JP6107552B2 - Power conversion device and inspection table - Google Patents

Description

  The present invention relates to a power conversion device and an inspection table, and more particularly to a technology that is effective when applied to a power conversion device and an inspection table that perform maintenance and inspection work by pulling out a power conversion unit from the panel body to the inspection table.

  The power conversion device is used as a power conversion unit of various power systems. For example, in the storage battery combined wind power generation system disclosed in the following Non-Patent Document 1, an AC / DC converter converts the output of a wind power generator into direct current, and further converts the output into alternating current with a DC / AC converter. It is used. In this power conversion device, power conversion components such as an AC / DC converter and a DC / AC converter are stored in a unitized state in a storage portion of the board. In addition, in this power conversion device, in order to easily perform maintenance / inspection work (maintenance work) of the unitized power conversion unit, the electrical connection between the power conversion unit and the panel is a plug-in system. Is going on.

  By the way, in the power conversion device as described above, an inspection table is arranged on the front surface of the panel body, and the power conversion unit is pulled out from the panel body to the inspection table for maintenance and inspection work. On the other hand, the power conversion unit is provided with a power external terminal exposed on the back surface, and incorporates a capacitor electrically connected to the power external terminal. This capacitor is charged even after the power conversion unit is pulled from the panel to the inspection table and the electrical connection between the panel and the power conversion unit is released. It is necessary to ensure safety so as not to get an electric shock.

  Therefore, in the conventional power conversion device, when performing maintenance and inspection work, the charge accumulated in the capacitor is naturally discharged by covering the external power terminal exposed on the back of the power conversion unit with an insulating cover. Alternatively, a discharge unit having a built-in discharge resistance element is prepared separately, and the discharge unit is connected to the power external terminal of the power conversion unit to forcibly discharge the charge accumulated in the capacitor.

Fuji Electric Technical Report 2013 vol.86 no.2, pp. 124 to 128 “Circuit and Control Technology for Power Conditioners and Converters for Wind Power Generation”

However, in the method of waiting for the electric charge accumulated in the capacitor to spontaneously discharge, it takes a long time to discharge the electric charge accumulated in the capacitor. When working efficiency decreases.
On the other hand, the method of forcibly discharging the capacitor charge by connecting the discharge unit to the power external terminal of the power conversion unit is more efficient than the method of waiting for the charge accumulated in the capacitor to spontaneously discharge. Although the time required is short, the discharge unit must be prepared separately, and it takes time to prepare the discharge unit, so even when using this method, the power conversion unit is pulled out from the inspection table to perform maintenance and inspection work. Efficiency is reduced. Further, it is necessary to secure a space for storing the discharge unit in the power conversion device, which increases the size of the power conversion device.
Therefore, the inventors of the present invention made the present invention by paying attention to an inspection table when performing maintenance / inspection work.
An object of the present invention is to provide a power conversion device and an inspection table capable of improving work efficiency and reducing the size when performing a maintenance / inspection operation by pulling the power conversion unit from the panel body to the inspection table. It is in.

  In order to achieve the above object, a power conversion device according to an aspect of the present invention includes a power conversion unit that performs power conversion, a panel that houses the power conversion unit, and the power conversion unit that is pulled out from the panel. A power conversion device comprising an inspection table that is sometimes held, wherein the power conversion unit has a pair of power external terminals and a capacitor electrically connected between the pair of power external terminals. The inspection table includes a pair of discharge external terminals and a discharge resistance element electrically connected between the pair of discharge external terminals, and the pair of discharge external terminals is the pair of discharge external terminals. It is an electric power converter characterized by being electrically connected with the external terminal for electric power.

