KR102077473B1 - junction box for solar power - Google Patents

Abstract

The present invention relates to a junction box for solar power generation. More specifically, the present invention relates to a junction box for solar power generation in which by disposing fuses, busbars, surge protection modules, integrated circuit breakers, and the like disposed in the solar junction box, when cables are connected, wiring can be easily and efficiently performed to be easy for organization so as to prevent tangles between the cables, thereby allowing a manager to be easy for management. Moreover, the junction box for solar power generation is formed in a closed type to allow heat generated in the junction box for solar power generation to be circulated to the outside without using a cooling device such as an exhaust fan so as to solve a heat generation problem.

Description

Junction box for solar power

The present invention relates to a junction box for photovoltaic power generation, and more specifically, to arrange a fuse, busbar, surge protection module, integrated circuit breaker, etc. disposed in the solar junction box can be easily and efficiently wired when connecting the cable It is easy to manage and thus prevents tangling between cables, which makes it easy for the administrator to manage. It is designed to be sealed, but it does not use a cooling device such as an exhaust fan. The present invention relates to a solar power connection box that can solve the heat problem by circulating to the outside.

In general, photovoltaic power generation system is a technology that is actively researched and developed in developed countries as a countermeasure of global environmental problems and diversification of future energy sources due to the pollution-free and indefiniteness of solar energy.

The photovoltaic power generation system includes a solar panel module that generates power from sunlight, an inverter that converts DC power into AC power, and a junction box that supplies DC power generated from the solar panel module to the inverter.

In this case, the junction box configures an electrical circuit to connect a plurality of solar panel modules in parallel to generate a lot of power.

The junction box, that is, the solar connection panel, is a device that collects direct current generated from a plurality of solar cell modules included in a solar power generation system and outputs the same to an inverter included in the solar power generation system.

Such solar power junction box is equipped with various modules such as fuses, busbars, and breakers inside, and the solar panel module side cable is inserted into the fuse, and the fuse and each module are also wired as a result. This is connected to the cable side connected to the inverter.

If such a configuration is configured inside the junction box and the cables are wired, entanglement between the cables may occur, causing cables to be damaged due to friction between the cables, which may cause short circuits, etc. In the case of the junction box, when wiring the wired cable, it is difficult to easily recognize which modules are connected to each cable, the wiring work time efficiency is reduced, there is a problem that is difficult to manage later.

Accordingly, by simplifying the arrangement of each module inside the solar power junction box, the cable wiring can be simplified, the wiring work efficiency can be improved, and the efficient solar power junction box can be prevented from being entangled between the wirings. The situation is demanding a description of the structure.

Korea Patent Publication No. 10-1813578 (2017.12.22.)

The present invention has been made to solve the above-described problem,

The purpose of the present invention is to provide a photovoltaic junction box that can efficiently arrange modules in a photovoltaic junction box according to the relationship between the components, thereby improving the assembly time and improving work efficiency.

In addition, an object of the present invention is to provide a solar power junction box that can improve cable wiring work efficiency, including a structure capable of guiding cable wiring when performing cable wiring in a solar power junction box.

In addition, an object of the present invention is to provide a solar power junction box that can minimize the interference between the cables in the solar power junction box.

In addition, an object of the present invention is to provide a solar power junction that can facilitate air circulation to the outside in order to solve the heat generated in the solar power junction box.

In order to solve the above-mentioned problem, the present invention photovoltaic junction box,

As housing 110 of the junction box for photovoltaic power generation, the housing 100 is formed a space therein,

Reinforcing member 200 is bound to the inner surface of the housing 100 to reinforce the strength of the housing 100,

A main plate 300 coupled to one surface of the housing 100 to be detachable;

At least one fuse 400 positioned on the left and right sides of the main plate 300 and connected to the photovoltaic panel side to receive a current;

Located in the central side of one side of the main plate 300, in parallel with the fuse 400 located on the left side and the fuse 400 located on the right side of the main plate 300 in a pair so as to receive a current Main busbar 500 is configured,

Located between the main busbar 500 and the fuse 400 located on the left side of the main plate 300, the fuse includes one or more through holes 601 through which the cable can pass, and the fuse Hall sensor module 600 that can detect and measure the current of each cable when the cable connecting the 400 and the main busbar 500 is connected through the through hole 601,

A DC-DC converter positioned at the lower side of the fuse 400 located on the left side of the main plate 300 to supply power to the hall sensor module 600 using power generated from a solar panel or external power ( 700),

