1 so that the terminal boards T1 and T2 have the casing 20 that houses the fixed-side connection portion 21 and the fixed-side connection portion 21 faces the connection portion 10. Has been placed. For this reason, the fixed side connection part 21 can be arrange | positioned using the empty space beside the main-body part 1 effectively.

  The terminal boards T1 and T2 are provided with a vertical column 201 detachably on the front side adjacent to the main body 1. For this reason, while the strength of the casing 20 is prevented from being lowered by the support 201, the support 201 is not disturbed by removing the support 201 during the installation work of the main body 1.

[Modification]
(1) As shown in FIG. 14, the main body 1 may be divided into two casings 10A and 10B. For example, one casing 10 </ b> A is configured as a converter panel that houses the converter 2, and the other casing 10 </ b> B is configured as an inverter panel that houses the inverter 3. Each housing 10A, 10B has a substantially rectangular parallelepiped shape with the same outer dimensions, and is arranged in a horizontal direction so that one side surface thereof is in contact with each other.

  The connection portions 11 are provided on the side surfaces opposite to the side surfaces adjacent to each other of the housings 10A and 10B. Further, the terminal boards T1 and T2 are respectively installed at positions corresponding to both side surfaces provided with the connecting portion 11.

  Further, the connection portion 11 may be provided only on any one of the side surfaces 10d and 10e of the housing 10 regardless of whether the main body portion 1 is constituted by a single housing 10 or divided. . Correspondingly, the terminal board T1 or T2 may be arranged on only one side.

(2) As shown in FIGS. 15 and 16, a door 22 may be provided on the front face of the terminal boards T <b> 1 and T <b> 2 so as to open and close about the side opposite to the side adjacent to the body 1. Accordingly, the electrical connection portion can be covered to improve safety, and dust and the like can be prevented from being mixed, and the appearance can be kept beautiful. Moreover, you may provide the door 22 in the terminal board T1 or T2 regardless of whether the main-body part 1 is comprised by the single housing | casing 10, or divided structure.

  As described above, when the main body 1 is constituted by the two housings 10A and 10B, as shown in FIGS. Sequentially, it is inserted and installed in the space between the terminal board T1 and the terminal board T2. Since the axis of the door 22 is on the opposite side to the main body 1, it does not interfere with the insertion of the main body 1. 17 and 18, the door 22 of the terminal board T2 is not shown, but, like the terminal board T1, a door 22 that opens and closes around the opposite side of the main body 1 is provided. And

(3) As shown in FIGS. 14 to 18, a box-shaped introduction part 30 whose front surface or side surface is open may be provided on both or one upper part of the terminal board T1 and the terminal board T2. Since the cable C can be introduced from the open portion of the introduction part 30, the upper space is narrow and the cable C cannot be introduced from above.

(4) The number of connecting portions 11 may be singular or plural, and is not limited to the above-described aspect. The number of electrical connection parts that one connection part 11 opens and closes may be plural or single. For example, the number of connecting portions 11 may be one and many connecting portions may be opened and closed by one operation. For example, the conductors 11a arranged side by side in the vertical direction may be configured to be moved by the common operation unit 113.

(5) The number of the connector parts 213 of the fixed-side connection part 21 is not limited to the above aspect. For example, as shown in FIG. 19, by providing three sets of connector portions 213 in four rows for each fixed-side connection portion 21, the current borne by one set of connector portions 213 becomes excessive. Can be prevented.

(6) The connecting portion 11 and the fixed-side connecting portion 21 may be provided with an elastic member for buffering the operation of each portion. For example, as shown in FIG. 20, an elastic member 310 that is a compression coil spring that expands and contracts in the width direction may be provided between the conductor 11a and the support plate 112b. The conductor 11a can be moved in the depth direction of the housing 10 together with the elastic member 310 that moves along the guide groove 112c. Thereby, when connecting the conductor 11a to the connector part 213, the slight shift | offset | difference of the width direction is absorbed by the elastic member 310, and it fits into the recessed part 213a.

