CN101075644A - Terminal box for solar battery assembly - Google Patents
Terminal box for solar battery assembly Download PDFInfo
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- CN101075644A CN101075644A CNA2006100267446A CN200610026744A CN101075644A CN 101075644 A CN101075644 A CN 101075644A CN A2006100267446 A CNA2006100267446 A CN A2006100267446A CN 200610026744 A CN200610026744 A CN 200610026744A CN 101075644 A CN101075644 A CN 101075644A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
This is a terminal box for solar battery sets includes a box, several terminal boards in the box, side LED linking each two terminal boards adjacent, a heat radiation section composed by several overlapped heating panels under the LED.
Description
Technical field
The present invention relates to a kind of terminal box for solar battery assembly.
Background technology
In recent years, people are surging for the care of environmental problem, and the electricity generation system of protection environment is more noticeable as the solar power system that uses solar module to generate electricity.As everyone knows, solar power system is to locate to utilize solar power generation by several solar modules by roof of the rectangular building that is laid in etc.This solar power system is that the electric energy of the solar module that laid by adjacent quilt is assembled and formed.For the electric energy of each solar module generating is gathered together, each solar module just needs to use terminal board.
In this terminal box for solar battery assembly, the part of the solar cell device of solar module is in order to prevent the electric current adverse current of solar module when the cloudy day, be provided with the bypass diode that the loop is used, bypass diode is configured between terminal board, be connected in parallel with solar module, see Japan's disclosed 2004-589181 communique in the special permission Room for details.
But the part of the solar cell device of above-mentioned solar module was passed through because of bypass diode has electric current when the cloudy day, and bypass diode can generate heat.If in terminal board, only just dispose bypass diode, owing to can causing that the temperature of bypass diode rises, the heating of bypass diode makes the bypass diode breakage, make the material degradation of periphery.Therefore rise for fear of temperature, prevent the bypass diode breakage,, just be necessary in terminal board, to be provided with the good material for heat radiation such as metallic plate of heat conductivity so that the heat of bypass diode distributes.
But packaging diode is by moulding such as synthetic resin and be shaped, and the weakness of thermal diffusivity deficiency is arranged.For this reason, because when using packaging diode as bypass diode in the terminal box for solar battery assembly, the surface area that must enlarge heating panel rises with the temperature of avoiding bypass diode, promptly because the surface area of the heat radiation that needs heating panel of heat radiation also must become big.The space that therefore suitable placement heating panel just must be arranged, the maximization of terminal board, the problem that can cause cost to improve.Also have because the maximization of terminal board, the use amount of the silicone resin of the sealing that is used to insulate also will increase the problem that also can cause cost to improve.
All the time, terminal board is the comparison difficulty with the operation that is connected of the output of solar module one side.Specifically, output in solar module one side generally all is provided with very thin metal forming (for example Copper Foil), use this metal forming to be welded in the method for attachment of terminal board, need a hand to hold the assigned address that pincet etc. is fixed on metal forming terminal board, another manual operating scolding tin flatiron connects, the operational difficulty that is connected because of the output of terminal board and solar module one side needs skilled technical ability.
Summary of the invention
The objective of the invention is, terminal board poor and solar module one side for the terminal board heat dispersion that overcomes above-mentioned prior art output be connected operational difficulty, defect of high cost, a kind of terminal box for solar battery assembly is provided.
The objective of the invention is to be achieved through the following technical solutions:
A kind of terminal box for solar battery assembly, it comprises a box main body, the radiating part that it also comprises a plurality of bypass diodes that are located at terminal board in this box main body, connect two adjacent terminal boards, is made up of a plurality of overlapping heating panels that are arranged under this bypass diode.
Wherein, this terminal board is a plate body, and its top is provided with soldering-tin layer.
Wherein, this terminal board comprises upper and lower two boards shape body, and the output of solar module is clipped between this upper and lower two boards shape body.
Wherein, this terminal board comprises upper and lower two boards shape body, is provided with soldering-tin layer between the top of this two boards shape body, and the output of solar module is clipped between this upper and lower two boards shape body.
Wherein, the bottom of this box main body is provided with a plurality of fixing projections of using, and respectively should fixingly insert this heating panel, the corresponding patchhole that is provided with of this diode with projection, and heating should fixingly make its distortion to fix this heating panel and this diode with projection.
