KR102271017B1 - junction box for solar power generator - Google Patents

Abstract

The present invention relates to a connection box for solar power generation of a novel structure easily manufactured, maintained and repaired. The connection box for solar power generation in accordance with the present invention comprises: a case; a support panel; and a connection unit (A). The connection unit (A) comprises: a circuit breaker (30) including an input terminal (31) provided on an upper side and an output terminal (32) provided on a lower side, and provided on a central portion of the support panel (20); a PCB module (40) fixed to both sides of a front surface of the support panel (20); a plurality of fuses (51) provided on the PCB module (40); a circuit breaker bus bar (52) connecting the PCB module (40) to the input terminal (31) of the circuit breaker (30); and an output bus bar (53) connected to the output terminal (32) of the circuit breaker (30). The use of a distribution line used to connect parts such as the fuses (41) and the circuit breaker (30) can be minimized. Therefore, the connection box for solar power generation can be easily manufactured, and the circuit breaker (30) and the fuses (51) can be easily replaced, and thus, the connection box for solar power generation can be easily maintained and repaired.

Description

Junction box for solar power generator

The present invention relates to a junction box for photovoltaic power generation of a new structure that is easy to manufacture and maintain.

In general, a photovoltaic power generation system includes a plurality of photovoltaic panel modules that generate power using sunlight, a junction box connected to the photovoltaic panel module, and an inverter connected to the junction box.

Accordingly, the DC electricity generated by the solar panel module is merged in the junction box, the voltage and current are increased and supplied to the inverter, and the inverter converts the supplied DC electricity into AC electricity of a constant voltage and outputs it.

At this time, as shown in FIG. 1 , the junction box includes a case 10 made of a metal material and having a door 11 on the front side, and a support panel 20 fixed to the inner rear side of the case 10 . ) and a connection unit (A) provided on the front surface of the support panel 20 .

The connection unit (A) is provided with a terminal, a fuse, a distribution line or a bus bar, and a circuit breaker or a DC switch may be provided depending on the type of the inverter.

At this time, the terminal and the fuse are interconnected by a distribution line.

However, in such a junction box, the terminal and the fuse are interconnected by a distribution line, and since the number of terminals and fuses is large, it takes a lot of time to manufacture or maintain the junction box, as well as manufacturing and maintaining the junction box There was a problem that maintenance was cumbersome.

Therefore, there is a need for a new method to solve these problems.

Registered Patent No. 10-2077473,

An object of the present invention is to solve the above problems, and to provide a junction box for photovoltaic power generation of a new structure that is easy to manufacture and maintain.

