CN203192820U - High-efficient radiation solar PV junction box - Google Patents

High-efficient radiation solar PV junction box Download PDF

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Publication number
CN203192820U
CN203192820U CN 201320204866 CN201320204866U CN203192820U CN 203192820 U CN203192820 U CN 203192820U CN 201320204866 CN201320204866 CN 201320204866 CN 201320204866 U CN201320204866 U CN 201320204866U CN 203192820 U CN203192820 U CN 203192820U
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box
thermal conductivity
aluminum matrix
box body
high thermal
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Expired - Fee Related
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CN 201320204866
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马俊龙
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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Abstract

The utility model relates to a high-efficient radiation solar PV junction box. The junction box comprises a box body and a circuit board, wherein a box body bottom structure comprises a heat dissipation window and ventilation slots; the heat dissipation window is sealingly covered by the back portion of an aluminum substrate so that a heat dissipation empty chamber communicating with the ventilation slots is formed; output connection terminals are welded on the two output ends of the protection circuit of diodes and are horizontally mirror-symmetrical; and the soldering lug ends of the output connection terminals are welded on the circuit layer of the aluminum substrate so that heat is transferred to the heat dissipation empty chamber at the bottom of the box body through a metal substrate layer disposed on the back side of the aluminum substrate, and dissipated through the two ventilation slots in a convection manner. The heat transfer method through the metal substrate layer is combined with the convection method through the ventilation slots so that not only is the heat dissipation performance improved, but also the size of the junction box is reduced, the inside-box volume being 23 cm<3>, 30% that of a conventional junction box, and the use amount of a seal glue is decreased; the heat dissipation performance is so excellent that the damage to the diodes due to high temperature is reduced, and the service life of the diodes are prolonged; a cable is installed by using a horizontal terminal-plugging structure so that the resistance of the cable is declined, material consumption and labor cost are reduced, and production efficiency is improved.