Wherein, also be provided with the fixed part of using for the connection electric wire that connects on this terminal board in this box main body, the part of this fixed part is clipped between the heating panel of this terminal board and this terminal board below.
Wherein, have at least a heating panel to be clipped between this box main body and this fixed part.
Positive progressive effect of the present invention is: the surface area of the total of the heating panel of each radiating part becomes big, heat dissipation capacity by the heating panel of each radiating part also becomes big, can suppress the heating panel of each radiating part expands to Quadratic Finite Element, reach efficient heat radiation, make the terminal box for solar battery assembly miniaturization thus, thereby the loading that can reduce the silicone resin of insulation sealing usefulness reaches the requirement that reduces cost, simultaneously, the output of terminal board and solar module one side to be connected operation convenient.
Description of drawings
Fig. 1 is the terminal board plane graph of the embodiment of the invention one.
Fig. 2 imports the terminal board schematic diagram that direction is seen for the embodiment of the invention one from stube cable.
Fig. 3 is the A-A sectional drawing of Fig. 1.
Fig. 4 is the B-B sectional drawing of Fig. 1.
Fig. 5 is the C-C sectional drawing of Fig. 1.
Fig. 6 is the D-D sectional drawing of Fig. 1.
Fig. 7 is the E-E sectional drawing of Fig. 1.
Fig. 8 is the plane graph of bottom of the terminal board box main body of the embodiment of the invention one.
Fig. 9 is the oblique view of the interior heating panel that disposes of box main body of the embodiment of the invention one.
Figure 10 is the terminal board plane graph of the embodiment of the invention two.
Figure 11 is the F-F sectional drawing of Figure 10.
Figure 12 is the side view of the terminal board major part of the embodiment of the invention two.
Figure 13 is the terminal board plane graph of the embodiment of the invention three.
Figure 14 is the G-G sectional drawing of Figure 13.
Figure 15 is the side view of the terminal board major part of the embodiment of the invention three.
Embodiment
Provide preferred embodiment of the present invention below in conjunction with accompanying drawing, to describe technical scheme of the present invention in detail.
Embodiment one
About the terminal box for solar battery assembly (hereinafter to be referred as " terminal board ") that the present invention is suitable for, the terminal board quantity of a terminal board setting is several, and incalculable qualification, below just describes so that 4 terminal boards to be set.
Fig. 1-terminal board 10 shown in Figure 7 is installed in the reverse side that there is mutually the solar module (not shown) of several solar battery cell (not shown) that connect with electric energy on the surface.Use such terminal board 10, locate on the roof of building etc., as by laying into several rectangular solar modules, owing to can utilize the solar power system of solar power generation to connect, just may assemble electric energy by each solar module generating in abutting connection with the electric energy of the solar module that is provided with.
The box main body 11 of terminal board 10 is by for example using as sex change PPO (polyphenylene oxide), ABS (acryl-nitrile-butadiene-styrene) is such has weatherability, being electrically insulated property, thermal endurance, the synthetic resin of characteristics such as flame retardancy etc. is shaped as box-like.A last side opening of this box main body 11 is formed with hole 12 by the wiring of several (present embodiment is 4) in the bottom simultaneously, and the recess 13 that has two cables to import usefulness on the sidewall forms.Also have, be useful on the fixed station 14 of stiff end daughter board 18 in the bottom of box main body 11, be fixed projection 16 formation (as shown in Figure 8) of stiff end daughter board 18 usefulness.And has a structure that can lock when being used to install tabular lid (not shown) at a last side opening place.And, fill insulative resin (for example silicone etc.) in box main body 11 volume inside, to seal electric coupling part.
Have 4 terminal boards 18 in box main body 11 inside, these 4 terminal boards 18 according to the rules be spaced configuration.One end (front end) of each terminal board 18 assembles with hole 12 in the face of the wiring of box main body, and an end of each terminal board is connected the output (not shown) of solar module one side with scolding tin.The part (rear portion) of terminal board 18 is configured on the jut 24a of the fixed part 24 that is used for fixing cable simultaneously, do not contact with the described heating panel in back (as Fig. 5, Fig. 6, shown in Figure 7).And, for the connection operation of the terminal board 18 of the output that carries out solar module one side easily, leave soldering-tin layer 19 in advance in the top ends of the foundation 18a of each terminal board 18.