The junction box for photovoltaic power generation according to one aspect of the present invention includes a case 10 made of a metal material and having a door 11 on the front side, and a support panel 20 fixed to the inner rear side of the case 10 . ) and a connection unit (A) provided on the front side of the support panel (20), and is connected between a plurality of solar panel modules (1) and the inverter (3), and the connection unit (A) is , the input terminal 31 is provided on the upper side, the output terminal 32 is provided on the lower side, the circuit breaker 30 provided in the center of the support panel 20, and the support panel 20 is fixed on both sides of the front side A pair of PCB modules 40, a plurality of fuses 51 provided in the PCB module 40, and a circuit breaker booth connecting the PCB module 40 and the input terminal 31 of the circuit breaker 30 a bar 52 and an output bus bar 53 connected to the output terminal 32 of the circuit breaker 30, wherein the PCB module 40 includes a PCB panel 41 and the PCB panel 41 ) provided on the lower front side of the photovoltaic panel module (1), and a plurality of power connection tabs 42 to which the extended input power lines (4,5) are connected, and located on the upper side of the power connection tab (42) A plurality of lower connection tabs 43 provided on the front surface of the PCB panel 41, and a plurality of upper connection tabs provided on the front surface of the PCB panel 41 to be positioned above the lower connection tab 43 44 and a module bus bar 45 provided on the front side of the PCB panel 41 so as to be positioned above the upper connection tab 44, and the power connection tab ( 42) and a first connection circuit 41a connecting the lower connection tab 43 and a second connection circuit 41b connecting the upper connection tab 44 and the module bus bar 45 are formed, and the fuse 51 is electrically connected to the lower connection tab 43 and the upper connection tab 44 by the energizing member 51a coupled to the upper and lower ends, and the breaker bus bar 52 is the module bus bar 45 and an output power line 6 connected to the inverter 3 to the output bus bar 53 and configured to connect the input terminal 31 of the circuit breaker 30, 7) is provided on the front of the circuit breaker 30 to cut off or apply power by the manager rotating it in the vertical direction in the connection box for solar power generation to which 7) is connected, but after the door 11 It faces the side and is provided inside the case 10 to apply power when it is rotated to the lower side and to cut off the power when it is rotated to the upper side, and the inside of the solar generator junction box or inverter (3) ) a fire detecting means 61 for detecting that a fire has occurred, and a current measuring means connected to the middle of the breaker bus bar 52 and measuring the electric current applied through the breaker bus bar 52 . (55), a blocking actuating means (62) provided on the rear side of the door (11) and rotating the control lever (33) according to the operation to cut off the power to the circuit breaker (30), and the support panel ( 20) provided on the front side of the cutter 70 for cutting the input power line 4, 5, and a cutting mechanism driving means provided on the rear side of the door 11 to control the operation of the cutter 70 ( 80) and the signal of the fire detecting means 61 and the current measuring means 55 is received, and by receiving the signal of the fire detecting means 61, a fire has occurred inside the case 10 When detected, the circuit breaker 30 is controlled to turn on the power by driving the circuit breaker driving means 62 to rotate the control lever 33, and receives a signal from the current measuring means 55, and the circuit breaker ( When power is sensed to be applied to the breaker bus bar 52 even after controlling the 30) to cut off the power, the cutting drive driving means 80 is driven so that the cutting machine 70 is connected to the input power lines 4 and 5. and a control means (90) for controlling to cut the block, wherein the blocking driving means (62) includes a guide member (62a) provided to extend vertically on the rear surface of the door (11), and the guide member (62a) is coupled so as to be lifted up and down to rotate the control lever 33 in the direction to cut off the power and the direction in which the power is applied, and the door 11 is normally closed. It includes an elevating member (62b) located below the control lever (33) rotated downward in the state, and an electric cylinder that is expanded and contracted by a driving motor provided therein, and is connected to the elevating member (62b), When it is extended, it pushes up the lifting member 62b on the lower side of the control lever 33 to cut off the power of the circuit breaker 30 includes a lifting and lowering driving means 62c, and the cutter (70) is provided on the lower front side of the support panel 20 so as to be positioned at the rear of the input power lines 4 and 5 and a support member 71 having a cutting hole 71a penetrating the front and rear surfaces thereof, and the input power source It is slidably coupled to the support member 71 in the front-rear direction so as to be positioned in front of the lines 4 and 5, and is elastically pressed forward by the elastic member 73, and the cutting hole 71a is formed on the rear side. and a cutting member 72 provided with a cutting blade 72a that engages and cuts the input power line 4, 5, and the cutting driving means 80 is provided on the rear side of the door 11, On the rear side, a support block 81 formed so that the slide hole 81a extends in the front-rear direction, a price pin 82 slidably coupled to the slide hole 81a, and the slide hole 81a inside It is provided with a gunpowder 83 that pushes the price pin 82 to the rear when it explodes, and an ignition means 84 that is connected to the gunpowder 83 and explodes the gunpowder 83 when an electric signal is input, and , the price pin 82 is provided so that the rear end is positioned in front of the cutting blade 72a of the cutter 70, and when an electric signal is input to the ignition means 84 by the control means 90, the By the ignition means 84 exploding the gunpowder 83 so that the price pin 82 is pushed back, the cutting blade 72a is pushed backward by the price pin 82 and the input power line (4,5) to cut the

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In the junction box for photovoltaic power generation according to the present invention, the connection unit (A) is provided with an input terminal 31 on the upper side, an output terminal 32 is provided on the lower side, and is provided in the center of the support panel (20). A circuit breaker 30, a PCB module 40 fixed to both sides of the front side of the support panel 20, a plurality of fuses 51 provided in the PCB module 40, the PCB module 40 and the It consists of a circuit breaker bus bar 52 connecting the input terminal 31 of the circuit breaker 30 and an output bus bar 53 connected to the output terminal 32 of the circuit breaker 30, and the fuse 51 It is possible to minimize the use of distribution lines connecting parts such as the circuit breaker and the circuit breaker 30 .