Description

High efficiency and heat radiation photovoltaic terminal box
Technical field
The utility model relates to solar module, and particularly a kind of high efficiency and heat radiation photovoltaic terminal box is used for being connected between solar-energy photo-voltaic cell group and the battery charge controller.
Background technology
The photovoltaic terminal box is as the connector of solar module, it mainly acts on is that electric energy with solar module produces is derived through cable, because the particularity of solar cell service condition and the costliness of itself are worth, the prerequisite characteristic of photovoltaic terminal box comprises: 1, shell has anti-aging, ultraviolet-resistant capacity; 2, meet instructions for use under the outdoor severe environmental conditions; 3, effectively radiating mode and the reasonably satisfied heat radiation of cavity volume requirement; 4, satisfy the electrical safety requirement; 5, excellent waterproof, proofing dust and protecting.
At present, the photovoltaic terminal box mainly comprises on the market: the first kind: traditional: traditional junction box structure is that the housing open back is provided with electrical equipment terminal (slide block), advantage in the housing: clamped-in style connects diode, and is swift to operate, easy to maintenance.Shortcoming: because the existence of electrical equipment terminal, the volume of terminal box is big, poor radiation.Cable entry port on the housing can cause the water resistance of product to descend simultaneously; The line contact connects, and conductive area is little, connects reliable inadequately.
Deficiency at the conventional electrical connectors existence, the industry has producer that conventional electrical connectors is improved, the measure that the modified model terminal box is taked comprises: 1, adopt the good metal terminal of thermal diffusivity to replace the electrical equipment terminal, increase contact area with the soldering connected mode, 2, adopt to clamp the diode of fixedlying connected with the combination of screw, increase the reliability of connection.3, radiation fin improves heat dispersion.4, take highdensity pcb board welding manner, reduced contact resistance.
Yet still the problem of big, the poor radiation of the volume of unresolved terminal box has increased material consumption simultaneously, has strengthened material and cost of labor, the defective that production efficiency is low.
Second class: sealing sealing slimline, adopt laminar metal terminal soldering mode, volume is small and exquisite, and contact resistance reduces, and has improved thermal diffusivity, stability.Shortcoming: only rely on the heat exchange pattern heat radiation and still have deficiency.
Since photovoltaic terminal box developing direction be little to volume, save material savings, high current carrying capacity, better thermal diffusivity, so the technology that existing product adopts also has very big deficiency, also have the space of improving and innovating.
Summary of the invention
The purpose of this utility model is exactly for overcoming the deficiencies in the prior art, bigger at volume, the problem of poor radiation, a kind of design of high efficiency and heat radiation photovoltaic terminal box is provided, the radiating mode that breaks away from conventional electrical connectors and sealing sealing slimline terminal box from structure, particularly, the circuit board of terminal box adopts high thermal conductivity aluminum matrix plate soldering surface mounted element, terminal box box body and the cavity structure that dispels the heat in the reservation of aluminium base dorsal part corresponding position, adopt the metal-based layer heat to transmit and ventilating opening cross-ventilation mode simultaneously, satisfy the heat radiation requirement, make every effort to when dwindling the volume of terminal box, improve heat dispersion greatly, reduce material consumption, reduce material and cost of labor, enhance productivity.
The utility model is to realize by such technical scheme: high efficiency and heat radiation photovoltaic terminal box, comprise box body and circuit board, it is characterized in that, described box body polycrystalline substance comprises thermal window and ventilation slot, the circuit board that is installed in the box body adopts the high thermal conductivity aluminum matrix plate, high thermal conductivity aluminum matrix backboard portion is sealed on the thermal window, forms a heat radiation cavity in the box body bottom, and the heat radiation cavity communicates with ventilation slot;
Comprise protective circuit of diode on the high thermal conductivity aluminum matrix plate in the described box body, the output splicing ear is welded on two outputs of protective circuit of diode, and output splicing ear horizon glass picture symmetry adopts the inserting terminal structure;
Box body comprises box plate, surrounds rectangular inner cavity by box plate and two long sidewalls, two short side plates, and rectangular inner cavity inside is divided into front side compartment, rear side compartment and middle spacer by dividing plate again; Wherein, front side compartment, rear side compartment mirror image symmetry are provided with several input holes in the rear side compartment; Middle spacer is for installing the pedestal of high thermal conductivity aluminum matrix plate; In spacer bottom be the part of box plate, middle spacer bottom is a rectangular aperture, leaves the frame of arrangement high thermal conductivity aluminum matrix plate around the rectangular aperture, with rectangular aperture as thermal window;
Two short side plate outsides of base plate connect the transition structure part of a corresponding side respectively, and two transition structure parts connect an accessory power outlet respectively;
The bottom surface length of base plate is to being provided with two ventilation slots that communicate with rectangular aperture on the base plate; Two ventilation slots rectangular aperture two minor faces that are placed in, the mirror image symmetry;