In 4 terminal boards 18, two terminal boards 18 that are configured in two ends, the left and right sides be by with the output connection basis part 18a of solar module, the diode connecting portion 18b that the connection diode that prolongs from this foundation 18a right and left either direction is used, and form from the cable connecting part 18c that the cable that foundation 18a rearward prolongs connects usefulness.At foundation 18a the fixedly installing hole 18d of usefulness is arranged.To this, 18 li of 4 terminal boards, two terminal boards 18 of configuration are made up of foundation 18a is connected usefulness with two diodes that twocouese to the left and right all prolongs connecting portion 18b except that two ends, the left and right sides, at foundation 18a the fixedly installing hole 18d of usefulness are arranged equally.
Each terminal board is configured on the fixed station 14 of box main body 11, is fixed on the box main body 11 with projection 15 by the installing hole 18d insertion of each terminal board 18 is fixing.When terminal board 18 was configured to box main body 11, the installing hole 18d of terminal board 18 inserts box main body 11 fixingly embedded the foundation 18a of terminal board 18 in groove (recess) 14a of fixed station 14 with 15 li of projections the time.Heat then and from the outstanding fixing top of installing hole 18d he is out of shape and terminal board 18 can be fixed on the box main body 11 with projection.
18 of two terminal boards of box main body 11 inner abutment have disposed bypass diode 20.This example is for to have used three bypass diodes 20 10 li of terminal boards.Bypass diode 20 is connected in parallel with solar module between two terminal boards, prevents from thus that electric current is reverse to flow in the solar module.And this routine bypass diode 20 uses is the encapsulation type diode that synthetic resin etc. is shaped.
When assembling bypass diode 20 in box main body 11, the conductor part of bypass diode 20 uses scolding tin to come the connecting portion 18b of link daughter board 18.At this moment, the patchhole 20a of the head portion of bypass diode 20 inserts the fixing with projection 16 of box main body 11, and heats this fixing top with projection 16 and make its distortion so that bypass diode 20 is fixed on the box main body 11.This bypass diode 20 is fixing, as the back statement, is to carry out simultaneously with the box main body 11 that is fixed in heating panel.
Also have, several heating panels are purchased in box main body 11 inside.In this example, be provided with radiating part 30,40,50 for each bypass diode 20.Radiating part 30,40,50th is provided with for the heat that makes bypass diode 20 distributes, and being provided with of radiating part can be avoided because the temperature that bypass diode 20 heatings cause rises.Radiating part 30,40,50th, by as the heating panel of heat transmission aluminium for example, copper, the metallic plate that heat conductivities such as stainless steel are good is made.About radiating part 30,40,50 detailed introductions are seen below statement.
According to Fig. 1, Fig. 8, Fig. 9 describe radiating part 30,40,50 in detail below.
As mentioned above, radiating part is each bypass diode 20 of having for terminal board 10 and being provided with.In this example, be provided with radiating part 30, be provided with radiating part 40, be provided with radiating part 50 for right accessory pathway diode 20 for central bypass diode 20 for the bypass diode 20 in left side.The left side, in the middle of, each radiating part 30,40,50 on right side has several heating panels of the configuration that overlaps up and down mutually.Each radiating part 30,40, the quantity of 50 heating panels that had without limits, on this example has, in, following 3 blocks of heating panels.
At this, the radiating part 30 that is provided with for the bypass diode 20 in left side describes.Be that the heating panel 33 of heating panel 31 and the central heating panel 32 and the downside of the upside that sets by overlaping up and down mutually is provided with and forms at radiating part 30.On this, in, following 3 heating panels 31,32,33 are placed in box main body 11 in turn, and have placed bypass diode 20 on the heating panel 31 of upside.
The heating panel 31 of upside and the heating panel 33 of downside are seen as identical L glyph shape from the plane, and see from the plane and to be configured on the consistent location.The heating panel 31 of upside is formed (heating panel 33 of downside also identical, ledge 33b arranged) with the fore-end from this front and rear part 31a to the outstanding ledge 31b of left by the front and rear part 31a of direction extension forwards, backwards.And front and rear part 31a be with by being formed by the fixing hole 31c that inserts with projection 16 of above-mentioned box main body 11.