Therefore, it is easy to manufacture the junction box for photovoltaic power generation, and since the circuit breaker 30 and the fuse 51 can be simply replaced, maintenance is easy.

1 is a side cross-sectional view showing a conventional junction box for photovoltaic power generation;
Figure 2 is a reference diagram showing the connection relationship of the junction box for photovoltaic power generation according to the present invention;
3 is a front cross-sectional view showing a junction box for photovoltaic power generation according to the present invention;
Figure 4 is a front view showing the PCB module of the junction box for photovoltaic power generation according to the present invention;
5 is a side cross-sectional view of a junction box for photovoltaic power generation according to the present invention;
6 is a reference diagram showing the connection relationship of the second embodiment of the junction box for photovoltaic power generation according to the present invention;
7 is a side cross-sectional view showing a second embodiment of a junction box for photovoltaic power generation according to the present invention;
8 is a front cross-sectional view showing a second embodiment of a junction box for photovoltaic power generation according to the present invention;
9 is a plan sectional view showing a cutter of a second embodiment of the junction box for photovoltaic power according to the present invention;
10 is a circuit configuration diagram of a second embodiment of a junction box for photovoltaic power generation according to the present invention;
11 and 12 are side cross-sectional views showing the operation of the second embodiment of the junction box for photovoltaic power generation according to the present invention.

Hereinafter, the present invention will be described in detail based on the accompanying illustrative drawings.

2 to 5 show a junction box for photovoltaic power generation according to the present invention, a case 10 made of a metal material and provided with a door 11 on the front side, and on the inner rear side of the case 10 Consists of a fixed support panel 20 and a connection unit (A) provided on the front surface of the support panel 20, as shown in FIG. 2, a plurality of solar panel modules (1) and an inverter (3) ) is the same as before.

At this time, the case 10 is configured in the form of a square box having an opening on the front side, and the door 11 is rotatably coupled to the opening in the front and rear directions to open the front side of the case 10 when pulled forward do.

And, direct current electricity is output from the solar panel module 1, and is connected to the junction box for solar power generation through input power lines 4 and 5.

And, the junction box for photovoltaic power generation is connected to the inverter 3 through output power lines 6 and 7 .

In addition, the inverter 3 converts the DC electricity applied through the output power lines 6 and 7 into AC electricity and outputs it.

At this time, the input power line (4,5) is composed of a + input power line (4) and -input power line (5), and the output power line (6, 7) is a + output power line (6) and - It is composed of an output power line (7).

And, according to the present invention, as shown in FIGS. 3 to 5, the connection unit (A) has an input terminal 31 on the upper side and an output terminal 32 on the lower side, and the support panel 20 ), a circuit breaker 30 provided in the central portion, a PCB module 40 fixed to both sides of the front side of the support panel 20, a plurality of fuses 51 provided in the PCB module 40, and the PCB It consists of a breaker bus bar 52 connecting the module 40 and the input terminal 31 of the circuit breaker 30 , and an output bus bar 53 connected to the output terminal 32 of the circuit breaker 30 . .

The circuit breaker 30 is provided with a control lever 33 on the front so that the administrator rotates the circuit breaker 30 in the vertical direction to cut off or apply power.

As shown in FIG. 4 , the PCB module 40 includes a PCB panel 41 and an input power line 4 provided on the lower front side of the PCB panel 41 and extending from the solar panel module 1 . A plurality of power connection tabs 42 to which , 5) are respectively connected, and a plurality of lower connection tabs 43 provided on the front surface of the PCB panel 41 so as to be positioned above the power connection tab 42; A plurality of upper connection tabs 44 provided on the front surface of the PCB panel 41 to be positioned above the lower connection tab 43 and the PCB panel 41 to be positioned above the upper connection tab 44 ) is composed of a module bus bar 45 provided on the front side.