  According to the power conversion device according to one aspect of the present invention, when the power conversion unit is pulled out from the panel body to the inspection table and maintenance / inspection (maintenance) is performed, the power external terminals of the power conversion unit and the discharge of the inspection table are discharged. By electrically connecting to the external terminal, the charge accumulated in the capacitor in the power conversion unit can be instantaneously discharged, so that the charge accumulated in the capacitor in the power conversion unit can be Compared with the case where the capacitor is discharged, the time required for discharging the capacitor can be shortened, and the work efficiency when performing the maintenance / inspection work by pulling the power conversion unit to the inspection table can be improved. In addition, since the inspection table has a discharge function, preparation of a discharge unit and storage space are not required compared to the case where a discharge unit is separately prepared and the charge accumulated in the capacitor is discharged as in the past. Thus, it is possible to improve the work efficiency of carrying out maintenance / inspection work by pulling out the power conversion unit to the inspection table, and to reduce the size of the power conversion device.

Moreover, the power converter device which concerns on 1 aspect of this invention is electrically connected with the said resistive element for electric discharge via an electric wire so that a pair of said external terminal for discharge may be spaced apart from the said inspection stand. It is preferable.
According to the power conversion device according to one aspect of the present invention, the pair of discharge external terminals of the inspection table can be taken to a free position, so the pair of power external terminals and the pair of discharge external terminals It is not necessary to separately prepare an electric wire for electrically connecting the pair of power external terminals and the pair of discharge external terminals.

  Further, in the power conversion device according to one aspect of the present invention, the power conversion unit further includes a pair of unit-side discharge external terminals electrically connected to the pair of power external terminals, The pair of unit-side discharge external terminals of the power conversion unit and the discharge external terminals of the inspection table are positions where both come into contact with each other by pulling out the power conversion unit from the panel to the inspection table. It is preferable to arrange | position.

  According to the power conversion device according to one aspect of the present invention, a pair of unit-side discharge external terminals of the power conversion unit and a pair of the check table are pulled out from the panel body to the check table. Since the discharge external terminals are electrically connected, it is not necessary for the operator to connect the pair of power external terminals and the pair of discharge external terminals. As a result, it is possible to further improve the work efficiency of performing the maintenance / inspection work by pulling the power conversion unit from the panel body to the inspection table.

  In order to achieve the above object, an inspection table according to an aspect of the present invention includes a power conversion device including a pair of power external terminals and a capacitor electrically connected between the pair of power external terminals. An inspection table to be held when pulled out from the body, comprising: a pair of discharge external terminals; and a discharge resistance element electrically connected between the pair of discharge external terminals, the pair of discharges An external inspection terminal is electrically connected to the pair of external power terminals.

  According to the inspection table according to the aspect of the present invention, when the power conversion unit is pulled out from the panel of the power conversion device to the inspection table for maintenance and inspection (maintenance), the power external terminal of the power conversion unit and the inspection are inspected. By electrically connecting the external discharge terminal of the stand, the electric charge accumulated in the capacitor in the power conversion unit can be instantaneously discharged, so that it is accumulated in the capacitor in the power conversion unit as in the past. Compared with the case where the electric charge is discharged naturally, the time required for discharging the capacitor can be shortened, and the work efficiency when performing the maintenance / inspection work by pulling out the power conversion unit to the inspection table can be improved. . In addition, since the inspection table has a discharge function, preparation of a discharge unit and storage space are not required compared to the case where a discharge unit is separately prepared and the charge accumulated in the capacitor is discharged as in the past. Thus, it is possible to improve the work efficiency when performing the maintenance / inspection work by pulling out the power conversion unit from the panel to the inspection table, and it is possible to reduce the size of the power conversion device.

The inspection table according to one aspect of the present invention is configured such that the pair of discharge external terminals are electrically connected to the discharge resistance element via an electric wire so as to be separated from the inspection table. Is preferred.
According to the inspection table according to one aspect of the present invention, since the pair of discharge external terminals of the inspection table can be taken to a free position, the pair of power external terminals, the pair of discharge external terminals, It is not necessary to separately prepare an electric wire for electrically connecting the pair of power external terminals and the pair of discharge external terminals.