On the other hand, central heating panel 32, the plane is seen as the L font, the front and rear part 32a that extends by direction forwards, backwards with form to right-hand outstanding ledge 32b from the fore-end of this front and rear part 32a.And be useful on the fixing patchhole 32c that inserts box main body 11 on the 32a of front and rear part with projection 16.The front and rear part 31a of the part of the front and rear part 32a of the heating panel 32 in the middle of this and upper and lower heating panel 31,33, the configuration that overlaps up and down mutually of the part of 33a.And the patchhole 31c of each heating panel 31,32,33,32c, 33c are inserted in the fixing with 16 li of projections of box main body 11, and each heating panel 31,32,33 are fixed on the box main body thus.In addition, on the central heating panel 32, be placed with the fixing fixed part 24 of using of above-mentioned cable.
3 heating panel 31,32,33 following being arranged on form radiating part 30 in the box main body 11.At first, the heating panel 33 of downside is provided in the bottom of box main body, and patchhole 33c inserts the fixing with projection 16 of box main body 11.Then, on the bottom of the front and rear part 33a of the heating panel 33 of downside and box main body 11, patchhole 32c be inserted in fixing with 16 li of projections to place central heating panel 32.Then patchhole 32c is inserted in fixing 16 li of the projections of using, the heating panel of upside is placed on the front and rear part 32a of central heating panel.And the patchhole of the head portion of bypass diode 20 is inserted in fixing, bypass diode 20 is positioned on the front and rear part 31a of heating panel 34 of upside with projection 16.So, placed in turn in the box main body 11, in, following 3 heating panels 31,32,33, bypass diode 20.Add thermal deformation from the outstanding fixing top of the patchhole 20a of bypass diode 20 then, bypass diode 20 and heating panel 31,32,33 are fixed on the box main body 11 with projection 16.With simple like this fixing means, can be fixed on 3 heating panels 31,32,33 and the bypass diode 20 of radiating part 30 together on the box main body 11 easily and reliably.
Then, the radiating part 50 for the bypass diode 20 on right side describes.The difference that the radiating part 30 of radiating part 50 and the bypass diode 20 in above-mentioned left side sets about just, other are all identical.Therefore, omit detailed explanation.The heating panel 51 of the upside that radiating part 50 disposes by overlaping up and down mutually constitutes with the central heating panel 52 and the heating panel 53 of downside.On, in, following 3 pieces of heating panels 51,52,53 are placed within the box main body 11 in turn.And placed bypass diode 20 on the heating panel 51 of upside.
Then, the radiating part 40 for central bypass diode 20 describes.In the middle of radiating part 40 be arranged between the above-mentioned left and right radiating part 30,50, do not contact each other with left and right radiating part 30,50.The heating panel 41 of the upside that radiating part 40 disposes by overlaping up and down mutually constitutes with the central heating panel 42 and the heating panel 43 of downside.On, in, following 3 pieces of heating panels 41,42,43 are placed within the box main body 11 in turn.And on the heating panel 51 of upside, placed bypass diode 20.
The heating panel 51 of upside and the heating panel 53 of downside are seen as identical L glyph shape from the plane, and see from the plane and to be configured on the consistent location.The heating panel 51 of upside is formed (heating panel 53 of downside also identical, ledge 53b arranged) with the fore-end from this front and rear part 51a to right-hand outstanding ledge 51b by the front and rear part 51a of direction extension forwards, backwards.And the fixing patchhole 51c with projection 16 that above-mentioned insertion box main body 11 arranged on the 51a of front and rear part.
On the other hand, central heating panel 52, the plane is seen as the L font, is made up of to the outstanding ledge 52b of left the front and rear part 52a and the fore-end from this front and rear part 52a of direction extension forwards, backwards.And the fixing patchhole 52c with projection 16 that inserts box main body 11 arranged on the 52a of front and rear part.The front and rear part 51a of the part of the front and rear part 52a of the heating panel 52 in the middle of this and heating panel 51,53 up and down, the configuration that overlaps up and down mutually of the part of 53a.And the patchhole 51c of each heating panel 51,52,53,52c, 53c are inserted in the fixing with projection 16 of box main body 11, and each heating panel 51,52,53 are fixed on the box main body thus.In addition, on the central heating panel 52, be placed with the fixing fixed part 24 of using of above-mentioned cable.3 blocks of heating panels 51,52,53 of radiating part 50 are provided in the method for box main body and above-mentioned heating panel 30 is same, omit detailed explanation at this.
