JP6418877B2 - Heat dissipation structure in current collection box for solar power generation system - Google Patents

Description

  The present invention relates to a heat dissipation structure in a current collection box for a photovoltaic power generation system.

  In the current collection box for the photovoltaic power generation system, each string of solar cells, that is, a solar cell module group in which solar cells are connected in series so as to obtain a necessary DC voltage, and a branch switch, A backflow prevention diode module connected to the positive electrode of the branch switch and a current collecting switch for collecting them are provided. These internal devices are fixed on the device mounting plate in the housing, but particularly heat from the backflow prevention diode module may impair the life of the peripheral devices. Therefore, a technology is adopted in which the device mounting plate is made of a material having high thermal conductivity, or after all the backflow prevention diode modules are arranged in a heat sink shape, this heat sink is fixed to the device mounting plate. .

  However, when all the backflow prevention diode modules are arranged on one device mounting plate, there is a problem that heat transfer occurs between the backflow prevention diode modules. In order to solve this problem, as shown in Patent Document 1, there is a technique in which the device mounting plate is divided in the vertical direction of the housing and the backflow prevention diode modules are arranged on both device mounting plates so as to be staggered. It is disclosed.

  However, in such a prior art, since it is arranged with a space in the vertical direction or the horizontal direction so as not to be affected by heat between adjacent backflow prevention diode modules, the device in the vertical direction or the horizontal direction of the casing is arranged. There is a problem that the size of the mounting plate is increased, and the vertical width or the horizontal width of the housing is increased.

JP 2013-149766 A

  An object of the present invention is to provide a heat dissipation structure in a current collection box for a photovoltaic power generation system that solves the above-described conventional problems, suppresses heat transfer between backflow prevention diode modules, and can reduce the size of the housing. Is to provide.

The present invention made to solve the above-described problems includes a plurality of branch switches for opening and closing an electric circuit of a solar cell module, a terminal portion of the branch switch, and a positive electrode on a device mounting plate provided in a housing. A heat dissipation structure in a current collection box for a photovoltaic power generation system having a plurality of backflow prevention diode modules having a plurality of connection terminals to which wiring to a bar is connected, wherein the backflow prevention diode module is a single device mounting plate The upper and lower positions are aligned, and are arranged at equal intervals in the left-right direction of the casing, and the plurality of connection terminals of the backflow prevention diode module are arranged in tandem in the vertical direction of the casing . The slits are arranged in parallel with the backflow prevention diode module at equal intervals between the backflow prevention diode modules .

According to a second aspect of the present invention, in the heat dissipation structure in the current collection box for the solar power generation system according to the first aspect, the slit extends in a vertical direction of the housing from the backflow prevention diode module. It is what.

According to a third aspect of the present invention, in the heat dissipation structure in the current collection box for the solar power generation system according to the first aspect, the plurality of backflow prevention diode modules are arranged in parallel to the arrangement direction of the branch switches. It is characterized by that.

According to a fourth aspect of the present invention, in the heat dissipation structure in the current collection box for the photovoltaic power generation system according to the first aspect , the positive electrode bar extends in a direction different from the vertical direction of the housing, and a plurality of backflow prevention diode modules are provided. The connection terminal is connected so as to pass.

In the heat dissipation structure in the current collection box for the photovoltaic power generation system according to the present invention, a plurality of connection terminals of the backflow prevention diode module are arranged in tandem in the vertical direction of the casing. Thereby, the size of the device mounting plate in the vertical direction or the horizontal direction of the housing is reduced, and the housing can be miniaturized. In addition, a slit extending in the vertical direction of the housing is formed between adjacent multiple backflow prevention diode modules in parallel with the connection terminals arranged in a vertical direction in the vertical direction, thereby suppressing heat transfer between the backflow prevention diode modules. It becomes possible to do.

According to the second aspect of the present invention, the heat transfer between the backflow prevention diode modules can be more reliably suppressed by extending the slit in the vertical direction of the housing than the backflow prevention diode module.

In the present invention, since the slit is formed between the adjacent backflow prevention diode modules on one device mounting plate, the processing on the device mounting plate is facilitated .