As shown in FIG. 5 , the PCB panel 41 is fixed so that the rear side thereof is spaced apart from the front surface of the support panel 20 by a support member 41d, and is connected to the power connection tab 42 and the lower part. A first connection circuit 41a connecting the tab 43 and a second connection circuit 41b connecting the upper connection tab 44 and the module bus bar 45 are formed.

Since the first and second connection circuits 41a and 41b are generally formed by a method of forming a circuit on a PCB panel, further detailed description thereof will be omitted.

The power connection tab 42 is electrically connected to the first connection circuit 41a, and a fixing screw is provided on the front side, and the input power is extended from the plurality of solar panel modules 1 using the fixing screw. The wires 4 and 5 are configured to be respectively fixed to the power connection tab 42 .

The lower connection tab 43 is electrically connected to the power connection tab 42 through the first connection circuit 41a, and a fixing screw is provided on the front side, and a conducting member (to be described later using the fixing screw) ( 51a) can be fixed.

The upper connection tab 44 is electrically connected to the second connection circuit 41b, and a fixing screw is provided on the front side so as to fix the conducting member 51a to be described later using the fixing screw. .

The module bus bar 45 is formed in a bar shape of a metal material extending laterally and is electrically connected to the upper connection tab 44 through the second connection circuit 41b.

The fuse 51 is a combination of the energizing member 51a connected to the lower connection tab 43 and the upper connection tab 44 at the upper and lower ends, and is automatically cut off when more than a specified power is applied to the inside to cut off the power. A blocking member is provided.

In this case, the PCB panel 41 is provided with a terminal block 41c extending in the lateral direction, and the fuse 51 is detachably coupled to the terminal block 41c.

The conducting member 51a is formed in a bar shape of a metal material having a low resistance, and is electrically connected to the lower connection tab 43 and the upper connection tab 44 while being coupled to the upper and lower ends of the fuse 51 . do.

Since such a fuse 51 is a general one, further detailed description thereof will be omitted.

The breaker bus bar 52 is configured to connect the module bus bar 45 provided in the PCB module 40 and the input terminal 31 of the circuit breaker 30 .

The output bus bar 53 has an upper end coupled to the output terminal 32 of the circuit breaker 30 , and output power lines 6 and 7 connected to the inverter 3 are connected to the lower end thereof.

On the other hand, in the present embodiment, the PCB module 40 on the left side is composed of a -PCB module, the PCB module 40 on the right side is composed of a +PCB module, and each of the PCB modules 40 has a power connection tab 42 ), the lower connection tab 43 and the upper connection tab 44 are provided by 12 each, and 12 fuses 51 are coupled to each other, and 12 + input power lines extending from the 12 solar panel modules 1 ( It is configured to connect 4) and -input power line (5) to +PCB module and -PCB module, respectively.

That is, the junction box for photovoltaic power generation according to the present invention is configured so that 12 photovoltaic panel modules 1 can be connected.

Reference numerals 54 and 55, which are not described, are connected to the breaker bus bar 52 to measure and display the voltage and current of the power applied to the breaker bus bar 52 and show the voltage measuring means and the current measuring means.

In the junction box for photovoltaic power generation configured as described above, the connection unit (A) is provided with an input terminal 31 on the upper side, an output terminal 32 on the lower side, and a circuit breaker provided in the center of the support panel (20). 30, a PCB module 40 fixed to both sides of the front side of the support panel 20, a plurality of fuses 51 provided in the PCB module 40, the PCB module 40, and the circuit breaker It is composed of a breaker bus bar 52 connecting the input terminal 31 of 30 and an output bus bar 53 connected to the output terminal 32 of the circuit breaker 30, and the fuse 51 and It is possible to minimize the use of distribution lines connecting parts such as the circuit breaker 30 .