As above described terminal board 10 is provided with radiating part 30,40,50 for each bypass diode 20.And because of the heating panel 31,41,51 of the upside of each radiating part 30,40,50 directly joins in bypass diode 20, so can distribute the heat of bypass diode 20 effectively.Thus, even use the not strong packaging diode of thermal diffusivity to use, also can avoid rising because of the temperature that bypass diode 20 heatings cause as bypass diode 20.
In addition, each radiating part 30,40,50 is divided into 3, owing to overlap up and down, the surface area of the heating panel of each radiating part 30,40,50 has become greatly, and the heat-sinking capability of the heating panel of each radiating part 30,40,50 is increased.Therefore, compare, for the space of the heating panel of the required surface area of configuration heat radiation just can be much smaller with constitute each radiating part 30,40,50 with 1 heating panel.In other words, can suppress 2 dimension directions (direction all around) expansion of the heating panel of each radiating part 30,40,50, dispose heating panel effectively in the confined space in the box main body 11, improve the effect of heat radiation.Thus, even use packaging diode to use, also can avoid rising because of the temperature that bypass diode 20 heatings cause as bypass diode 20.Above effect can realize box main body 11, the miniaturization of terminal board 10 and can reducing cost.Because the miniaturization of terminal board can reduce the charging quantity that employed silicone is sealed in insulation, also can reduce cost.
Here, the part of the central heating panel 32,42,52 of each radiating part 30,40,50 is clipped between the fixing bottom with fixed part 24 and box main body 11 of cable.In the past, the below of fixed part 24 was dead angles, in this example, and the central heating panel 32,42 that disposed of each radiating part 30,40,50 at former formation dead angle, a part of 52 has effectively utilized the space of box main body 11.And, as mentioned above, in the part (rear portion) that the ledge 24a of fixed part 24 has placed terminal board 18, make terminal board 18 not with the contact of the heating panel of each radiating part 30,40,50.So, be clipped in configuration between the heating panel ( central heating panel 32,42,52) of terminal board 18 and each radiating part 30,40,50 because of the ledge 24a of fixed part 24, can stably guarantee insulation.Simultaneously, the distance of the necessary terminal board of stable insulation 18 and the heating panel of each radiating part 30,40,50 can be shortened,, the miniaturization of terminal board can be sought thus with the size of the above-below direction that can suppress box main body 11.
In addition, more than just be provided with 3 bypass diodes 20 at 4 terminal boards 18 of box main body 11, only illustrated about radiating part 30 for each bypass diode 20,40,50 set terminal boards 10, the quantity of the terminal board that is provided with in a terminal board has no particular limits, and for example terminal board has 2 also can.At this moment, 2 terminal boards are set in box main body, set bypass diode between these 2 terminal boards, have the terminal board of the radiating part of several heating panels of configuration together that overlaps each other for this bypass diode setting.And the quantity of such terminal board has 2 terminal board also can reach the same action effect of above-mentioned terminal board.
Embodiment two
As Figure 10-shown in Figure 12, terminal board 60 is identical with above-mentioned terminal board 18 (referring to Fig. 1, Fig. 4 etc.) shape, and has the 2nd terminal board 62 that is provided with on the 1st terminal board 61 of box main body 11 identical allocation positions and this 1st terminal board 61.In other words, terminal board 60 is that the 1st, the 2 terminal board 61,62 with upper and lower 2 plate bodys constitutes, and the output of solar module side is to be clipped between upper and lower 2 the 1st, the 2 terminal boards 61,62 and to connect.In addition, the top ends (leading section) of the foundation 61a of the 1st terminal board 61 of each terminal board 60 has preparation scolding tin 63.This soldering-tin layer 63 is clipped between the top of the 1st, the 2 terminal board 61,62.
Each the 1st terminal board 61 is identical shaped with above-mentioned terminal board 18, also has the connecting portion 61b that diode connects usefulness, and cable connecting part 61c is provided on the fixed station 14 of box main body 11 equally.Each the 2nd terminal board 62 is metallic plates of rectangle, is configured in the plane with the foundation 61a of the 1st terminal board 61 and sees slightly on consistent location.The fixing installing hole 62a that uses is arranged on the 2nd terminal board 62.And each terminal board 60 is by the installing hole 61d that is inserted in the 1st, the 2 terminal board 61,62, and the fixing of the box main body 11 of 62a is fixed on the box main body with projection 15.