According to a third aspect of the present invention, the plurality of backflow prevention diode modules are arranged in parallel to the arrangement direction of the branch switches. As a result, the scenery is improved, and the number of types of wiring can be reduced as compared with the case where the backflow prevention diode modules are arranged in a zigzag shape in the vertical direction of the housing as in the prior art. Further, since the gap is formed at an even position, the strength of the device mounting plate can be maintained when the slit is formed. In the invention according to claim 4 , by connecting the connection terminals of the plurality of backflow prevention diode modules with the positive electrode bar, wiring for connecting the positive electrode bar and the backflow prevention diode can be made unnecessary.

It is a whole perspective view which shows this embodiment. It is a front view which shows the in-casing machine of this embodiment. It is an enlarged view which shows the principal part of this embodiment. FIG. 4 is a wiring omission diagram of FIG. 3. It is a perspective view which shows the in-casing machine of this embodiment. It is a front view which shows the reference form of this invention . It is a perspective view which shows the reference form of this invention .

  Preferred embodiments of the present invention are shown below. In addition, the up-down direction and the left-right direction refer to the directions shown in FIGS. Specifically, the vertical direction indicates the arrangement direction of the branch switch 4 and the backflow prevention diode module 5. The left-right direction indicates the arrangement direction of the plurality of branch switches 4. As shown in FIG. 1, a current collection box for a photovoltaic power generation system includes a housing 1 and a door 2 attached to the front side of the housing 1. As shown in FIG. 2, inside the housing 1, as shown in FIG. 2, one device mounting plate 3 made of iron base, a branch switch 4 formed for each solar cell module group (not shown), and a branch switch 4 And a backflow prevention diode module 5 connected to the positive electrode. The branch switch 4 is arranged side by side in the left-right direction of the housing 1. Then, from the positive electrode terminal portion 14 of the branch switch 4, the positive electrode bar 7 connected via the backflow prevention diode module 5 by the positive electrode lead bar 6, and from the negative electrode terminal portion 15 of the branch switch 4 to the negative electrode lead bar 8. A negative electrode bar 9 to be connected is provided. Further, a current collecting switch (not shown) that collects these is provided outside the housing 1. In the present embodiment, the current collecting switch is connected to the current collecting switch by the current collecting cable 10.

  After these internal devices are arranged in the housing 1, as shown in FIG. 1, a cover 11 is attached to the front surface so that only the changeover switch portion of the branch switch 4 is exposed and can be operated. The solar cell module may be either a single solar cell panel or a string of a plurality of solar cell panels, and the current collecting switch may be provided inside the housing 1. . In addition, a handle 19 for removal may be formed on the device mounting plate 3.

  The backflow prevention diode module 5 is provided with three connection terminals 12 as shown in FIGS. 3 and 4, and the connection terminals 12 are connected to the middle and lower positive lead bar connection terminals 12 a as input terminals. The upper positive electrode bar connection terminal 12b is an output terminal of the middle and lower positive lead bar connection terminals 12a and 12a. Specifically, the three connection terminals 12 are arranged in a vertical line in the vertical direction of the casing 1, and in particular, two positive lead bar connection terminals 12 a that can connect wires from the positive terminal portion 14 of the branch switch 4 are in the middle stage. And a positive bar connecting terminal 12b to which the positive bar 7 is connected by wiring. A plurality of backflow prevention diode modules 5 are arranged above the branch switch 4 at equal intervals in the left-right direction of the housing 1.

  As shown in FIG. 4, a gap extending in the vertical direction of the housing 1 is formed between the plurality of adjacent backflow prevention diode modules 5, 5 in parallel with the connection terminals 12 arranged in a column in the vertical direction. In the present embodiment, the gap is formed as a slit 13 formed between adjacent backflow prevention diode modules 5 and 5 on one device mounting plate 3.