  According to the present invention, it is possible to improve the work efficiency when performing the maintenance / inspection work by pulling out the power conversion unit from the panel body to the inspection table, and it is possible to reduce the size of the power conversion device.

1 is a block diagram illustrating a schematic configuration of a storage battery-equipped wind power generation system including a power conversion device according to Embodiment 1 of the present invention. It is a connection diagram which shows the internal structure of the power converter device which concerns on Embodiment 1 of this invention. It is a figure which shows the board | substrate body of the power converter device which concerns on Embodiment 1 of this invention. It is an equivalent circuit diagram which shows the internal structure of the 1st power conversion unit integrated in the power converter device which concerns on Embodiment 1 of this invention. It is an equivalent circuit diagram which shows the internal structure of the 2nd power conversion unit integrated in the power converter device which concerns on Embodiment 1 of this invention. In the power converter device which concerns on Embodiment 1 of this invention, it is a perspective view which shows the state which pulled out the 1st power conversion unit from the board body to the inspection stand from the front side. It is a perspective view which shows the power conversion unit and inspection stand of FIG. 6 from the back side. In the power converter device which concerns on Embodiment 1 of this invention, it is a connection diagram which shows the connection state of a 2nd power conversion unit and an inspection stand. In the power converter device which concerns on Embodiment 1 of this invention, it is a connection diagram which shows the connection state of a 1st power conversion unit and an inspection stand. In the power converter device which concerns on Embodiment 2 of this invention, it is a perspective view which shows the state which pulled out the 2nd power conversion unit from the board body to the inspection stand from the whole surface side. It is a perspective view which shows the 2nd power conversion unit and inspection stand of FIG. 11 from a back side.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that components having the same function are denoted by the same reference symbols throughout the drawings for describing the embodiments of the invention, and the repetitive description thereof is omitted.
(Embodiment 1)
In the first embodiment, an example in which the present invention is applied to a power conversion device incorporated in a wind power generation system with a storage battery will be described. In the first embodiment, an example in which the operator manually connects the discharge external terminal of the inspection table to the power external terminal of the power conversion unit to discharge the charge accumulated in the capacitor in the power conversion unit. To do.

Hereinafter, the power converter according to Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 9.
As shown in FIG. 1, the power conversion device 3 of Embodiment 1 is incorporated in a wind power generation system 1 with a storage battery. The storage battery-equipped wind power generation system 1 includes a wind power generator 2, a power converter 3, a power conditioner 4 for power stabilization, a power storage unit 5, and the like. The power conversion device 3 includes an AC / DC converter 3A and a DC / AC converter 3B. The power conditioner 4 for power stabilization includes two DC / AC converters. The power storage unit 5 is provided with a storage battery such as a lead storage battery or a lithium ion battery depending on the application. In this wind power generation system 1 with a storage battery, the output of the wind power generator is converted into direct current by the AC / DC converter 3A of the power conversion device 3, and further converted into alternating current by the DC / AC converter 3B of the power conversion device 3. To supply power. Further, the storage battery-equipped wind power generation system 1 stabilizes power fluctuations caused by wind power generation by controlling charging / discharging of the power storage unit 5 with the DC / AC converter of the power stabilization power conditioner 4. .

As shown in FIG. 2, the power conversion device 3 includes a chopper 7, an energy consuming resistance element 8, and the like in addition to the AC / DC converter 3 </ b> A and the DC / AC converter 3 </ b> B described above. The chopper 7 controls the DC / AC converter 3B so that the DC intermediate voltage does not increase when the system is abnormal.
The AC / DC converter 3A has a configuration in which three unitized first power conversion units 10 are connected in parallel. The DC / AC converter 3B also has a configuration in which three unitized second power conversion units 20 are connected in parallel.