When terminal board 60 is provided in box main body 11, at first,, on one side the foundation 61a of the 1st terminal board 61 is embedded in the groove 14a of fixed station 14 on one side the fixing installing hole 61d of box main body 11 with projection 15 insertions the 1st terminal board 61.Then, on one side the fixing installing hole 62a of box main body 11, on one side the 2nd terminal board 62 is placed on the 1st terminal board 61 with projection 15 insertions the 2nd terminal board 62.Then, adding thermal deformation from the outstanding fixing top with projection 15 of the installing hole 62a of the 2nd terminal board 62 is fixed on the box main body 11 the 1st, the 2 terminal board.
Therefore use such terminal board 60, make raising terminal board 60 just become possibility with the operation that is connected operation of solar module side output.At this, solar module side output generally is to be provided with by very thin metal forming (for example Copper Foil), this metal forming can with the top ends of the 1st, the 2 terminal board 61,62 of terminal board 60 between use scolding tin to connect.This scolding tin is the metal forming of solar module side output to be clipped under the state between the top ends of the 1st, the 2 terminal board 61,62 of terminal board 60 carry out.At this moment, can make the link position of position alignment terminal board 60 of metal forming of the output of solar module, metal forming be inserted between the head portion of the 1st, the 2 terminal board 61,62 and carried out, this operation can be easy to carry out.Carry out scolding tin owing to can be clipped in metal forming under the state between the head portion of the 1st, the 2 terminal board 61,62, so can improve the operation that is connected operation of terminal board 60 and the output of solar module side.Also have,, also can carry out the scolding tin operation easily owing to can utilize preformed soldering-tin layer on the 1st terminal board 61.
Embodiment three
Above-mentioned Figure 10, Figure 11, the terminal board of representing among Figure 12 60 utilize scolding tin to be connected with the output of solar module side, but are not certain scolding tin connection that needs to use.As Figure 13-shown in Figure 15, it also is possible that terminal board 70 connects without scolding tin.
Figure 13, Figure 14, terminal board 70 shown in Figure 15 omits together with the structure of above-mentioned terminal board 60, and different is that terminal board 70 does not have soldering-tin layer 63.In other words, terminal board 70 is identical with above-mentioned terminal board 18 (referring to Fig. 1, Fig. 4 etc.) shape, and also has the 1st terminal board 71 and the 2nd terminal board of setting on this same position at the allocation position of box main body 11.The output of solar module side is clipped between the 1st, the 2 upper and lower 2 terminal board 71,72 and couples together.
Each terminal board 71 is identical shapes with above-mentioned terminal board 18, also has the connecting portion 71b that diode connects usefulness, and cable connecting part 71c is provided on the fixed station of box main body 11 equally.Each the 2nd terminal board 72 is rectangular metal plate, and the foundation 71a of the 1st terminal board 71 is provided in the plane and sees slightly on consistent location.The top ends (leading section) of each the 2nd terminal board 72 is provided with the space towards the top bending between the top ends of the 1st, the 2 terminal board 71,72.Also have, the fixing installing hole 72a that uses is arranged on the 2nd terminal board 72.Thus, the terminal hole of the 1st, the 2 terminal board 71,72 is inserted the fixing with each terminal board 70 is fixed on the box main body 11 of box main body 11.
When terminal board 70 is provided in box main body 11, at first,, on one side the foundation 71a of the 1st terminal board 71 is embedded in the groove 14a of fixed station 14 on one side the fixing installing hole 71d of box main body 11 with projection 15 insertions the 1st terminal board 71.Then, on one side the fixing installing hole 72a of box main body 11, on one side the 2nd terminal board 62 is placed on the 1st terminal board 71 with projection 15 insertions the 2nd terminal board 72.Then, adding thermal deformation from the outstanding fixing top with projection 15 of the installing hole 72a of the 2nd terminal board 72 is fixed on the box main body 11 the 1st, the 2 terminal board.