A surge protection module 800 positioned below the DC-DC converter 700 and connected to the main bus bar 500 by a cable to prevent surge from being applied;

Located on the lower side of the surge protection module 800, the protective ground bus bar for connecting with the surge protection module 800 and the external ground in order to prevent the high voltage is applied to the main bus bar 500 ( 900),

Located in the lower side of the main busbar 500, is directly connected to the main busbar 500, receives a current from the main busbar 500, and supplies the supplied current to the inverter through a cable, Breaker 1000 that can open or block it,

Located on the inner lower side of the housing 100, and serves as a guide and a passage so that the solar panel side cable can be introduced into the housing 100, and can fix the solar panel side cable Cable entry plate (1100),

Located on the left and right sides of the main plate 300, but located below the fuse 400 of the lower side of the surge protection module 800 and the right side of the main plate 300, the cable entry plate 1100 Guides the cable drawn through the solar panel side extending through the fuse 400 side, and separates the main plate 300 and the solar panel side cable to prevent contact with the module other than the fuse 400. First guide member 1200 to be,

Located on the left and right sides of the main plate 300, guide the solar panel side cable extending toward the fuse 400 in the direction of the fuse 400 according to the guide result of the first guide member 1200, A second guide member 1300 which may be fixed to prevent the solar panel side cable from being in contact with another module;

Located on the inner lower side of the housing 100 but located in the lower direction of the breaker 1000, the cable connecting the breaker 1000 and the inverter serves as a passage that can be introduced into the housing 100. However, it includes a cable gland (1400) to prevent foreign substances such as water is introduced into the housing 100 through the cable,

Located on the left side, the right side, and the lower side of the housing 100, respectively, through-coupled to the housing 100 to circulate the inside of the housing 100 and the outside air to reduce heat generated in the housing 100. It further comprises one or more vent plugs 1500,

Further comprising a flat cable 1600 for electrically connecting the fuse 400 located on the right side of the main plate 300 and the main busbar 500 located on the center side,

The housing 100,

At least one of the outer surface of the housing 100 is located on the rear surface, when one side and the housing of the facility to prevent the contact area of the housing 100 and the outside air is reduced when the solar power junction box is installed in the facility Spacer (103) further comprises a spacer 103 for maintaining a contact area between the housing 100 and the outside air spaced apart,

The Hall sensor module 600,

When the number of channels of the fuse 400 installed in the main plate 300 increases, it is possible to solve the problem by forming a plurality of stages at the same position according to the channel of the fuse 400.

Photovoltaic junction box of the present invention according to the above-described configuration,

The module in the photovoltaic junction box can be efficiently arranged according to the relationship between the components to provide an effect of reducing the time for assembly work and improving work efficiency.

In addition, it is possible to improve the efficiency of cable wiring, including a structure for guiding the cable wiring when the cable wiring in the solar power junction box is provided.

In addition, there is provided an effect that can minimize the interference between the cables in the solar power junction box.

In addition, there is provided an effect that can facilitate the air circulation with the outside to solve the heat generated in the photovoltaic junction box.

1 is a view showing the overall configuration of the junction box for photovoltaic power generation according to an embodiment of the present invention.
2 is a view showing the overall configuration of the junction box for photovoltaic power generation according to an embodiment of the present invention.
3 is a view showing a portion of the upper side of the junction box for photovoltaic power generation according to an embodiment of the present invention.
4 is a rear side perspective view of the junction box for photovoltaic power generation according to the embodiment of the present invention.
5 is an exploded perspective view of the junction box for photovoltaic power generation according to the embodiment of the present invention.
FIG. 6 is a view illustrating a vent plug of a solar power junction box according to an embodiment of the present invention.
7 is a view showing the main plate area of the junction box for photovoltaic power generation according to an embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the inventive concept disclosed herein are provided only for the purpose of describing the embodiments according to the inventive concept. It may be implemented in various forms and is not limited to the embodiments described herein.

Embodiments according to the inventive concept may be variously modified and have various forms, so embodiments are illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to specific embodiments, and includes modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

Terms such as first or second may be used to describe various components, but the components should not be limited by the terms. The terms are only for the purpose of distinguishing one component from another component, for example, without departing from the scope of the rights according to the inventive concept, the first component may be called a second component, Similarly, the second component may also be referred to as the first component.

