KR101240964B1 - Junction box for solar battery module - Google Patents

Abstract

PURPOSE: A junction box for a solar module is provided to effectively prevent a foreign substance from permeating into the junction box by installing a foreign substance permeation preventing part between the solar module and the junction box. CONSTITUTION: A junction box(110) is mounted on one side of a solar module which condenses sunlight. A foreign substance permeation preventing part is interposed between the solar module and the junction box. The foreign substance permeation preventing part comprises a silicon ring(130) and a taping member(140). The silicon ring is arranged in a shape of a closed loop in a contacting side of the junction box which is contacted on the solar module. The taping member is arranged inside the silicon ring.

Description

Junction box for solar modules {Junction box for solar battery module}

The present invention relates to a junction box for a photovoltaic module, and more particularly, to a junction box for a photovoltaic module that can effectively prevent foreign matter from penetrating into the junction box electrically connected to the photovoltaic module. .

Due to the depletion of chemical energy such as coal and petroleum and environmental pollution due to the use of chemical energy, efforts are being made to develop alternative energy. One of them is photovoltaic power generation using solar energy.

Photovoltaic power generation is a series of technologies that convert solar energy (solar heat or sunlight) into electrical energy.

Briefly, the basic principle is that when solar light is irradiated to a solar cell composed of a pn junction semiconductor, electron and hole pairs are generated by light energy, and electrons and holes move across the n and p layers. The electromotive force is generated by the photovoltaic effect through which the current flows, and the result of the current flowing to the externally connected load is used.

As described above, in order to convert the solar energy in the indefinite and pollution-free into electric energy, the development of a technology for a solar battery module for condensing sunlight is required.

Although not exactly the same, it is known that a single solar module goes through a number of devices or systems, just like an LCD process or a semiconductor process.

Different manufacturers may have different methods, but once the solar module is finally manufactured, a junction box is mounted on the solar module. The junction box acts as a kind of electrical connector.

On the other hand, in the case of a place requiring less power, such as a street light, a single solar module is used, but usually a plurality of solar modules are arranged and connected in series.

In this case, the (+) terminal of the junction box of the first photovoltaic module should be connected to the (-) terminal of the junction box of the neighboring second photovoltaic module with a solar cable, and the junction box of the second photovoltaic module The negative terminal should be connected to the positive terminal of the junction box of the neighboring third solar module with the solar cable.

On the other hand, in installing the junction box in the solar module, external foreign matter, moisture, dust, insects, etc. (hereinafter referred to as a foreign substance) should not penetrate into the junction box. If such foreign matter penetrates into the junction box, the junction box may be damaged, and as a result, the function of the solar module may be lost.

Therefore, a means for preventing foreign matter from penetrating the inside of the junction box is required. In the case of a junction box known to date, such a means is not provided, and thus a complementary structural improvement is required.

Korean Patent Office Application No. 20-1996-0042510 Korean Patent Office Application No. 10-2009-0054277

An object of the present invention is to provide a junction box for a photovoltaic module that can effectively prevent foreign matter from penetrating into the junction box electrically connected to the photovoltaic module.

The object is a junction box detachably coupled to one side of a solar battery module (solar battery module) for collecting sunlight,
Is interposed between the solar module and the junction box to prevent foreign matter from outside the solar module to penetrate the interior of the junction box includes a foreign matter penetration blocking unit coupled to the junction box,
The foreign matter penetration preventing part is provided with two closed loop-shaped silicon rings provided on the contact part of the junction box which is in contact with the photovoltaic module, and is provided on the contact part of the junction box which is in contact with the photovoltaic module, Including a taping member to be applied,
Two ring insertion grooves are formed on the surface of the junction box, respectively, in which the two silicon rings are partially inserted, and the sizes thereof are different from each other, and the inlet diameters of the two ring insertion grooves are the two silicon rings. Less than the maximum diameter of the rings,
The junction box is achieved by a junction box for a solar module, characterized in that the seat groove is further formed is located.

According to the present invention, there is an effect that can effectively prevent the foreign matter penetrates into the junction box electrically connected to the solar module.