As shown in FIG. 3, the power conversion device 3 includes a panel body 30. The board 30 has a storage portion 31 </ b> A for storing three first power conversion units 10 and a storage portion 31 </ b> B for storing three second power conversion units 20. The panel 30 also includes a control unit that controls the three first power conversion units 10 and the three second power conversion units 20, and a storage unit 31C that stores a cooling circulation device that cools these power conversion units. Have.
The panel body 30 has an openable / closable door that can be freely opened and closed so as to cover the storage portions 31A, 31B, and 31C, but is not shown in FIG.

As shown in FIG. 4, the first power conversion unit 10 includes three power conversion units 11, a capacitor 12, a positive line 13a and a negative line 13b, and a pair of output external terminals (power external terminals) 14a, 14b and three input external terminals U1, V1, and W1. The pair of output external terminals 14a and 14b corresponds to a pair of power external terminals of the present invention.
The three power converters 11 have a configuration in which two power semiconductor elements such as IGBTs (Insulated Gate Bipolar Transistors) are connected in series, and the input node part of each power converter 11 is 3 It is electrically connected to two input external terminals U1, V1, and W1.

In the positive electrode line 13a and the negative electrode line 13b, one output node unit of each power conversion unit 11 is electrically connected to the positive electrode line 13a, and the other output node unit of each power conversion unit 11 is electrically connected to the negative electrode line 13b. Connected. That is, the three power converters 11 are connected in parallel between the positive electrode line 13a and the negative electrode line 13b.
Of the pair of output external terminals 14a and 14b, one output external terminal 14a is electrically connected to the positive electrode line 13a, and the other output external terminal 14b is electrically connected to the negative electrode line 13b.

AC power from the wind power generator 2 (see FIG. 1) is input to the three input external terminals U1, V1, and W1, and the DC power converted by the three power converters 11 is used for a pair of outputs. Output from external terminals 14a and 14b.
The capacitor 12 is inserted and electrically connected between the positive electrode line 13a and the negative electrode line 13b in a stage after the three power conversion units 11 (on the output external terminal side). That is, the capacitor 12 is electrically connected between the pair of output external terminals 14a and 14b. The capacitor 12 is a smoothing capacitor that smoothes the DC power waveform converted by the three power converters 11.

  As shown in FIG. 5, the second power conversion unit 20 includes three power conversion units 21, a capacitor 22, a positive line 23 a and a negative line 23 b, and a pair of input external terminals (power external terminals) 24 a, 24b and three output external terminals U2, V2 and W2. The three power conversion units 21 have a configuration in which two power semiconductor elements such as IGBTs are connected in series. The output node unit of each power conversion unit 21 is electrically connected to three output external terminals U2, V2, and W2. Connected. The pair of input external terminals 24a and 24b correspond to the power external terminals of the present invention.

In the positive electrode line 23a and the negative electrode line 23b, one input node part of each power converter 21 is electrically connected to the positive electrode line 23a, and the other input node part of each power converter 21 is electrically connected to the negative electrode line 23b. Connected. That is, the three power converters 21 are connected in parallel between the positive electrode line 23a and the negative electrode line 23b.
Of the pair of input external terminals 24a and 24b, one input external terminal 24a is electrically connected to the positive electrode line 23a, and the other input external terminal 24b is electrically connected to the other negative electrode line 23b. Yes.

The pair of input external terminals 24a and 24b is supplied with DC power converted by the preceding stage AC / DC converter 3A, and AC power converted by the three power conversion units 21 is output by three output external terminals. Output from U2, V2, and W2.
The capacitor 22 is inserted between and electrically connected to the positive electrode line 23a and the negative electrode line 23b in a stage before the three power converters 21 (on the input external terminal side). That is, the capacitor 22 is electrically connected between the pair of input external terminals 24a and 24b. The capacitor 22 is a smoothing capacitor that smoothes the DC power waveform input to the pair of input external terminals 24a and 24b.