  As described above, the backflow prevention diode module 5 has a plurality of connection terminals 12 arranged vertically in the vertical direction of the casing 1 and disposed above the branch switch 4, so that the device mounting plate 3 The size of the casing 1 in the vertical direction or the horizontal direction is reduced, and the casing 1 can be miniaturized. Furthermore, by forming a slit 13 as a gap between the plurality of adjacent backflow prevention diode modules 5, 5, heat transfer between the backflow prevention diode modules 5, 5 can be suppressed. Moreover, the process on the apparatus attachment board 3 becomes easy by comprising a space | gap part by the slit 13. FIG. Such slits 13 allow the backflow prevention diode modules 5 and 5 to be arranged with a certain distance, thereby preventing heat transfer through the space and preventing heat transfer through the device mounting plate 3. Is possible.

  As shown in FIG. 4, the slit 13 extends from the backflow prevention diode module 5 in the vertical direction of the housing 1. Thereby, it becomes possible to more reliably suppress heat transfer between the backflow prevention diode modules 5 and 5. The slit 13 may be formed in the vertical direction of the housing 1 with substantially the same length as the backflow prevention diode module 5. Further, in the present embodiment, the slit 13 is formed by skipping one backflow prevention diode module 5, but of course, it may be formed between all the backflow prevention diode modules 5, 5. is there.

  As shown in FIG. 2, the plurality of backflow prevention diode modules 5 are arranged at equal intervals in the left-right direction of the housing 1 after their vertical positions are aligned so as to be parallel to the arrangement direction of the branch switch 4. It was supposed to be established. As a result, the scenery is improved and the number of types of wiring can be reduced as compared with the case where the backflow prevention diode modules are arranged in a zigzag manner in the vertical and horizontal directions of the housing as in the prior art. Furthermore, by arranging the backflow prevention diode modules 5 at equal intervals and in parallel with the branch switch 4, the slits 13 are formed at equal positions, and the slits 13 can be easily processed.

  In addition, since the plurality of backflow prevention diode modules 5 are formed so as to be aligned in the vertical position, in addition to connecting wires of the same length as the wiring connecting the positive electrode bar 7 and the positive electrode bar connection terminal 12b, FIG. As shown in FIG. 5, the positive bar 7 is directly connected to the positive bar connecting terminal 12b as a wiring from the left and right directions, and is connected so as to pass a plurality of positive bar connecting terminals 12b and 12b. As a result, the electric wire connecting the backflow prevention diode module 5 and the positive electrode bar 7 can be eliminated, the work efficiency can be improved, and the wiring space is unnecessary, so that the width in the vertical direction of the housing 1 can be reduced. it can. The negative electrode bar 9 provided between the backflow prevention diode module 5 and the branch switch 4 is fixed by a bar holder 16 formed on the device mounting plate 3. In addition, according to the height of the bar holder 16, height is adjusted with the mounting base 25 to which the branch switch 4 is attached.

  As shown in FIGS. 3 and 5, the positive electrode terminal portion 14 of the branch switch 4 and the positive electrode lead bar connection terminal 12 a of the backflow prevention diode module 5 are connected by a positive electrode lead bar 6 made of copper. More specifically, the positive electrode lead bar 6a that connects one positive electrode terminal portion 14 and the lower positive electrode lead bar connection terminal 12a is formed in a straight line, the center line of the lower positive electrode lead bar connection terminal 12a, The center line of the positive electrode terminal portion 14 is assumed to be substantially the same. This facilitates processing of the positive electrode lead bar 6a and facilitates alignment when the positive electrode lead bar 6a is connected. Further, the tip of the positive lead bar 6b that connects the other positive terminal 14 to the middle positive lead bar connecting terminal 12a of the backflow prevention diode module 5 is formed in a substantially L shape, and the middle positive lead bar connecting terminal The wiring to 12a was performed from the left-right direction. Specifically, as shown in FIG. 5, both the positive lead bars 6 a and 6 b are insulated from the positive electrode terminal portion 14 of the branch switch 4 and the negative electrode bar 9 provided between the connection terminals 12 of the backflow prevention diode module 5. In order to keep the distance, it is a step-bending shape, and it can be made a simple process by making the tip substantially L-shaped like the positive electrode lead bar 6b.