Therefore, it is easy to manufacture the junction box for photovoltaic power generation, and since the circuit breaker 30 and the fuse 51 can be simply replaced, maintenance is easy.

In the case of this embodiment, it is illustrated that 12 solar panel modules 1 can be connected, but the junction box for photovoltaic power generation according to the present invention is configured to connect a various number of solar panel modules 1 can

6 to 12 show another embodiment according to the present invention, which is provided on one side of the inner side of the case 10 or the inverter 3 to cause a fire inside the junction box for a photovoltaic generator or the inverter 3 A fire detection means 61 for detecting an occurrence, and a cut-off driving means provided on the rear side of the door 11 to rotate the control lever 33 according to the operation so that the circuit breaker 30 cuts off the power ( 62), a cutter 70 provided on the front side of the support panel 20 to cut the input power line 4, 5, and a cutter 70 provided on the rear side of the door 11 The cutting drive means 80 for controlling the operation, and the control means 90 for receiving the signals from the fire detecting means 61 and the current measuring means 55 and controlling the operation of the cut off drive means 62 are further provided

At this time, the circuit breaker 30 is configured to apply power when the control lever 33 is rotated to the lower side, and to cut off the power when the control lever 33 is rotated to the upper side.

The fire detection means 61 is composed of a heat sensor for detecting heat and a smoke sensor for detecting smoke.

As shown in FIG. 7 , the blocking driving means 62 is coupled to the guide member 62a provided on the rear side of the door 11 and the guide member 62a to be lifted and lowered, and the A lifting member 62b for rotating the control lever 33 of the circuit breaker 30 in a direction in which the circuit breaker 30 cuts off power, and a lifting drive connected to the lifting member 62b to raise and lower the lifting member 62b means 62c.

The elevating member 62b has a panel shape extending in the lateral direction, and is located below the control lever 33 rotated downward when the door 11 is closed, and the elevating driving means 62c. It is configured to push up the control lever 33 upwards when it is raised by the .

The elevating driving means (62c) uses an electric cylinder that is expanded and contracted by a driving motor provided therein, and is connected to the elevating member (62b) so that when it is reduced, the elevating member (62b) is lowered. configured to push up (62b) upward.

7 to 9, the cutter 70 is provided on the lower front side of the support panel 20 so as to be located behind the input power line 4, 5, and a cutting hole passing through the front and rear surfaces. The support member 71 on which (71a) is formed, is slidably coupled to the support member 71 in the front-rear direction so as to be positioned in front of the input power line 4,5, and is slidably coupled to the front by the elastic member 73. It consists of a cutting member 72 provided with a cutting blade (72a) for cutting the input power line (4,5) by engaging the cutting hole (71a) on the rear side while elastically pressing.

The support member 71 includes a pair of support portions 71b fixed to the front surface of the support panel 20 so as to be laterally spaced apart from each other, and a panel shape extending in the lateral direction and having the cut hole 71a formed in the center portion. is composed of a horizontal portion 71c having both ends fixed to the front end of the support portion 71b, and guide rods 71d extending forward are provided on both sides of the horizontal portion 71c.

The cutting member 72 is configured in the shape of a panel extending in the lateral direction and is slidably coupled to the guide rod 71d in the front-rear direction.

The elastic member 73 is provided at the periphery of the guide rod 71d and uses a compression coil spring for pushing the cutting member 72 forward.

At this time, the input power line (4,5), in a state in which the cutting member (72) is slid forward, between the support member (71) and the cutting member (72), the input power line (4,5) The input power lines (4,5) are connected to the power connection tab (42) to pass through.

As shown in FIG. 7, the cutting driving means 80 includes a support block 81 provided on the rear side of the door 11 and having a slide hole 81a extending in the front-rear direction on the rear side thereof; The price pin 82 slidably coupled to the slide hole 81a, the gunpowder 83 provided inside the slide hole 81a to push the price pin 82 to the rear when exploded, and the gunpowder It is connected to (83) and consists of an ignition means (84) for detonating the gunpowder (83) when an electric signal is input.