As shown in FIGS. 6 and 7, the power conversion device 3 includes an inspection table 40. In this power conversion device 3, the inspection table 40 is arranged on the front surface of the panel body 30, and the second power conversion unit 20 or the first power conversion unit 10 is pulled out from the storage part of the panel body 30 to the inspection table 40 for maintenance and inspection. Doing work.
The inspection table 40 is unitized mainly with a case 41 made of a rectangular parallelepiped. The case 41 has a holding surface 41a for holding the second power conversion unit 20 or the first power conversion unit 10 drawn out from the housing part of the board 30. The holding surface 41a includes the second power conversion unit 20 or A rail 41b for guiding the first power conversion unit 10 is provided.

The inspection table 40 includes a connection plug 42 in which a pair of discharge external terminals 42a and 42b are insulated and fixed to each other via an insulating material 42c and a discharge electrically connected between the pair of discharge external terminals 42a and 42b. And a pair of electric wires 44a and 44b. In the present embodiment, the pair of discharge external terminals 42 a and 42 b are electrically connected to the discharge resistance element 43 via the pair of electric wires 44 a and 44 b and can be separated from the inspection table 40.
Further, the inspection table 40 includes a pull-out tray 45 on the side surface of the case 41, and the connection plug 42 and the pair of electric wires 44a and 44b can be accommodated in the pull-out tray 45. That is, the power conversion device 3 according to the first embodiment can take out the pair of discharge external terminals 42a and 42b from the pull-out tray 45 and bring them to a free position.

  The second power conversion unit 20 is unitized mainly with a case 25 made of a rectangular parallelepiped. In the case 25, the three power converters 21, the capacitor 22, the positive electrode line 23a, the negative electrode line 23b, and the like described above are accommodated, and further, a power semiconductor element cooling body and the like are also accommodated. The pair of external input terminals 24 a and 24 b and the three external output terminals U 2, V 2, and W 2 are provided in a state of being exposed on the back surface opposite to the front surface of the case 25. The pair of input external terminals 24a and 24b are used for a pair of plug-in contacts provided in the housing portion 31B of the board body 30 when the second power conversion unit 20 is housed in the housing section 31B of the board body 30. The terminals 32a and 32b are fitted and electrically and mechanically connected. Further, the three output external terminals U2, V2, and W2 are also fitted with plug-in contact terminals provided in the housing portion 31B of the board 30 corresponding to the output external terminals, and electrically And mechanically connected. That is, in the power conversion device 3 of the first embodiment, in order to easily perform maintenance / inspection work of the unitized power conversion units 10 and 20, the electrical conversion between the power conversion units 10 and 20 and the panel body 30 is performed. Connection is made by plug-in method. Note that the second power conversion unit 20 is a carriage type having wheels on the lower surface of the case 25 in order to facilitate the insertion and removal of the board body 30 into and from the storage portion 31B.

Although not shown in the drawing, the first power conversion unit 10 is also unitized mainly in the case of a rectangular parallelepiped, as with the second power conversion unit 20. In the case, the above-described three power conversion units 11, the capacitor 12, the positive electrode line 13a, the negative electrode line 13b, and the like are accommodated, and further, a power semiconductor element cooling body and the like are also accommodated. The pair of output external terminals 14a, 14b and the three input external terminals U1, V1, W1, etc. are provided in a state of being exposed on the back side opposite to the front side of the case, like the second power conversion unit 20. Yes. The pair of output external terminals 14a and 14b are used for a pair of plug-in contacts provided in the housing portion 31A of the board body 30 when the first power conversion unit 10 is housed in the housing section 31A of the board body 30. Mates with terminals and is electrically and mechanically connected. Further, the three input external terminals U1, V1, W1 are also fitted with plug-in contact terminals provided in the housing portion 31A of the board body 30 corresponding to the input external terminals, and electrically And mechanically connected. In addition, the 1st power conversion unit 10 is also a trolley | bogie type which has a wheel on the lower surface of a case similarly to the 2nd power conversion unit 20.
In the board 30, the pair of plug-in contact terminals 32 a and 32 b in the storage part 31 </ b> B are electrically connected to the pair of plug-in contact terminals in the storage part 31 </ b> A via the bus bar of the board 30. .

