KR102471357B1 - Easy interl ocking solar junction box for easy connection of solar module's busbar - Google Patents

Abstract

The present invention is an interlocking photovoltaic junction box that is easy to connect a photovoltaic module to a bus bar, comprising: a rear case (10); a metal heat sink 20; In the junction box for a solar module composed of a front case 30; elastic members 40 mounted as terminal blocks on the left and right sides of the metal heat sink 20; A plurality of triangular pyramids 50 protruding from the rear side of the junction box; a moving tool 60 installed forward and backward in front of the triangular pyramid 50 and moving forward by the movement of the triangular pyramid 50; a first presser 70 installed in front of the moving tool 60 and vertically bending a plurality of bus bars Bb mounted on the jig while downward; It is composed of a second pressing bar 80 that is downwardly installed in front of the first pressing bar 70 and presses the elastic member 40 downward; A suction plate 91 for adsorbing the lower surface of the junction box is provided and a pressurizing device 90 for pressurizing the junction box downward is further provided so that the junction box having a plurality of connection terminals is turned over and adsorbed with the suction piece, and then a plurality of bus With a simple operation of pressing the jig equipped with a bar once, the bus bar of the solar module and the connection terminal of the junction box can be connected, and since soldering is not applied to the connection terminal of the bus bar of the solar module and the junction box, it is not possible to avoid high heat caused by soldering. It is a useful invention that has a special advantage of excellent economic feasibility by significantly reducing the time and labor cost required for connecting a plurality of bus bars of a photovoltaic module and a plurality of connection terminals of a junction box as well as deterioration of a diode mounted in a junction box by

Description

Easy interlocking solar junction box for easy connection of solar module's busbar}

The present invention relates to a device for connecting a photovoltaic module to a junction box, and more particularly, to a terminal block in a junction box that connects a plurality of bus bars of a photovoltaic module with a single operation of turning the junction box over and pressing against a plurality of bus bars of a photovoltaic module. It relates to an interlocking photovoltaic junction box that is easy to connect to a bus bar of a photovoltaic module having a structure for easy connection to a photovoltaic module.

Photovoltaic modules used in photovoltaic power generation are manufactured in the form of modules in which a number of solar cells are arranged in a package to meet required characteristics such as battery capacity.

In a photovoltaic module, solar cell cells are electrically connected to each other by a ribbon wire (bus bar), and an end portion of the bus bar is connected to a connection terminal of a junction box mounted on the rear surface of the photovoltaic module.

A junction box is a device for collecting power generated by a plurality of photovoltaic modules and providing the collected power to a power grid. Cables for connecting junction boxes located on different photovoltaic modules are coupled to the junction box, and terminals of the cables are connected to terminal blocks in the junction box to be electrically connected to the bus bar. Patent documents related to junction boxes include, for example, US 7,097,516, US 7,285,006, US 2008/0110490, and the like.

As shown in FIG. 1, a plurality of bus bar connection devices 20 constituting a terminal block are provided inside the junction box, and a diode 30 is interposed between adjacent bus bar connection devices 20 to prevent failure. It provides a function of bypassing a specific line to which the generated photovoltaic module is connected or blocking reverse current flowing into the junction box from an electrical system such as an inverter connected to the next stage of the junction box.

Terminals of the cable 40 are electrically connected to two outermost terminals of the plurality of bus bar connection devices 20.

The cable 40 is fastened to the body housing 10 to connect junction boxes located on different solar cell panels to each other, and its terminal is connected to the bus bar connection device 20 to be electrically connected to the bus bar.

In this way, as a method of connecting the bus bar to the terminal block, a method of soldering the end of the bus bar to the terminal block has been commonly used. However, the work of individually soldering a plurality of bus bars to the terminal block causes a lot of trouble, so there is a drawback in that economic feasibility is lowered due to an increase in working time and an increase in labor costs of workers.

In order to solve the above drawbacks, a predetermined elastic member 21 constituting the bus bar connecting device 20 and a conductor frame positioned below the bus bar connecting device 20 are connected by a method of connecting the end of the bus bar to the bus bar connecting device 20 of the junction box. (not shown), the method of inserting the end of the bus bar between them was mainly used. To this end, conventionally, the end of the bus bar is inserted in a state where the elastic member 21 is opened using a dedicated jig tool, and the restoring force of the elastic member 21 generated when the jig tool is removed pressurizes and fixes the bus bar to the conductor frame. method was widely used.

In addition, as a method of connecting the end of the bus bar to the terminal block of the junction box, Patent No. 1110925 "A ribbon wire fastening device for a junction box of a solar cell panel and a junction box having the same" is disclosed in the published patent publication.