When a component is said to be “connected” or “connected” to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may exist in the middle. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that no other component exists in the middle. Expressions describing relationships between components, such as "between" and "immediately between," or "neighboring to," and "direct neighboring to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, terms such as “include” or “have” are intended to designate that the stated feature, number, step, operation, component, part, or combination thereof exists, but one or more other features, numbers, steps It is to be understood that the present invention does not exclude, in advance, the possibility of the addition or the presence of any operation, components, parts or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined herein. Do not.

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

Referring to Figures 1 to 7, as shown in Figures 1 to 7 of the present invention photovoltaic junction box,

As housing 110 of the junction box for photovoltaic power generation, the housing 100 is formed a space therein,

Reinforcing member 200 is bound to the inner surface of the housing 100 to reinforce the strength of the housing 100,

A main plate 300 coupled to one surface of the housing 100 to be detachable;

At least one fuse 400 positioned on the left and right sides of the main plate 300 and connected to the photovoltaic panel side to receive a current;

Located in the central side of one side of the main plate 300, in parallel with the fuse 400 located on the left side and the fuse 400 located on the right side of the main plate 300 in a pair so as to receive a current Main busbar 500 is configured,

Located between the main busbar 500 and the fuse 400 located on the left side of the main plate 300, the fuse includes one or more through holes 601 through which the cable can pass, and the fuse Hall sensor module 600 that can detect and measure the current of each cable when the cable connecting the 400 and the main busbar 500 is connected through the through hole 601,

A DC-DC converter positioned at the lower side of the fuse 400 located on the left side of the main plate 300 to supply power to the hall sensor module 600 using power generated from a solar panel or external power ( 700),

A surge protection module 800 positioned below the DC-DC converter 700 and connected to the main bus bar 500 by a cable to prevent surge from being applied;

Located on the lower side of the surge protection module 800, the protective ground bus bar for connecting with the surge protection module 800 and the external ground in order to prevent the high voltage is applied to the main bus bar 500 ( 900),

Located below the main busbar 500, it is directly connected to the main busbar 500, receives a current from the main busbar 500, and the supplied current as an inverter through a cable, but Breaker 1000 which can be opened or closed,

Located on the inner lower side of the housing 100, and serves as a guide and a passage so that the solar panel side cable can be introduced into the housing 100, and can fix the solar panel side cable Cable entry plate (1100),

Located on the left and right sides of the main plate 300, but located below the fuse 400 of the lower side of the surge protection module 800 and the right side of the main plate 300, the cable entry plate 1100 Guides the cable drawn through the solar panel side extending through the fuse 400 side, and separates the main plate 300 and the solar panel side cable to prevent contact with the module other than the fuse 400. First guide member 1200 to be,

Located on the left and right sides of the main plate 300, guide the solar panel side cable extending toward the fuse 400 in the direction of the fuse 400 according to the guide result of the first guide member 1200, A second guide member 1300 which may be fixed to prevent the solar panel side cable from being in contact with another module;

Located on the inner lower side of the housing 100 but located in the lower direction of the breaker 1000, the cable connecting the breaker 1000 and the inverter serves as a passage that can be introduced into the housing 100. However, it includes any one or more of the cable gland (1400) to prevent the introduction of foreign matter, such as water into the housing 100 through the cable.

The housing 100 is an enclosure 110 of a solar power junction box and forms a space therein.

The housing 100 forms a space therein, and includes module configurations including the main plate 300, the fuse 400, the breaker 1000, the main busbar 500, and the hall sensor. It can be provided in, to be able to protect the module components from external impact or foreign matter.

The housing 100 has a space formed therein, the enclosure 110 which may include one or more modules therein,

It is characterized in that it comprises a cover 120 which is hinged to one end of the enclosure 110 to serve as a cover of the enclosure 110 to prevent foreign matter from entering into the enclosure 110.

The housing 100 further includes an air contact groove 102 which forms a groove on the outer surface to widen the contact surface between the housing 100 and the outside air to reduce heat generated inside the solar power junction box. It features.

The air contact groove 102 as described above to reduce the heat generated inside the housing 100, that is, the heat is circulated to the outside by widening the contact area between the housing 100 and the outside air to cool the heat. This is to be formed on the outer surface of the enclosure 110 of the housing 100.