Next, maintenance / inspection work of the second power conversion unit 20 will be described with reference to FIGS. 6 to 8. The first power conversion unit 10 is also maintained and inspected in the same manner as the second power conversion unit 20. Therefore, the description of the maintenance / inspection work of the first power conversion unit 10 is omitted.
First, an operator arranges the inspection table 40 on the front surface of the board 30. Next, the operator pulls out the second power conversion unit 20 from the panel body 30 to the inspection table 40 (see FIG. 6). By pulling out the second power conversion unit 20, the electrical connection between the pair of plug-in contact terminals 32 a and 32 b of the panel 30 and the pair of input external terminals 24 a and 24 b of the second power conversion unit 20 is released. However, even after this electrical connection is released, electric charge remains in the capacitor 22 in the second power conversion unit 20.

  Next, the operator takes out the connection plug 42 from the pull-out tray 45 of the inspection table 40 (see FIG. 6), and then a pair of discharges is applied to the pair of input external terminals 24a and 24b of the second power conversion unit 20. External terminals 42a and 42b are connected (see FIGS. 7 and 8). At this time, since the pair of discharge external terminals 42a and 42b are electrically connected to the discharge resistance element 43 via the pair of electric wires 44a and 44b, the pair of discharge external terminals 42a and 42b are accumulated in the capacitor 22 in the second power conversion unit 20. Can be discharged instantly. Further, since the pair of discharge external terminals 42a and 42b are electrically connected to the discharge resistance element 43 via the pair of electric wires 44a and 44b, the pair of discharge external terminals 42a and 42b can be freely positioned. The electrical connection between the pair of external input terminals 24a and 24b of the second power conversion unit 20 and the pair of external discharge terminals 42a and 42b of the inspection table 40 can be easily performed. Can do.

Thereafter, maintenance / inspection work of the second power conversion unit 20 is performed.
Also in the first power conversion unit 10, as shown in FIG. 9, the pair of external external terminals 42 a and 42 b of the inspection table 40 are connected to the pair of external input terminals 14 a and 14 b of the first power conversion unit 10. By connecting, the electric charge accumulated in the capacitor 12 in the first power conversion unit 10 can be instantaneously discharged.

As described above, according to the power conversion device 3 of the first embodiment, the following effects can be obtained.
(1) In the power conversion device 3 according to the first embodiment, the inspection table 40 has a pair of discharge external terminals 42a and 42b and a discharge for electrical connection between the pair of discharge external terminals 42a and 42b. And a resistance element 43.
Therefore, according to the power conversion device 3 of the first embodiment, when the second power conversion unit 20 (or the first power conversion unit 10) is pulled out from the panel body 30 to the inspection table 40 for maintenance / inspection (maintenance). The capacitor in the second power conversion unit 20 is electrically connected to the pair of input external terminals 24a and 24b of the second power conversion unit 20 and the pair of discharge external terminals 42a and 42b of the inspection table 40. Since the electric charge accumulated in the capacitor 22 can be discharged instantaneously, the time required for the discharge of the capacitor 22 compared with the case where the electric charge accumulated in the capacitor 22 in the power conversion unit 20 is naturally discharged as in the prior art. And the work efficiency when the second power conversion unit 20 is pulled out to the inspection table 40 to perform maintenance and inspection work can be improved. That. In addition, since the inspection table 40 has a discharge function, as compared with a conventional case where a discharge unit is separately prepared and the electric charge accumulated in the capacitor 22 is discharged, preparation and storage space for the discharge unit are provided. The work efficiency of performing the maintenance / inspection work by pulling out the second power conversion unit 20 to the inspection table 40 can be improved, and the power conversion device 3 can be downsized.