  As shown in FIG. 3, a gap is provided between the positive electrode lead bars 6a and 6b to be fixed, so that an insulation distance between the two can be secured. And the negative electrode terminal part 15 and the negative electrode bar connection terminal 18 of the branch switch 4 shall be located in the space | gap between positive electrode lead bars 6a and 6b. With this configuration, the negative electrode bar 8 and the negative electrode lead bar 9 can be easily screwed, and at the same time, the insulation distance between the positive electrode lead bars 6a and 6b and the negative electrode bar connection terminal 18 can be secured.

6 and 7 show a reference embodiment of the present invention . In this reference embodiment, a unit 20 configured by mounting one or a plurality of backflow prevention diode modules 5 and one or a plurality of branch switches 4 on a device mounting plate 3 is provided in the casing 1. It was supposed to have more than one. As shown in FIG. 7, the device mounting plate 3 is fixed to mounting rails 21 formed at the top and bottom of the housing 1. And this apparatus mounting plate 3 shall be comprised by the width | variety in which the space part 22 is formed between adjacent units 20 and 20, when the several unit 20 is arrange | positioned in the housing | casing 1 left-right direction, 22 was a void. Even with such a configuration, it is possible to provide a gap for suppressing heat transfer between the backflow prevention diode modules 5 and 5 only by installing the unit 20 at a predetermined mounting position. In addition, after fixing the unit 20 to the mounting rail 21, the positive electrode lead bar 6 and the negative electrode lead bar 8 described above are attached, and the other positive electrode bar 7 and negative electrode bar 9 are attached so as to pass a plurality of units 20. is there.

  As shown in FIG. 7, a bent side 23 is formed at the end of the device mounting plate 3 in the left-right direction of the casing 1, and a notch 24 is formed at the end of the bent side 23 in the up-down direction of the casing 1. To form. With such a configuration, the heat radiation area of the unit 20 is increased by the bent side 23, and the notch 24 can be brought into contact with the mounting rail 21 to be used for positioning. Moreover, in other embodiment, after fixing each unit 20 to the attachment rail 21, the positive electrode bar and negative electrode bar which are not shown in figure are attached. It should be noted that a handle 19 may be formed on the device mounting plate 3 located at the end of the housing 1 in the left-right direction.

DESCRIPTION OF SYMBOLS 1 Housing | casing 2 Door 3 Equipment mounting plate 4 Branch switch 5 Backflow prevention diode module 6 Positive electrode lead bar 7 Positive electrode bar 8 Negative electrode lead bar 9 Negative electrode bar 10 Current collecting cable 11 Cover 12 Connection terminal 12a Positive electrode lead bar connection terminal 12b Positive electrode bar Connection terminal 13 Slit 14 Positive electrode terminal portion 15 Negative electrode terminal portion 16 Bar holder 18 Negative electrode bar connection terminal 19 Handle 20 Unit 21 Mounting rail 22 Space portion 23 Bending side 24 Notch portion 25 Mounting base

Claims (4)

A plurality of branch switches for opening and closing the electric circuit of the solar cell module, and a plurality of connection terminals to which wiring to the terminal section of the branch switch and the positive electrode bar are connected on a device mounting plate provided in the housing. A heat dissipation structure in a current collection box for a photovoltaic power generation system having a plurality of backflow prevention diode modules having,
The backflow prevention diode modules are arranged at equal intervals in the left-right direction of the housing, after aligning the vertical position on one device mounting plate,
And the plurality of connection terminals of the backflow prevention diode module are arranged in tandem in the vertical direction of the housing,
A heat dissipating structure in a current collection box for a solar power generation system , wherein slits are arranged between these backflow prevention diode modules at equal intervals in parallel to the backflow prevention diode module . The heat dissipation structure in a current collection box for a solar power generation system according to claim 1, wherein the slit extends in a vertical direction of the housing from the backflow prevention diode module. The heat dissipation structure in a current collection box for a solar power generation system according to claim 1, wherein the plurality of backflow prevention diode modules are arranged in parallel with an arrangement direction of the branch switch . 2. The collector box for a photovoltaic power generation system according to claim 1, wherein the positive bar extends in a direction different from the vertical direction of the casing and is connected so as to pass connection terminals of a plurality of backflow prevention diode modules. Heat dissipation structure.