  21 and 22, a plurality of elastic members 320 may be attached between the urging plate 113a and the connecting portion 11b. The elastic member 320 is a compression coil spring that expands and contracts in the depth direction. Further, a plurality of elastic members 330 may be attached between the fixed plate 211 and the terminal plate 212. The elastic member 330 is a compression coil spring that expands and contracts in the depth direction. Thereby, the impact by the collision between members at the time of inserting / extracting the conductor 11a by the operation part 113 is relieved.

  The connector portion 213 is attached to the terminal plate 212 so as to be freely movable in the height direction and the width direction of the housing 10 and is biased to a fixed position by an elastic member (not shown). For example, the guide width can be several millimeters in the height direction and the width direction. Thereby, the connector part 213 constitutes a floating connector that can absorb the positional deviation between the conductor 11a and the recess 213a by the recess 213a following the position of the conductor 11a when the conductor 11a is inserted.

(7) As shown in FIGS. 21 to 23, the conductor 11 a may be provided with a holding portion 340 that holds the operation portion 113 at a distance that ensures electrical insulation from the connector portion 213. That is, the substantially U-shaped fixing frame 341 is attached to the support portion 101, and the substantially U-shaped holding frame 342 is attached to the position of the urging plate 113a corresponding thereto. Screw holes are formed in the fixed frame 341 and the holding frame 342, and the fixing frame 341 and the holding frame 342 are aligned so that the conductor 11a is at the disconnecting position, and the screw 343 is inserted into the screw hole and fastened. it can. Thereby, at the time of inspection or the like, the state in which the power device is reliably disconnected from the outside is maintained, so that safer inspection work can be performed.

(8) As shown in FIG. 24, the base portion B may be provided with a restriction portion ST that restricts movement in the depth direction in contact with the end portion of the housing 10 of the main body portion 1. For example, the restricting portion ST is a protruding portion provided at the end on the back side of the base portion B. When the main body portion 1 is inserted, the lower end of the back surface of the main body portion 1 comes into contact with the restricting portion ST, so that the main body portion 1 is stopped. Can be positioned.

(9) Various external shapes of the power board can be considered. In addition, the main body 1 combining the housing 10A and the housing 10B can be regarded as a power board, and each of the housings 10A and 10B can be regarded as a power board. Each of the terminal board T1 and the terminal board T2 can also be regarded as a power board.

  Further, the terminal board T1 and the housing 10A can be combined as a power board, and the terminal board T2 and the housing 10B can be combined as a power board. Further, the terminal board T1, the casing 10A, the casing 10B, and the terminal board T2 can be combined to be regarded as a power board.

  The power board can also be regarded as an uninterruptible power supply panel or an uninterruptible power supply. Moreover, the leader line and code | symbol in each figure respond | correspond to the member name of said embodiment, and do not comprise the external appearance of a power panel.

  For example, the front view of FIG. 25, the rear view of FIG. 26, the right side view of FIG. 27, the left side view of FIG. 28, the top view of FIG. 29, and the bottom view of FIG. It is an example of the body 10A. 31 is a front view, FIG. 32 is a rear view, FIG. 33 is a right side view, FIG. 34 is a left side view, FIG. 35 is a plan view, and FIG. 36 is a bottom view. This is an example of 10B.

  The front view of FIG. 37, the rear view of FIG. 38, the right side view of FIG. 39, the left side view of FIG. 40, the top view of FIG. 41, and the bottom view of FIG. It is an example of terminal board T1. The front view of FIG. 43, the rear view of FIG. 44, the right side view of FIG. 45, the left side view of FIG. 46, the top view of FIG. 47, and the bottom view of FIG. It is an example of terminal board T2.

  49 is a front view of FIG. 49, a rear view of FIG. 50, a right side view of FIG. 51, a left side view of FIG. 52, a plan view of FIG. 53, and a bottom view of FIG. This is an example of the housing 10B and the terminal board T2. In the above example, the portions indicated by dotted lines such as the display and the handle are not limited to specific positions and shapes. For example, when each appearance is regarded as a design, a portion indicated by a dotted line may not constitute the design.