In the enclosure 110 of the housing 100 are respectively located on the upper side and the lower side of the surface in contact with the cover 120, the inner sealing force of the housing 100 when the cover 120 covers the enclosure 110 To further improve, and further comprising a secondary sealing bar 111 to prevent foreign matter, including water into the enclosure 110 is penetrated.

Accordingly, the housing 100 improves the sealing force of the housing 100 by the above-described configuration to prevent foreign substances including water from penetrating into the housing 100 and to contact the contact surface with the outside air of the housing 100. Widening is provided to reduce the heat generated inside the housing 100.

The housing 100 is located at least one of the rear surface of the outer surface of the housing 100, when the solar power junction box is installed in the facility to prevent the area of the housing 100 and the outside air contact is reduced In order to space one side of the facility and the housing 100 is characterized in that it further comprises a spacer 103 for maintaining the contact area between the housing 100 and the outside air.

The housing 100 is located on the left side and the right side of the inner surface of the housing 100, but is located on the upper side, the lower side, and the middle side of the inner surface, and the main plate 300 is disposed on the inner surface of the housing 100. It further comprises a position fixing guide member 104 for guiding the position of the main plate 300 when it is located and coupled, to prevent the main plate 300 from shaking by fixing the main plate 300 to be caught. It features.

The position fixing guide member 104 guides the position where the main plate 300 is coupled to the inner surface of the housing 100, and prevents the main plate 300 from being separated from the position where the main plate 300 is coupled. To be fixed.

The reinforcing member 200 is bound to the inner surface of the housing 100 to reinforce the strength of the housing 100.

That is, the reinforcing member 200 serves to improve the strength of the housing 100 to prevent damage or deformation of the housing 100 when an impact is applied from the outside.

In addition, the housing 100 further includes an air contact groove 102, so that a portion of the housing 100 is cut so that the strength of the housing 100 is lowered. 100) It binds to the inner surface to compensate for the decrease in strength.

The main plate 300 is to be coupled to be detachable to one surface inside the housing 100.

The main plate 300 is formed on the left side and the right side of the main plate 300, and is formed on the upper side, the lower side and the center side of the main plate 300, and the position fixing guide member 104 of the housing 100. And a locking groove 301 which is formed in contact with the position fixing guide member 104 to prevent the main plate 300 from being separated from the position coupled to the inner surface of the housing 100. Characterized in that.

Fuse 400 is located on the left and right of one surface of the main plate 300, is connected to the photovoltaic panel side and constitutes one or more receiving current.

The main busbar 500 is located at the central side of one surface of the main plate 300, and separately connected in parallel to the fuse 400 located on the left side of the main plate 300 and the fuse 400 located on the right side. It is configured as a pair to receive the current.

The main busbars 500 may be configured as a pair of left main busbars 500 and right main busbars 500, between the left main busbars 500 and the right main busbars 500. Positioned, but formed of an insulating material, to prevent the operator's body to contact the main busbar 500 is a current system, and formed of a transparent material to project the main busbar 500, the operator is easily It characterized in that it comprises a protector 1700 provided to be able to manage.

At this time, the protector 1700 is spaced apart from the main busbar 500, at least one fixed assembly 1710 to be coupled to the main plate 300 to fix the state in which the protector 1700 is located. It characterized in that it further comprises.

The Hall sensor module 600 is located between the main busbar 500 and the fuse 400 located on the left side of the main plate 300, but located at the center of one surface of the main plate 300. And at least one through hole 601 which may pass through without being in contact with the cable, and each of the cables connecting the fuse 400 and the main busbar 500 is connected through the through hole 601. The current of the cable can be detected and measured.

The Hall sensor module 600, when the number of channels of the fuse 400 is installed in the main plate 300 increases, it can be configured in plurality by forming a stage at the same position in accordance with the channel of the fuse 400. It is done.

The above-mentioned 'forming stage' means to stack on the same position line, and the reason for forming the stage is to pile up at the same position in order to prevent interference between other modules and cables. In order to prevent the interference between the cable and the module to be provided by the invention to maintain the relationship between the modules.

The DC-DC converter 700 is located on one side of the main plate 300, but is located below the fuse 400 located on the left side of the main plate 300 to generate power from the solar panel or external power. Using to supply power to the Hall sensor module 600.

The surge protection module 800 is located on one surface of the main plate 300, but is located below the DC-DC converter 700, and is connected to the main busbar 500 to prevent surge from being applied. Done.