1 is a front structural diagram of a solar module to which the junction box according to the first embodiment of the present invention is assembled.
2 is a rear structural view of FIG.
3 is a cross-sectional structural view taken along line AA of FIG. 2.
4 is a plan view of the junction box.
5 is a perspective view of FIG. 4.
6 is a cross-sectional structural view taken along line BB of FIG. 5.
Figure 7 is a schematic cross-sectional structural view of a junction box for a photovoltaic module according to a second embodiment of the present invention.
8 is a schematic cross-sectional structural view of a junction box for a photovoltaic module according to a third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a front structural view of a solar module to which a junction box according to a first embodiment of the present invention is assembled, FIG. 2 is a rear structural view of FIG. 1, and FIG. 3 is a cross-sectional structural view taken along line AA of FIG. 2. 4 is a plan view of the junction box, FIG. 5 is a perspective view of FIG. 4, and FIG. 6 is a cross-sectional view of the junction line BB of FIG. 5.

Referring to the solar module 100 with reference to FIGS. 1 to 2, the solar module 100 has a structure in which a plurality of cells 102 are arranged in the outer frame 101 in a lateral or width direction. Have

The plurality of cells 102 are vertically connected to one another by longitudinal ribbons 103, and the longitudinal ribbons 103 are electrically connected to each other by upper and lower transverse ribbons 104. Is connected.

In this manner, that is, as the plurality of cells 102 are connected to the longitudinal ribbons 103 and the transverse ribbons 104, the plurality of cells 102 take the sunlight while the whole is energized. It can condense.

Looking at the internal structure of the solar module 100 with reference to Figure 3 as follows.

The photovoltaic module 100 includes an EVA sheet 106 for waterproofing the upper surface of the glass substrate 105, a plurality of cells 102 electrically connected by the longitudinal ribbon 103, and another EVA. The sheet 107 and the back sheet 108 are arranged in turn and then assembled, and then laminated to form a body.

Of course, the internal structure of the photovoltaic module 100 enlarged in FIG. 3 is optional, and the scope of the present invention is not limited to the structure of the drawings.

A junction box 110 is mounted on one side of the solar module 100 thus made. Junction box 110 serves as a kind of electrical connector to output the concentrated electrical energy in one place.

On the other hand, the junction box (not shown) according to the prior art had a structure that is simply coupled to the solar module 100. Therefore, foreign matters, moisture, dust, insects, etc. (hereinafter referred to as "foreign materials") are highly likely to penetrate into the conventional junction box provided with a plurality of terminals, and as a result, the junction box may be damaged, resulting in sunlight. There was a problem that the function of the module is lost.

However, in the present embodiment, this problem is solved by a simple structure that is not very complicated. In other words, the junction box 110 applied to the present embodiment is provided with a foreign matter penetration preventing part 120.

In other words, the foreign matter penetration blocking unit 120 is interposed between the photovoltaic module 100 and the junction box 110 to prevent foreign substances from penetrating into the junction box 110.

In some cases, it may be considered that the foreign matter penetration blocking unit 120 is provided in the solar module 100, but considering the convenience of the structure or the convenience of manufacturing, the foreign matter penetration blocking unit 120 may include a junction box (as illustrated). It is preferable to be provided in 110). However, the scope of the present invention need not be limited thereto.

In the present embodiment, the foreign matter penetration preventing part 120 includes a silicon ring 130 and a taping member 140, as shown in FIGS. 4 to 6. In the present embodiment, a row of silicone rings 130 and a row of taping members 140 are also disclosed.

The silicon ring 130 is provided in a closed loop shape at a contact portion of the junction box 110 that is in contact with the solar module 100. Silicon ring 130 is a ring (ring) in a circular shape made of a silicon material having elasticity, when the junction box 110 is bonded to the solar module 100 in contact with the inside of the junction box 110. Primary defense against infiltration of foreign objects.

In order to assemble the silicon ring 130 to the junction box 110, the junction box 110 is provided with a ring insertion groove 131 into which the silicon ring 130 is partially inserted.