Patent No. 1110925 "A device for fastening a ribbon wire for a junction box of a solar cell panel and a junction box having the same" is a solar cell having a diode 120 and a power cable 130 as shown in FIGS. 2 to 4 In the ribbon wire fastening device 110 installed inside the junction box 100 for the panel, the base surface 111a, the stopper 111b, and the rotation shaft 113 guiding the insertion of the ribbon wire 1 are inserted a support frame 111 having a pair of side walls 111c; And a first position in which the accommodation space (S) for inserting the ribbon wire (1) is formed on the base surface (111a), and the ribbon wire (1) inserted into the accommodation space (S) is pressed with an elastic force It includes an elastic member 112 fastened to the support frame 111 so as to be able to rotate between a fixed second position, and the elastic member 112 faces the base surface in the first position to accommodate the accommodation space ( A first body portion 112a forming S) and a second body portion bent with respect to the first body portion 112a and flat to make surface contact with the plane portion of the ribbon wire 1 at the second position (112b), a third body portion (112c) extending from the second body portion (112b) and surrounding a rotational axis that extends the elastic member 112 to the support frame 111, and the third body portion (112c) includes a fourth body portion (112d) extending from and providing a lever structure for rotation operation, the bending portion extending from the first body portion (112a) to the second body portion (112b) is an elastic member When (112) rotates, it is processed into a round structure (R) so as not to damage the surface of the ribbon wire (1) while facilitating contact with the ribbon wire (1). Since it is possible to connect and fix to the terminal block of the box 100, it is possible to quickly and conveniently fasten the ribbon wire within the narrow space of the junction box.

However, the above-mentioned Patent No. 1110925 "A ribbon wire fastening device for a junction box of a solar cell panel also inserts the ribbon wire 1 one by one in each receiving space S and the fourth body portion 112d of the elastic member 112. Due to the inconvenience of connecting and fixing the terminal block by pressing with a finger, it was not possible to obtain the expected effect of shortening the working time and saving the labor cost of the operator.

1: US Patent No. US 7,097,516 B2, 2: US Patent No. US 7,285,006 B2, 3: US Patent Publication No. US 2008/011049 A1 publication; 4: Patent Publication No. 1110925.

The present invention was invented to solve various drawbacks and problems caused when connecting a photovoltaic module to the conventional junction box described above, and an object of the present invention is to reverse a junction box having a plurality of elastic connection terminals and adsorb it with a suction funn. Then, with a simple operation of pressing a jig equipped with multiple busbars once, it provides an interlocking solar junction box that connects the busbar of the solar module and the busbar of the solar module that connects the elastic connection terminal of the junction box. have.

Another object of the present invention is to simply connect the bus bar of the solar module without deterioration of the diode mounted on the junction box due to high heat caused by soldering because soldering is not required to connect the bus bar of the solar module and the elastic connection terminal of the junction box. It is to provide interlocking solar junction box.

Another object of the present invention is to complete the connection of the plurality of bus bars of the photovoltaic module and the plurality of elastic connection terminals of the junction box with a simple operation of pressing the box once, so that the plurality of bus bars of the photovoltaic module and the plurality of junction boxes The purpose is to provide an interlocking solar junction box that is easy to connect to the bus bar of a solar module with excellent economic efficiency by significantly reducing the time and labor cost required for connecting the elastic connection terminal.

In order to achieve the above object, the interlocking photovoltaic junction box of the present invention, which is easy to connect to the bus bar of the photovoltaic module, has coupling holes (10a) formed on the left and right sides of the front and rear and cable insertion holes (10b, 10b') formed on the left and right sides of the front side a rear case 10 having bolts 10c and 10c' having; a metal heat dissipation plate 20 on which the bypass diode 11 is mounted and which is inserted into and fixed to the case groove 21; It consists of a front case 30 having an integrated lattice structure 12 on a surface coupled to the rear case 10, and the rear case 10 has a plurality of heat dissipation through holes 10d formed and a plurality of an inner bottom plate (10e) in which case grooves (21) are formed to mount the metal heat sink (20); Couplers (10a) formed on the front, rear, left and right sides, and; It consists of bolts 10c and 10c' having cable insertion holes 10b and 10b' formed on the left and right sides of the front side; The rear case 10 includes an integral grid structure 12 and a display unit 13 provided on the surface; Couplers (10a) formed on the front, rear, left and right sides; In the junction box for a photovoltaic module composed of projections 32 formed to protect the cable fixing nuts 31 inserted into the cable insertion holes 10b and 10b'; elastic members 40 mounted as terminal blocks on the left and right sides of the metal heat sink 20; A plurality of triangular pyramids 50 protruding from the rear side of the junction box; a moving tool 60 installed forward and backward in front of the triangular pyramid 50 and moving forward by the movement of the triangular pyramid 50; a first presser 70 installed in front of the moving tool 60 and vertically bending a plurality of bus bars Bb mounted on the jig while downward; It is characterized in that it is composed of a second pressing bar 80 installed downwardly in front of the first pressing bar 70 to press the elastic member 40 downward.