The protective ground busbar 900 is located on one surface of the main plate 300, but is located below the surge protection module 800, and is connected to the surge protection module 800 by a cable to the main busbar 500. The protective grounding role is to prevent high voltage from being applied.

The breaker 1000 is located on one surface of the main plate 300, and is located below the main bus bar 500 and directly connected to the main bus bar 500, from the main bus bar 500. The current is supplied, and the supplied current can be supplied to the inverter through a cable, and can be opened or cut off.

The cable entry plate 1100 is positioned on the lower side of the inside of the housing 100, and serves as a guide and a passage to allow the solar panel-side cable to be introduced into the housing 100, and the inserted solar light. The cable on the panel side can be fixed.

The cable entry plate 1100 may include one or more inlet holes 1110 for inviting cables individually to hold the cables when the solar panel-side cables are inserted.

Accordingly, the solar panel side cable can be inserted into the inlet hole 1110 to be fixed, and when one or more battery side cables are inserted, each cable can be inserted and inserted separately to provide easy management. It will be done.

The first guide member 1200 is located on the left side and the right side of the main plate 300, but located below the fuse 400 located on the lower side of the surge protection module 800 and the right side of the main plate 300. And guide the solar panel cable drawn through the cable entry plate 1100 to the fuse 400 side, and prevent the main plate 300 from coming into contact with a module other than the fuse 400. ) And the solar panel side cables.

The first guide member 1200 guides the extension direction of the solar panel-side cable and prevents contact with other modules, thereby facilitating wiring and assembling and managing by the operator. It will be.

The second guide member 1300 is located on the left and right sides of the main plate 300, and according to the guide result of the first guide member 1200, the solar panel side cable extending to the fuse 400 side The fuse 400 may be guided in a direction, but may be fixed to prevent the solar panel-side cable from coming into contact with another module.

As described above, the second guide member 1300 may serve to guide the solar panel-side cable in the direction of the fuse 400 and additionally take a handle of the main plate 300 to assemble or It is characterized by the ease of removal.

In addition, by being able to serve as a handle of the second guide member 1300, assembling is easy, and the main plate 300 can be easily detached at the time of replacement or replacement of parts by damage, so that it is easy to manage. The effect is provided.

The cable gland 1400 is positioned at an inner lower side of the housing 100, but is located at a lower side of the breaker 1000, and a cable connecting the breaker 1000 and the inverter is introduced into the housing 100. It serves as a passage that can be, but prevents the introduction of foreign substances such as water into the housing 100 through the cable.

In accordance with the object to be provided by the present invention in accordance with the position and arrangement relationship between the above-described configuration,

The module in the solar power junction box can be efficiently arranged according to the relationship between each component to shorten the assembly time and improve the work efficiency, and can provide the cable wiring guide when wiring the cable in the solar power junction box. Including the structure, cable wiring can be improved, and the effect of minimizing the interference between cables in the solar power junction box is provided.

Photovoltaic junction box of the present invention,

Located on the left side, the right side, and the lower side of the housing 100, respectively, through-coupled to the housing 100 to circulate the inside of the housing 100 and the outside air to reduce heat generated in the housing 100. It characterized in that it further comprises one or more vent plugs (1500).

Accordingly, the heat generated from the housing 100 can be circulated with the outside air to reduce the heat.

The vent plug 1500 may include an inner air hole 1510 positioned inside the housing 100.

An air flow path 1520 positioned in one end of the inner air hole 1510 and through which air may flow;

Located on the outer side of the housing 100, it characterized in that it comprises an outer air hole (1530) connected to the air flow path (1520).

The outer air hole 1530 may have a foreign substance introduction preventing member 1531 for preventing foreign substances containing water from entering the air passage 1520 into the housing 100.

A separation bar 1532 separating the foreign substance introduction preventing member 1531 and the air flow path 1520 from each other;

It is formed by the position and the coupling relationship of the foreign material intrusion preventing member 1531 and the separation bar 1532, and includes a punching portion 1533 that can be introduced into or discharged to the air flow path 1520 to the outside Characterized in that,

The central axis of the punching unit 1533 and the central axis of the air channel 1520 are disposed at right angles to allow external air to enter the air channel 1520 through the punching unit 1533. .

Accordingly, foreign matter including external air or water may be prevented from directly entering into the air passage 1520 according to the arrangement relationship between the punching portion 1533 and the air passage 1520.