(2) The power conversion device 3 according to the first embodiment is for discharging through the pair of electric wires 44a and 44b so that the pair of external discharge terminals 42a and 42b of the inspection table 40 can be separated from the inspection table 40. The resistor element 43 is electrically connected.
Therefore, according to the power conversion device 3 of the first embodiment, the pair of discharge external terminals 42a and 42b of the inspection table 40 can be freely positioned on the pair of input external terminals 24a and 24b of the second power conversion unit 20. Therefore, electrical connection between the pair of input external terminals 24a and 24b and the pair of discharge external terminals 42a and 42b can be easily performed, and the pair of input external terminals 24a. , 24b and a pair of external terminals for discharge 42a, 42b need not be separately prepared.

(Embodiment 2)
In Embodiment 1 described above, an operator connects the discharge external terminals (42a, 42b) of the inspection table 40 to the power external terminals (14a, 14b, 24a, 24b) of the power conversion unit (10, 20). In the second embodiment, the electric charge accumulated in the capacitors (12, 22) in the power conversion unit (10, 20) is discharged. In the second embodiment, the discharge external terminal of the power conversion unit is connected to the inspection table. An example will be described in which the electric charge accumulated in the capacitor in the power conversion unit is discharged by automatically connecting the external terminals.

In addition, since the unit-side discharge external terminal described later can be provided in both the first power conversion unit and the second power conversion unit, the second power conversion unit will be described in the second embodiment, and the first power conversion will be described. A description of the unit is omitted.
10 and 11, the power conversion device 50 according to the second embodiment has substantially the same configuration as the power conversion device 3 according to the first embodiment described above. However, the second power conversion unit 20 and the inspection table 40 are not modified. The configuration is different.
That is, the second power conversion unit 20 further includes a pair of unit-side discharge external terminals 26a and 26b that are electrically connected to the pair of input external terminals 24a and 24b, respectively. The pair of unit-side discharge external terminals 26 a and 26 b are disposed on the bottom surface of the second power conversion unit 20, and are electrically connected to the pair of input external terminals 24 a and 24 b via wiring in the case 25. It is connected to the.

On the other hand, in the inspection table 40, a pair of discharge external terminals 46a and 46b are fixed to a holding surface 41a that holds the second power conversion unit 20. The pair of discharge external terminals 46 a and 46 b are electrically connected to the discharge resistance element 43 through wiring in the case 41.
The pair of unit-side discharge external terminals 26 a and 26 b of the second power conversion unit 20 are fixed to the holding surface 41 a of the inspection table 40 when the second power conversion unit 20 is pulled out from the panel body 30 to the inspection table 40. Electrically and mechanically connected to the pair of discharge external terminals 46a and 46b. That is, the pair of unit-side discharge external terminals 26a and 26b of the second power conversion unit 20 and the pair of discharge external terminals 46a and 46b of the inspection table 40 are converted into the second power conversion from the panel 30 to the inspection table 40. By pulling out the unit 20, they are arranged at positions where both come into contact with each other.

Note that the pair of unit-side discharge external terminals 26 a and 26 b are also provided in the first power conversion unit 10. In this case, the pair of unit-side discharge external terminals 26 a and 26 b are individually electrically connected to the pair of output external terminals 14 a and 14 b of the first power conversion unit 10.
As described above, the power conversion device 50 according to the second embodiment pulls out the second power conversion unit 20 from the panel body 30 to the inspection table 40, so that a pair of unit-side discharge external terminals of the second power conversion unit 20 is achieved. 26a, 26b and the discharge external terminals 46a, 46b of the inspection table 40 are arranged at positions where they are in contact with each other.