The present invention connects the bus bar of a photovoltaic module and the elastic connection terminal of a junction box by a simple operation of pressing a jig equipped with a plurality of bus bars once after inverting a wire box containing a plurality of elastic connection terminals and adsorbing it with an adsorption piece. Since the bus bar of the photovoltaic module and the elastic body connection terminal of the junction box are not soldered to the connection, there is no deterioration of the diode mounted in the junction box due to the high heat caused by soldering, and a number of bus bars and junction boxes of the photovoltaic module It has a special advantage of excellent economic feasibility by significantly reducing the time and labor cost required for connecting a large number of elastic connection terminals.

1 is a perspective view showing the internal configuration of a junction box for a solar cell panel according to the prior art;
2 is a perspective view showing the internal configuration of a junction box for a solar cell panel according to a conventional preferred embodiment;
Figure 3 is an exploded perspective view showing the configuration of the ribbon wire fastening device in Figure 2;
Figure 4 is a side view showing the configuration of the elastic member in Figure 2;
5 is a cross-sectional view showing the operation of a ribbon wire fastening device according to a conventional preferred embodiment;
6 is a perspective view of an interlocking solar junction box that is easy to connect to a bus bar of a solar module according to the present invention;
7 is a view showing a metal heat sink and a diode built into a typical solar junction box;
8 is a rear view of a rear case of an interlocking solar junction box according to the present invention;
9 is a view for explaining the busbar connection operation of the interlocking solar junction box in which the busbar connection of the solar module of the present invention is easy;
10 is a view showing how a solar junction box adsorbed on a suction plate descends in order to connect an elastic member mounted on the junction box to a bus bar attached to a jig according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the interlocking photovoltaic junction box in which the busbar connection of the photovoltaic module according to the present invention is easy will be described in detail.

6 is a perspective view of an interlocking solar junction box that is easy to connect to a bus bar of a solar module according to the present invention, FIG. 8 is a rear view of a rear case of an interlocking solar junction box according to the present invention, and FIG. 9 is a solar light according to the present invention Figure 10 is a drawing for explaining the bus bar connection operation of the interlocking solar junction box in which the bus bar connection of the module is easy. As a drawing showing how the adsorbed photovoltaic junction box descends, the interlocking photovoltaic junction box, which is easy to connect to the bus bar of the photovoltaic module of the present invention, has couplers 10a formed on the front, rear, left and right sides and front side formed on the left and right sides. a rear case 10 having bolts 10c and 10c' having cable insertion holes 10b and 10b'; a metal heat dissipation plate 20 on which the bypass diode 11 is mounted and which is inserted into and fixed to the case groove 21; It consists of a front case 30 having an integrated lattice structure 12 on a surface coupled to the rear case 10, and the rear case 10 has a plurality of heat dissipation through holes 10d formed and a plurality of an inner bottom plate (10e) in which case grooves (21) are formed to mount the metal heat sink (20); Couplers (10a) formed on the front, rear, left and right sides, and; It consists of bolts 10c and 10c' having cable insertion holes 10b and 10b' formed on the left and right sides of the front side; The rear case 10 includes an integral grid structure 12 and a display unit 13 provided on the surface; Couplers (10a) formed on the front, rear, left and right sides; In the junction box for a photovoltaic module composed of projections 32 formed to protect the cable fixing nuts 31 inserted into the cable insertion holes 10b and 10b'; elastic members 40 mounted as terminal blocks on the left and right sides of the metal heat sink 20; A plurality of triangular pyramids 50 protruding from the rear side of the junction box; a moving tool 60 installed forward and backward in front of the triangular pyramid 50 and moving forward by the movement of the triangular pyramid 50; a first presser 70 installed in front of the moving tool 60 and vertically bending a plurality of bus bars Bb mounted on the jig while downward; It is composed of a second pressing bar 80 installed downwardly in front of the first pressing bar 70 to press the elastic member 40 downward.

The metal heat sink 20 has left and right support frames 22 and 22' and a bottom surface 23 in a "c" shape, and a stopper protruding from the bottom surface 23 to limit the entry of the cable (24) and; Between the side walls 25 and 25' of the central portion, a pivoting shaft is installed so that the elastic member 40 is caught.

In order to connect the bus bar (Bb) and the elastic member 40, a pressing device 90 for pressing the junction box downward by including a suction plate 91 for adsorbing the lower surface of the junction box is further provided.