Photovoltaic junction box of the present invention, characterized in that it comprises a flat cable 1600 for electrically connecting the fuse 400 located on the right side of the main plate 300 and the main busbar 500 located on the center side. It is done.

The flat cable 1600 is configured to improve the efficiency of work according to the arrangement relationship of the configuration of the present invention and to the arrangement relationship which is the object of the present invention, and to facilitate wiring.

The object of the present invention is to provide,

The module in the solar power junction box can be efficiently arranged according to the relationship between each component to shorten the assembly time and improve the work efficiency, and to provide the cable wiring guide when the cable wiring in the solar power junction box is performed. The arrangement of the above-described configuration of the present invention for providing a photovoltaic junction box that can improve cable wiring work efficiency, including a structure capable of minimizing, and can minimize interference between cables in the photovoltaic junction box. I will explain the relationship in more detail.

As shown in FIG. 7, the area of the main plate 300 of the present invention is divided into areas A, B, C, D, E, F, G, H, and I.

The fuse 400 is located in a zone including any one or more of the zones A and D on the left side of the main plate 300 and any one or more of the zones C and F.

The main busbar 500 is characterized in that located in a zone including any one or more of the B, E zone of the central side of one surface of the main plate 300.

The hall sensor module 600 is characterized in that located in the zone including any one or more of the B, E zone of the central side of one surface of the main plate 300.

The DC-DC converter 700 is located in an area including any one or more of D and G areas, which are the left side of one surface of the main plate 300.

The surge protection module 800 is located in the G region on the left side of one surface of the main plate 300.

The protective ground bus bar 900 is located in a G region on the left side of one surface of the main plate 300.

The breaker 1000 is characterized in that located in the region including any one or more of the E, H zone that is the center side of the main plate (300).

The first guide member 1200 is characterized in that located in the G region on the left side and the I region on the right side of the main plate 300, respectively.

The second guide member 1300 is characterized in that located in the A region on the left side and the C region on the right side of the main plate 300, respectively.

It is to be understood that the zones in which the above-described modules are located are overlapped and arranged according to the positional relationship of the above-described components of the present invention, rather than overlapping respective components.

For example, in the G region of the main plate 300, the fuse 400, the DC-DC converter 700, the surge protection module 800, the protective ground busbar 900, and the first structure of the present invention are configured. It is described that the guide member 1200 is located,

According to the positional relationship of the configuration of the present invention described above,

A DC-DC converter 700 is positioned below the fuse 400, a surge protection module 800 is located below the DC-DC converter 700, and a first guide is provided below the surge protection module 800. It can be seen that the member 1200 and the protective ground busbar 900 are positioned.

Accordingly, the positional relationship of each element of the present invention follows the positional relationship previously described, but it should be recognized that each element is located in the area divided by the main plate 300 in order to clarify the arrangement and positional relationship.

In other words, by effectively arranging the module in the solar power junction box for the purpose of the present invention according to the relationship between each configuration can shorten the time of assembly work and improve the work efficiency, the cable in the junction box for solar power generation In order to improve the efficiency of cable wiring work, including a structure capable of guiding cable wiring when wiring, the above-described arrangements according to the above-described positional relations and established areas are provided, and accordingly, the configuration and configuration of the present invention Due to the arrangement of the relationship and configuration therebetween, it is possible to achieve the above-described purpose and to provide an effect thereof.

The division divided into the main plate 300 described above is further subdivided to explain the arrangement of the present invention.

As shown in FIG. 7, the area of the main plate 300 of the present invention is divided into 1 to 32 areas.

The fuse 400 may include at least one of 1, 2, 5, 6, 9, 10, 13, and 17 zones, which are the left side of one side of the main plate 300, and any one of 4, 8, 12, and 16 zones. It is located in the area containing the above.

The main busbar 500 may be located in an area including any one or more of three, seven, eleven, fifteen, and nineteen zones, which are the central sides of one surface of the main plate 300.

The hall sensor module 600 is located in an area including any one or more of 2, 6, 10, and 14 areas, which are the central sides of one surface of the main plate 300.

The DC-DC converter 700 is located in an area including any one or more of areas 17 and 21 which are the left side of one surface of the main plate 300.

The surge protection module 800 is located in an area including any one or more of areas 21 and 25 which are the left side of the main plate 300.

The breaker 1000 is located in a zone including any one or more of the zones 18, 19, 22, 23, 26, 27 which is the central side of one surface of the main plate 300.