The ring insertion groove 131 is a groove shape for inserting the silicon ring 130 and is formed on one side of the junction box 110 by the size of the silicon ring 130. 6, the inlet diameter D1 of the ring insertion groove 131 is smaller than the maximum diameter D2 of the silicon ring 130.

As the inlet diameter D1 of the ring insertion groove 131 is provided to be smaller than the maximum diameter D2 of the silicon ring 130, the silicon ring 130 partially inserted into the ring insertion groove 131 is arbitrarily selected. It does not go away.

The taping member 140 is provided inside the silicon ring 130. Of course, there is no problem even if the taping member 140 is provided outside the silicon ring 130. The taping member 140 may be applied as a double-sided tape.

By this structure, the silicone ring 130 is partially inserted into the ring insertion groove 131, and then the taping member 140 is attached to one surface of the junction box 110, and the junction box 110 is then described. When the surface is coupled to the optical module 100, the silicone ring 130 is partially elastically deformed by the adhesive force of the taping member 140, thereby maintaining the airtightness between the junction box 110 and the solar module 100. .

Therefore, the external foreign matter can be prevented from penetrating the inner primary by the silicon ring 130, and also the inner penetrating secondary by the taping member 140.

According to the present embodiment having such a structure and action, it is possible to effectively prevent foreign matter from penetrating into the junction box 110 electrically connected to the solar module 100.

7 is a schematic cross-sectional structural view of a junction box for a photovoltaic module according to a second embodiment of the present invention.

The junction box 210 of the present embodiment is not different from the above-described first embodiment in that the foreign matter penetration blocking unit 220 including the silicon ring 230 and the taping member 240 is provided.

However, in the present embodiment, similar to the silicon ring 230 is inserted into the ring insertion groove 231, the taping member 240 also the junction box 210 is also disposed in a separate seat groove 241.

Of course, the depth of the seat groove 241 should be lower than the thickness of the taping member 240, so that the taping member 240 will be able to adhere the junction box 210 to the solar module 100 (see FIG. 1). .

Even if such a structure is applied, foreign matters can effectively be prevented from penetrating into the junction box 210 electrically connected to the solar module 100.

8 is a schematic cross-sectional structural view of a junction box for a photovoltaic module according to a third embodiment of the present invention.

Even in the present embodiment, the junction box 310 is not different from the above-described embodiments in that the foreign matter penetration blocking part 320 including the silicon rings 330a and 330b and the taping member 340 is provided.

However, in the present embodiment, two silicon rings 330a and 330b are applied. In this case, two ring insertion grooves 331a and 331b may also be provided. In this case, the two silicon rings 330a and 330b may have the same size or may be different as illustrated. In the latter case, since the degree of pressing of the two silicon rings 330a and 330b is different, the foreign matter blocking effect may be higher.

The taping member 340 is also disposed in the junction box 310 also in a separate seat groove 341.

Even if such a structure is applied, foreign matters can be effectively prevented from penetrating into the junction box 310 electrically connected to the solar module 100.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

100: solar module 101: the outer frame
102 cell 103 longitudinal ribbon
104: transverse ribbon 110: junction box
120: foreign matter penetration blocking portion 130: silicon ring
131: groove for inserting the ring 140: taping member

Claims (8)

A junction box detachably coupled to one side of a solar battery module that collects sunlight,
Is interposed between the solar module and the junction box to prevent foreign matter from outside the solar module to penetrate the interior of the junction box includes a foreign matter penetration blocking unit coupled to the junction box,
The foreign matter permeation blocking part is provided with two closed loop-shaped silicon rings provided on the contact part of the junction box that is in contact with the photovoltaic module, and is provided on the contact part of the junction box that is in contact with the photovoltaic module and is formed of a double-sided tape. Including a taping member to be applied,
Two ring insertion grooves are formed on the surface of the junction box, respectively, in which the two silicon rings are partially inserted, and the sizes thereof are different from each other, and the inlet diameters of the two ring insertion grooves are the two silicon rings. Less than the maximum diameter of the rings,
Junction box for a solar module, characterized in that the junction box is further formed with a seat groove in which the taping member is located. delete delete delete delete delete delete delete

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