It is characterized in that the bus bar (Bb) and the elastic member (40) maintain a connected state by the elastic force of the elastic member (40).

Next, the operation of the interlocking photovoltaic junction box that is easily connected to the bus bar of the photovoltaic module of the present invention configured as described above will be described in detail.

First, as shown in FIG. 10, a metal heat sink 20 having an elastic member 40 corresponding to the number of bus bars Bb mounted on a jig and a junction box equipped with a diode 11 are turned over and a suction plate 91, and when the pressurizing device 90 is operated in the starting state of the junction box shown in FIG. 10, the suction plate 91 moves downward and the junction box moves downward.

Accordingly, the metal heat sink 20 moves downward so that the end of the bus bar Bb mounted on the jig rises above the left end of the metal heat sink 20 (see FIG. 9 (a)).

In this state, when the junction box moves further downward, the triangular pyramid 50 also moves downward while pushing the moving tool 60 in the direction of the arrow (right direction in FIG. The elastic member 40 is pushed downward (see FIG. 9 (c)).

Thus, the moving tool 60 is pushed in the direction of the arrow (right direction in the drawing) to bend the end of the bus bar (Bb), and the first presser 70 presses the end of the bus bar (Bb) to move the bus bar (Bb). Bend the end of [FIG. 9 (c)], and the second pressing bar 80 presses the elastic member 40 downward to closely connect the elastic member 40 to the end of the bus bar Bb [Fig. 9(d)].

Here, the connected state between the end of the bus bar Bb and the elastic member 40 is maintained by the elastic force of the elastic member 40 .

In this state, the suction plate 91 is separated from the lower surface of the junction box, and the pressing device 90 enters a preparation state for connecting the elastic member 40 to the end of the bus bar Bb of another junction box.

Although the present invention has been described as a preferred embodiment so far, the present invention is not limited thereto and can be practiced with various changes without departing from the gist of the invention.

10: rear case 10a: coupler
10b, 10b': cable insertion hole 10c, 10c': bolt
10d: heat dissipation through hole 10e: inner bottom plate
11: bypass diode 12: lattice structure
13: display unit 20: metal heat sink
21: case groove 22: left support frame
22 ': right support frame 23: bottom
24: stopper 25, 25 ': both side walls
30: front case 31: nut
32: protrusion 40: elastic member
50: triangular pyramid 60: moving ball
70: 1st press bar 80: 2nd press bar
90: pressurization device 91: suction plate
Bb: bus bar

Claims (4)

delete delete A rear case 10 having bolts 10c and 10c' having coupling holes 10a formed on the left and right sides and cable insertion holes 10b and 10b' formed on the left and right sides of the front side; a metal heat dissipation plate 20 on which the bypass diode 11 is mounted and which is inserted into and fixed to the case groove 21; It consists of a front case 30 having an integrated lattice structure 12 on a surface coupled to the rear case 10, and the rear case 10 has a plurality of heat dissipation through holes 10d formed and a plurality of an inner bottom plate (10e) in which case grooves (21) are formed to mount the metal heat sink (20); Couplers (10a) formed on the front, rear, left and right sides, and; It consists of bolts 10c and 10c' having cable insertion holes 10b and 10b' formed on the left and right sides of the front side; The rear case 10 includes an integral grid structure 12 and a display unit 13 provided on the surface; Couplers (10a) formed on the front, rear, left and right sides; It consists of a protrusion 32 formed to protect the cable fixing nut 31 inserted into the cable insertion holes 10b and 10b';
elastic members 40 mounted as terminal blocks on the left and right sides of the metal heat sink 20; A plurality of triangular pyramids 50 protruding from the rear side of the junction box; a moving tool 60 installed forward and backward in front of the triangular pyramid 50 and moving forward by the movement of the triangular pyramid 50; a first presser 70 installed in front of the moving tool 60 and vertically bending a plurality of bus bars Bb mounted on the jig while downward; It is composed of a second presser 80 installed downward in front of the first presser 70 and pressurizing the elastic member 40 downward.
The metal heat sink 20 has left and right support frames 22 and 22' and a bottom surface 23 in a "c" shape, and a stopper protruding from the bottom surface 23 to limit the entry of the cable (24) and; In the interlocking photovoltaic junction box, which is easy to connect to the bus bar of the photovoltaic module composed of a pivot shaft installed so that the elastic member 40 is caught between the side walls 25 and 25' of the central portion;
In order to connect the bus bar (Bb) and the elastic member (40), a suction plate (91) for adsorbing the lower surface of the junction box is provided and a pressing device (90) for downwardly pressing the junction box is further provided. Interlocking solar junction box that is easy to connect to the bus bar of the solar module. delete

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