The first guide member 1200 is located in an area including any one or more of the 25 and 29 zones on the left side of the main plate 300, and an area including any one or more of the 28 and 32 zones on the right side of the main plate 300, respectively. It is characterized by.

The second guide member 1300 is positioned in a zone including any one or more of 5, 9 zones, which are the left side of one surface of the main plate 300, and in a zone including any one or more of 8, 12 zones, which are the right side, respectively. It is characterized by.

The protective ground bus bar 900 may be located in an area including any one or more of 28 and 30 areas that are lower sides of the main plate 300.

It is to be understood that the zones in which the above-described modules are located are overlapped and arranged according to the positional relationship of the above-described components of the present invention, rather than overlapping respective components.

For example, it is described that the DC-DC converter 700 and the surge protection module 800 which are the configurations of the present invention are located in the 21 zone of the main plate 300.

According to the positional relationship of the configuration of the present invention described above,

It can be seen that the DC-DC converter 700 is located under the fuse 400 and the surge protection module 800 is located under the DC-DC converter 700.

Accordingly, the positional relationship of each element of the present invention follows the positional relationship previously described, but it should be recognized that each element is located in the area divided by the main plate 300 in order to clarify the arrangement and positional relationship.

In other words, by effectively arranging the module in the solar power junction box for the purpose of the present invention according to the relationship between each configuration can shorten the time of assembly work and improve the work efficiency, the cable in the junction box for solar power generation In order to improve the efficiency of cable wiring work, including a structure capable of guiding cable wiring when wiring, the above-described arrangements according to the above-described positional relations and established areas are provided, and accordingly, the configuration and configuration of the present invention Due to the arrangement of the relationship and configuration therebetween, it is possible to achieve the above-described purpose and to provide an effect thereof.

Photovoltaic junction box of the present invention according to the above-described configuration,

The module in the photovoltaic junction box can be efficiently arranged according to the relationship between the components to provide an effect of reducing the time for assembly work and improving work efficiency.

In addition, it is possible to improve the efficiency of cable wiring, including a structure for guiding the cable wiring when the cable wiring in the solar power junction box is provided.

In addition, there is provided an effect that can minimize the interference between the cables in the solar power junction box.

In addition, there is provided an effect that can facilitate the air circulation with the outside to solve the heat generated in the photovoltaic junction box.

The above-described embodiments are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the claims that follow, rather than the foregoing detailed description. And it is to be understood that all changes and modifications derived from the equivalent concept as well as the meaning and scope of the claims are included in the scope of the present invention.

100 housing 900 protective earth busbar
200: reinforcing member 1000: breaker
300: main plate 1100: cable entry plate
400: fuse 1200: first guide member
500: main busbar 1300: second guide member
600: Hall sensor module 1400: cable gland
700: DC-DC Converter 1500: Bant Plug
800: surge protection module

Claims (5)