Inserted in the metal forming of the output that connects the solar module side on the terminal board 70 as long as metal forming between the 1st, the 2 the top ends just.Like this, can make metal forming be clipped in the 1st, the 2 terminal board 71,72 and be fixed.At this moment, can aim at the link position of the terminal board 70 of metal forming easily,, connect easily as long as metal forming is inserted the 1st, the 2 terminal board.Therefore, can improve the operation that is connected operation of terminal board 70 and the metal forming of the output of solar module side.
Claims (7)
1, a kind of terminal box for solar battery assembly, it comprises a box main body, it is characterized in that the radiating part that it also comprises a plurality of bypass diodes that are located at terminal board in this box main body, connect two adjacent terminal boards, is made up of a plurality of overlapping heating panels that are arranged under this bypass diode.
2, terminal box for solar battery assembly according to claim 1 is characterized in that, this terminal board is a plate body, and its top is provided with soldering-tin layer.
3, terminal box for solar battery assembly according to claim 1 is characterized in that, this terminal board comprises upper and lower two boards shape body, and the output of solar module is clipped between this upper and lower two boards shape body.
4, terminal box for solar battery assembly according to claim 1, it is characterized in that, this terminal board comprises upper and lower two boards shape body, is provided with soldering-tin layer between the top of this two boards shape body, and the output of solar module is clipped between this upper and lower two boards shape body.
5, according to claim 2,3 or 4 described terminal box for solar battery assembly, it is characterized in that, the bottom of this box main body is provided with a plurality of fixing projections of using, respectively should fixingly insert this heating panel, the corresponding patchhole that is provided with of this diode with projection, heating should fixingly make its distortion to fix this heating panel and this diode with projection.
6, terminal box for solar battery assembly according to claim 5, it is characterized in that, also be provided with the fixed part of using for the connection electric wire that connects on this terminal board in this box main body, the part of this fixed part is clipped between the heating panel of this terminal board and this terminal board below.
7, terminal box for solar battery assembly according to claim 6 is characterized in that, has at least a heating panel to be clipped between this box main body and this fixed part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2006100267446A CN100511717C (en) | 2006-05-19 | 2006-05-19 | Terminal box for solar battery assembly |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2006100267446A CN100511717C (en) | 2006-05-19 | 2006-05-19 | Terminal box for solar battery assembly |
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CN101075644A true CN101075644A (en) | 2007-11-21 |
CN100511717C CN100511717C (en) | 2009-07-08 |
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CNB2006100267446A Expired - Fee Related CN100511717C (en) | 2006-05-19 | 2006-05-19 | Terminal box for solar battery assembly |
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Cited By (5)
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CN102105996A (en) * | 2009-05-27 | 2011-06-22 | 住友电装株式会社 | Terminal box for solar cell module |
CN101855731B (en) * | 2008-01-08 | 2012-12-12 | 山一电机株式会社 | Socket, use, solar panel, contact element, and method |
WO2014161222A1 (en) * | 2013-04-03 | 2014-10-09 | 浙江美晶科技有限公司 | Junction box of photovoltaic power generation assembly |
CN108173515A (en) * | 2017-12-25 | 2018-06-15 | 苏州元昱新能源有限公司 | low temperature photovoltaic junction box |
CN109287133A (en) * | 2016-01-06 | 2019-01-29 | 莱尼电气线缆(中国)有限公司 | Solar junction box |
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2006
- 2006-05-19 CN CNB2006100267446A patent/CN100511717C/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101855731B (en) * | 2008-01-08 | 2012-12-12 | 山一电机株式会社 | Socket, use, solar panel, contact element, and method |
CN102105996A (en) * | 2009-05-27 | 2011-06-22 | 住友电装株式会社 | Terminal box for solar cell module |
CN102105996B (en) * | 2009-05-27 | 2013-07-17 | 住友电装株式会社 | Terminal box for solar cell module |
WO2014161222A1 (en) * | 2013-04-03 | 2014-10-09 | 浙江美晶科技有限公司 | Junction box of photovoltaic power generation assembly |
CN109287133A (en) * | 2016-01-06 | 2019-01-29 | 莱尼电气线缆(中国)有限公司 | Solar junction box |
CN108173515A (en) * | 2017-12-25 | 2018-06-15 | 苏州元昱新能源有限公司 | low temperature photovoltaic junction box |
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