The support block 81 is made of a high-strength metal material.

The price pin 82 is provided so that when the door 11 is closed, the rear end is positioned in front of the cutting blade 72a of the cutter 70 .

Therefore, as shown in FIG. 12 , when the gunpowder 83 is exploded by the ignition means 84 in the state in which the door 11 is closed, the price pin 82 is strongly pushed backward and the cutting member It collides with 72 to push the cutting member 72 backward, and thus, the cutting blade 72a is engaged with the cutting hole 71a, and passes between the support member 71 and the cutting member 72 Cut the input power line (4,5) to cut off the power supplied to the PCB module (40).

The operation of the junction box for photovoltaic power constructed in this way will be described as follows.

First, the control means 90 receives the signal from the fire detection means 61, and when it is detected that a fire has occurred inside the case 10 or in the inverter 3, as shown in FIG. 11, By operating the cut-off driving means 62 to push the control lever 33 of the circuit breaker 30 upward, the power is cut off.

At this time, the control means 90 receives the signal of the current measuring means 55 , monitors the current of the power applied through the breaker bus bar 52 , and electricity is supplied to the breaker bus bar 52 . is detected, it is determined that the power is not cut off due to the occurrence of an abnormality in the circuit breaker 30, and as shown in FIG. Cut the lines (4,5).

That is, when the control means 90 outputs an electric signal to the ignition means 84 of the cutting driving means 80 to cause the gunpowder 83 to explode, the price pin 82 is pushed back and the cutter By striking the front surface of the cutting member 72 of the 70, the cutting member 72 is pushed back, and at this time, the cutting blade 72a provided in the cutting member 72 cuts the support member 71. By engaging the ball (71a), the input power line (4,5) passing between the support member (71) and the cutting member (72) is cut.

At this time, after the cutter 70 cuts the input power line 4, 5, the cutting member 72 is pushed forward by the elastic member 73 to be spaced apart.

In the junction box for photovoltaic power generation configured in this way, when it is detected that a fire has occurred in the case 10 or the inverter 3, the cutoff driving means 62 is operated to first cut off the power, and to the circuit breaker 30 When an abnormality occurs and the power is not cut off, the cutting drive means 80 is driven to cut the input power lines 4 and 5 by the cutter 70, thereby completely shutting off the power, thereby preventing the fire from spreading There are advantages to doing.

In particular, since the blocking drive means 62 and the cutting drive means 80 are provided in the door 11, it is possible to easily secure a space for installing the blocking drive means 62 and the cutting drive means 80, while connecting There is an advantage of being able to prevent cumbersome maintenance by the blocking driving means 62 and the cutting driving means 80 when performing maintenance.

10. Case 20. Support panel
A. Connection unit 30. Breaker
40. PCB module 51. Fuse
52. Breaker bus bar 53. Output bus bar

Claims (2)