In the photovoltaic connection box of a photovoltaic system including at least one of a solar panel and an inverter,
As the enclosure 110 of the junction box for photovoltaic power generation, the housing 100 is formed therein;
A reinforcing member 200 which is bound to an inner surface of the housing 100 to reinforce the strength of the housing 100;
A main plate 300 coupled to one surface of the housing 100 to be detachable;
At least one fuse 400 positioned at left and right sides of one surface of the main plate 300 and connected to the solar panel side to receive a current;
Located in the central side of one side of the main plate 300, in parallel with the fuse 400 located on the left side and the fuse 400 located on the right side of the main plate 300 in a pair so as to receive a current Main busbar 500 is configured;
Located between the main busbar 500 and the fuse 400 located on the left side of the main plate 300, the fuse includes one or more through holes 601 through which the cable can pass, and the fuse Hall sensor module 600 that can detect and measure the current of each cable when the cable connecting the 400 and the main busbar 500 is connected through the through hole 601;
A DC-DC converter positioned at the lower side of the fuse 400 located on the left side of the main plate 300 to supply power to the hall sensor module 600 using power generated from a solar panel or external power ( 700);
A surge protection module 800 located below the DC-DC converter 700 and connected to the main bus bar 500 by a cable to prevent surge from being applied;
Located on the lower side of the surge protection module 800, the protective ground bus bar for connecting with the surge protection module 800 and the external ground in order to prevent the high voltage is applied to the main bus bar 500 ( 900);
Located in the lower side of the main busbar 500, is directly connected to the main busbar 500, receives a current from the main busbar 500, and supplies the supplied current to the inverter through a cable, Breaker 1000 that can open or block it;
Located on the inner lower side of the housing 100, and serves as a guide and a passage so that the solar panel side cable can be introduced into the housing 100, and can fix the solar panel side cable Cable entry plate 1100;
Located on the left and right sides of the main plate 300, but located below the fuse 400 of the lower side of the surge protection module 800 and the right side of the main plate 300, the cable entry plate 1100 Guides the cable drawn through the solar panel side extending through the fuse 400 side, and separates the main plate 300 and the solar panel side cable to prevent contact with the module other than the fuse 400. First guide member 1200 to be made;
Located on the left side and the right side of the main plate 300, according to the guide result of the first guide member 1200 guides the solar panel side cable extending toward the fuse 400 toward the fuse 400 side, A second guide member 1300 which may be fixed to prevent the solar panel side cable from being in contact with another module;
Located on the inner lower side of the housing 100 but located in the lower direction of the breaker 1000, the cable connecting the breaker 1000 and the inverter serves as a passage that can be introduced into the housing 100. However, the cable gland (1400) to prevent the introduction of foreign matter, such as water into the housing 100 through the cable; includes,
Located on the left side, the right side, and the lower side of the housing 100, respectively, penetrated through the housing 100 to circulate the inside of the housing 100 and the outside air to reduce heat generated in the housing 100. Characterized in that it further comprises; one or more vent plugs 1500,
And a flat cable 1600 for electrically connecting the fuse 400 located on the right side of the main plate 300 to the main busbar 500 located on the center side.
The housing 100,
At least one of the outer surface of the housing 100 is located on the rear surface, when one side and the housing of the facility to prevent the contact area of the housing 100 and the outside air when the solar power junction box is installed in the facility And spaced apart member 103 spaced apart from each other to maintain the contact area between the housing 100 and the outside air.
The Hall sensor module 600,
When the number of channels of the fuse 400 is installed in the main plate 300 increases, it can be configured in plurality by forming a stage at the same position in accordance with the channel of the fuse 400,
The area of the main plate 300 is divided into 1 to 32 areas,
The fuse 400 may include any one or more of 1, 2, 5, 6, 9, 10, 13, and 17 zones, which are the left side of one surface of the main plate 300, and any one of 4, 8, 12, and 16 zones. It is characterized by being located in the area including the above,
The main busbar 500 is located in a zone including any one or more of the 3, 7, 11, 15, 19 zone that is the center side of the main plate 300,
The Hall sensor module 600, characterized in that located in the zone including any one or more of the 2, 6, 10, 14 zone that is the central side of the main plate 300,
The DC-DC converter 700 is located in a zone including any one or more of 17, 21 zones on the left side of the main plate 300,
The surge protection module 800 is characterized in that located in the zone including any one or more of the 21, 25 zone of the left side of the main plate 300,
The breaker 1000 is located in a zone including any one or more of the zones 18, 19, 22, 23, 26, 27 that is the central side of the main plate 300,
The first guide member 1200 is located in an area including any one or more of the 25 and 29 zones on the left side of the main plate 300, and an area including any one or more of the 28 and 32 zones on the right side of the main plate 300, respectively. Characterized in that,
The second guide member 1300 is positioned in a zone including any one or more of 5, 9 zones, which are the left side of one surface of the main plate 300, and in a zone including any one or more of 8, 12 zones, which are the right side, respectively. Characterized in that,
The protective ground bus bar (900), the junction box for photovoltaic power generation, characterized in that located in the zone including any one or more of the 28, 30 zone that is the lower side of the main plate (300).
The method of claim 1,
The housing 100 has a space formed therein, the enclosure 110 which may include one or more modules therein,
The cover 120 is hinged to one end of the enclosure 110 to serve as a cover of the enclosure 110 to prevent foreign matter from entering into the enclosure 110.
The housing 100, the air contact groove 102 to form a groove on the outer surface to widen the contact surface of the housing 100 and the outside air to reduce heat generated inside the solar power junction box,
Located in the upper and lower sides of the surface in contact with the cover 120 in the enclosure 110, when the cover 120 covers the enclosure 110 to improve the internal sealing force of the housing 100, The junction box for photovoltaic power generation, characterized in that it further comprises an auxiliary sealing bar (111) for preventing foreign matter containing water into the interior (110).

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