  Therefore, according to the power conversion device 50 of the second embodiment, the pair of unit-side discharge external terminals 26a of the second power conversion unit 20 is obtained by pulling out the second power conversion unit 20 from the panel body 30 to the inspection table 40. 26b and the pair of discharge external terminals 46a and 46b of the inspection table 40 are electrically connected, so that the operator manually inputs a pair of input external terminals 24a and 24b (power external terminals) and a pair of discharges. The connection with the external terminals 46a and 46b is not necessary. As a result, it is possible to further improve the work efficiency of performing the maintenance / inspection work by pulling out the second power conversion unit 20 from the panel 30 to the inspection table 40.

Also in the first power conversion unit 10, it is possible to further improve the work efficiency of performing the maintenance / inspection work by drawing the first power conversion unit 10 from the panel body 30 to the inspection table 40.
In the above-described first and second embodiments, the power conversion devices 3 and 50 including the inspection table 40 have been described. However, the inspection table 40 may be brought in when an operator performs maintenance and inspection. Even in such a case, the same effects as those of the first and second embodiments can be obtained.

As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment. However, the invention is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention. Of course.
As described above, in the power conversion device and the inspection table according to the present invention, it is possible to improve the work efficiency when performing the maintenance / inspection work by pulling out the power conversion unit from the panel body to the inspection table. This has the effect that the conversion device can be miniaturized, and is useful for a power conversion device having a power conversion unit with a built-in capacitor.

DESCRIPTION OF SYMBOLS 1 ... Wind power generation system with storage battery, 2 ... Wind power generator, 3 ... Power converter,
DESCRIPTION OF SYMBOLS 4 ... Power conditioner for power stabilization, 5 ... Power storage part, 7 ... Chopper, 8 ... Resistive element for energy consumption 10 ... 1st power conversion unit, 11 ... Power conversion part, 12 ... Capacitor, 13a ... Positive electrode line, 13b: negative electrode line, 14a, 14b: output external terminal (power external terminal,
DESCRIPTION OF SYMBOLS 20 ... 2nd power conversion unit, 21 ... Power conversion part, 22 ... Capacitor, 23a ... Positive electrode line, 23b ... Negative electrode line, 24a, 24b ... External terminal for input (external terminal for electric power)
DESCRIPTION OF SYMBOLS 30 ... Board body, 30A, 30B, 30C ... Storage part, 32a, 32b ... Terminal for plug-in contact 40 ... Inspection stand, 42a, 42b ... External terminal for discharge, 43 ... Resistance element for discharge, 44a, 44b ... Electric wire, 46a, 46b ... discharge external terminals

Claims (5)

A power conversion device comprising: a power conversion unit that performs power conversion; a panel that houses the power conversion unit; and an inspection table that is held when the power conversion unit is pulled out from the panel;
The power conversion unit has a pair of power external terminals and a capacitor electrically connected between the pair of power external terminals,
The inspection table has a pair of discharge external terminals and a discharge resistance element electrically connected between the pair of discharge external terminals,
The pair of discharge external terminals are electrically connected to the pair of power external terminals.   2. The power conversion device according to claim 1, wherein the pair of discharge external terminals are electrically connected to the discharge resistance element via an electric wire so as to be separated from the inspection table. . The power conversion unit further includes a pair of unit-side discharge external terminals electrically connected to the pair of power external terminals individually,
The pair of unit-side discharge external terminals of the power conversion unit and the discharge external terminals of the inspection table are positions where both come into contact with each other by pulling out the power conversion unit from the panel to the inspection table. The power converter according to claim 1, wherein An inspection table that holds a power conversion device having a pair of power external terminals and a capacitor electrically connected between the pair of power external terminals when the power conversion device is pulled out from the board,
A pair of discharge external terminals, and a discharge resistance element electrically connected between the pair of discharge external terminals,
The pair of discharge external terminals are electrically connected to the pair of power external terminals.   The inspection table according to claim 4, wherein the pair of discharge external terminals are electrically connected to the discharge resistance element through an electric wire so as to be separated from the inspection table.

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