(10) Each of the above embodiments and aspects is presented as an example in the present specification, and is not intended to limit the scope of the invention. In other words, the present invention can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and equivalents thereof in the same manner as included in the scope and gist of the invention.

DESCRIPTION OF SYMBOLS 1 ... Main-body part 2 ... Converter 3 ... Inverter 4 ... AC switch 6 ... Input transformer board 7 ... Storage battery board 8 ... Branch board 10 ... Case 10a ... Upper surface 10b ... Front surface 10c ... Back surface 10d, 10e ... Side surface 101 ... Support part 101a ... Hole 11 ... Connecting part 11a ... Conductor 11b ... Linking part 111 ... Guide part 111a ... Guide rail 111b ... Slider 112 ... Moving part 112a ... Moving plate 112b ... Support plate 112c ... Guide groove 113 ... Operating part 113a ... Biasing plate 113b ... handle 20 ... housing 210 ... support 21 ... fixed side connection 211 ... fixed plate 212 ... terminal plate 213 ... connector part 213a ... recess 213b ... contact electrode 22 ... doors 310, 320, 330 ... elastic member 340 ... holding part 341 ... fixed frame 342 ... holding frame 343 ... screw F ... installation space R1 ... main path R2 ... bypass path R3 ... charge / discharge path M1 Rail portion M2 ... eye bolt M3 ... anchor M4 ... lever block M5 ... pallet jack M6 ... timber T1, T2 ... terminal board

Claims (10)

A main unit having a casing in which power equipment is accommodated and installed in a direction standing upright on the installation surface;
A connection part that is supported on one or both side surfaces as viewed from the front side of the housing and electrically connects the power device to a fixed-side connection part fixed to the outside of the housing;
A terminal board having a housing provided at a position adjacent to the installation surface and containing the fixed-side connection portion;
Have
The connecting portion is in a position facing the fixed side connecting portion so as to be connectable and detachable in a state where the main body portion is installed on the installation surface.
The power board, wherein the main body is provided so as to be able to be pulled out from the installation surface adjacent to the terminal board.   The said connection part is a movable side connection part provided movably according to the position of the said fixed side connection part in the state in which the said main-body part was installed in the installation surface. Power board. The power board according to claim 1 or 2 , wherein a vertical support column is detachably provided on the terminal board on the front side adjacent to the main body. The power board according to claim 3 , wherein a door that opens and closes on the front side of the terminal board with a side opposite to the side adjacent to the main body as an axis is provided. A main unit having a casing in which power equipment is accommodated and installed in a direction standing upright on the installation surface;
A connection part that is supported on one or both side surfaces as viewed from the front side of the housing and electrically connects the power device to a fixed-side connection part fixed to the outside of the housing;
Have
The connection part is a movable side connection part provided movably according to the position of the fixed side connection part in a state where the main body part is installed on an installation surface,
The connecting portion of the movable side connecting portion to the fixed side connecting portion is electrically connected to the disconnection position separated from the fixed side connecting portion and the fixed side connecting portion in a state where the housing is installed on the installation surface. A power board, which is provided so as to be movable between connected closed circuit positions. 6. The power board according to claim 2, wherein the movable side connecting portion includes a flat plate-like conductor parallel to the depth direction of the casing. The power board according to any one of claims 1 to 5 , wherein the connection portions are divided into input and output sections and are arranged side by side at intervals in the vertical direction. The power board according to any one of claims 1 to 6 , wherein the connection portions are arranged in alternating current phases and are arranged side by side in the vertical direction. Interposing between the housing and the installation surface, and having a base portion for supporting the housing;
The power board according to any one of claims 1 to 8 , wherein the base portion includes a restricting portion that contacts an end portion of the housing and restricts movement in the depth direction.   The power board according to any one of claims 1 to 9, wherein the power device is a UPS main body that houses a rectifier that converts alternating current to direct current and an inverter that converts direct current to alternating current.

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