A case 10 made of a metal material and provided with a door 11 on the front side, a support panel 20 fixed to the inner rear side of the case 10, and a connection provided on the front surface of the support panel 20 It includes a unit (A) and is connected between a plurality of solar panel modules (1) and the inverter (3), and the connection unit (A) is provided with an input terminal 31 on the upper side and an output terminal on the lower side. 32 and a circuit breaker 30 provided in the central portion of the support panel 20, a pair of PCB modules 40 fixed to both front sides of the support panel 20, and the PCB module 40 ) provided in a plurality of fuses 51, a circuit breaker bus bar 52 connecting the PCB module 40 and the input terminal 31 of the circuit breaker 30, and an output terminal of the circuit breaker 30 ( 32), and the PCB module 40 is provided on a lower front side of the PCB panel 41 and the PCB panel 41 and the solar panel module (1). A plurality of power connection tabs 42 to which the input power lines 4 and 5 extending from are connected, and a plurality of lower portions provided on the front side of the PCB panel 41 so as to be located above the power connection tab 42 . A plurality of upper connection tabs 44 provided on the front surface of the PCB panel 41 so as to be positioned above the connection tab 43 and the lower connection tab 43 , and an upper side of the upper connection tab 44 . a first connection connecting the power connection tab 42 and the lower connection tab 43 to the PCB panel 41 and including a module bus bar 45 provided on the front surface of the PCB panel 41 so as to be positioned A second connection circuit 41b is formed for connecting the circuit 41a, the upper connection tab 44, and the module bus bar 45, and the fuse 51 is connected to the upper and lower ends by the conducting members 51a coupled to the upper and lower ends. It is electrically connected to the lower connection tab 43 and the upper connection tab 44 , and the breaker bus bar 52 is configured to connect the module bus bar 45 and the input terminal 31 of the circuit breaker 30 . In the connection box for photovoltaic power generation in which the output power lines 6 and 7 connected to the inverter 3 are connected to the output bus bar 53,
It is provided on the front side of the circuit breaker 30 so that the breaker 30 cuts off or applies power by rotating it up and down by the manager, facing the rear side of the door 11, and applying power when it is rotated downward A control lever 33 configured to cut off the power when it is rotated upward;
Fire detection means 61 provided inside the case 10 to detect that a fire has occurred inside the junction box for photovoltaic generator;
a current measuring means 55 connected to the middle part of the breaker bus bar 52 and measuring the electric current applied through the breaker bus bar 52;
a blocking mechanism 62 provided on the rear side of the door 11 to rotate the control lever 33 according to the operation so that the circuit breaker 30 cuts off the power;
a cutter 70 provided on the front surface of the support panel 20 to cut the input power line 4, 5;
a cutting driving means 80 provided on the rear side of the door 11 and controlling the operation of the cutter 70;
Upon receiving the signal from the fire detection means 61 and detecting that a fire has occurred inside the case 10 , the circuit breaker operates the cut-off driving means 62 to rotate the control lever 33 . It is detected that power is applied to the circuit breaker bus bar 52 even after controlling the 30 to turn on the power, and receiving the signal from the current measuring means 55 and controlling the circuit breaker 30 to cut off the power. When it is, it includes a control means (90) that drives the cutting drive means (80) to control the cutter (70) to cut the input power lines (4, 5),
The blocking driving means 62 is,
a guide member 62a provided on the rear surface of the door 11 to extend in the vertical direction;
It is coupled to the guide member 62a so as to be able to move up and down to rotate the control lever 33 in a direction to cut off power and a direction in which power is applied, and rotate to the lower side in a state in which the door 11 is normally closed. a lifting member (62b) positioned below the control lever (33);
It includes an electric cylinder that is expanded and contracted by a driving motor provided therein, and is connected to the lifting member 62b, and when it is extended, the lifting member 62b located below the control lever 33 is pushed upward. and a lift driving means (62c) for cutting off the power of the circuit breaker (30);
The cutter 70,
A support member 71 provided on the lower front side of the support panel 20 so as to be positioned at the rear of the input power line 4 and 5 and having a cutting hole 71a penetrating the front and rear surfaces thereof;
It is slidably coupled to the support member 71 in the front and rear direction so as to be located in front of the input power line 4, 5, and is elastically pressed forward by the elastic member 73, and the cutting hole ( It engages with 71a) and includes a cutting member 72 provided with a cutting blade 72a for cutting the input power line 4, 5,
The cutting drive means 80 is
A support block 81 provided on the rear side of the door 11 and formed such that a slide hole 81a extends in the front-rear direction on the rear side;
a price pin 82 slidably coupled to the slide hole 81a;
Gunpowder 83 provided inside the slide hole 81a to push the price pin 82 to the rear when it explodes,
and an ignition means 84 for detonating the gunpowder 83 when it is connected to the gunpowder 83 and an electric signal is input;
The price pin 82 is provided so that the rear end is positioned in front of the cutting blade 72a of the cutter 70, and when an electric signal is input to the ignition means 84 by the control means 90, the ignition By the means 84 exploding the gunpowder 83 so that the price pin 82 is pushed backward, the cutting blade 72a is pushed backward by the price pin 82 to cut the input power line 4,5 A junction box for photovoltaic power generation, characterized in that it is cut. delete

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