The high thermal conductivity aluminum matrix plate is installed in the middle spacer of rectangular inner cavity, the soldering surface mounted diode of the circuit layer of high thermal conductivity aluminum matrix plate, the metal-based layer of high thermal conductivity aluminum matrix plate is corresponding with the rectangular aperture position on the base plate, there is the gap between the metal-based layer of high thermal conductivity aluminum matrix plate and the base plate lower plane, by two ventilation slots, form an air flow spaces;
The endoporus of transition structure part is used for installing the output splicing ear, and an end of output splicing ear is weld tabs end 51, and the other end is the terminal core bar; The endoporus of terminal core bar external diameter and transition structure part closely cooperates;
The weld tabs end of output splicing ear is welded on the circuit layer of high thermal conductivity aluminum matrix plate, and the terminal core bar is installed in the endoporus of transition structure part, and terminal core bar one end of output splicing ear extends in the accessory power outlet hole;
By high thermal conductivity aluminum matrix backboard side metal-based layer heat being delivered to box body bottom heat radiation cavity, being dispelled the heat with cross-ventilation by two ventilation slots, form the radiator structure of wind h and c conduction combination, is lid on the box body.
Four inputs of the protective circuit of diode of described high efficiency and heat radiation photovoltaic terminal box are connected with solar photovoltaic cell panel, two outputs of protective circuit of diode are connected with connector by the output splicing ear, make between several high efficiency and heat radiation photovoltaic terminal boxes by connector to connect, and then make cascade between several solar photovoltaic cell panels; The output splicing ear of high efficiency and heat radiation photovoltaic terminal box adopts horizon glass picture symmetry connected structure, and the cable between the solar photovoltaic cell panel adopts straight line to connect.
The printed circuit board (PCB) of high efficiency and heat radiation photovoltaic terminal box adopts the high thermal conductivity aluminum matrix plate to make, soldering surface mounted element on the circuit layer of high thermal conductivity aluminum matrix plate, dispel the heat in conjunction with the transmission of metal-based layer heat and ventilating opening cross-ventilation mode in the bottom surface of box plate and the cavity structure that dispels the heat in the reservation of high thermal conductivity aluminum matrix backboard side corresponding position.
The overall structure of described box body is by the engineering plastics injection mo(u)lding.
After in the described box body high thermal conductivity aluminum matrix plate being installed, fill out silica gel sealing in the filling of the space of middle spacer.
The beneficial effects of the utility model are, the power device surface mount is at high-efficiency heat-radiating aluminum plate circuit layer, the heat that produces during the device operation is transmitted to metal-based layer fast by insulating barrier, by metal-based layer heat is passed then, transmit and ventilating opening cross-ventilation mode in conjunction with the metal-based layer heat, satisfy the heat radiation requirement, when dwindling the volume of terminal box, improve heat dispersion greatly, the box internal volume is little, and having only 23cm3 is 30% of common terminal box; Save glue consumption; Perfect heat-dissipating; Reduced because of the damage of high temperature to diode, prolonged the useful life of diode; The installation cable is convenient, has reduced the resistance of cable, and energy output is improved greatly.Reduce material consumption, reduce material and cost of labor, enhance productivity.
Description of drawings
Fig. 1, be high efficiency and heat radiation photovoltaic terminal box explosive view;
Fig. 2, be high efficiency and heat radiation photovoltaic terminal box box portion stereogram;
Fig. 3, be the box portion front view;
Fig. 4, be the box portion upward view;
Fig. 5, be the box portion vertical view;
Fig. 6, be that the A of Fig. 4 is to view.
Among the figure: 1. box body, 2. lid, 3. high thermal conductivity aluminum matrix plate, 4. diode, 5. output splicing ear; 11. base plate, 12. long sidewalls, 13. short side plates, 14. transition structure parts, 15. input holes, 16. accessory power outlets, 17. reinforcements, 18. ventilation slots, 51. weld tabs ends, 52. terminal core bars.
Embodiment
Understand the utility model for clearer, describe the utility model in conjunction with the accompanying drawings and embodiments in detail:
Extremely shown in Figure 6 as Fig. 1, high efficiency and heat radiation photovoltaic terminal box, box body 1 polycrystalline substance comprises thermal window and ventilation slot, the circuit board that is installed in the box body adopts high thermal conductivity aluminum matrix plate 3, high thermal conductivity aluminum matrix plate 3 backs are sealed on the thermal window, form a heat radiation cavity in box body 1 bottom, the heat radiation cavity communicates with ventilation slot;
Comprise protective circuit of diode on the high thermal conductivity aluminum matrix plate 3 in the box body 1, the output splicing ear is welded on two outputs of protective circuit of diode, and output splicing ear horizon glass picture symmetry adopts the inserting terminal structure;
Box body 1 comprises box plate 11, surrounds rectangular inner cavity by box plate 11 and two long sidewalls 12, two short side plates 3, and rectangular inner cavity inside is divided into front side compartment, rear side compartment and middle spacer by dividing plate again; Wherein, front side compartment, rear side compartment mirror image symmetry are provided with four input holes 15 in the rear side compartment; Middle spacer is for installing the pedestal of high thermal conductivity aluminum matrix plate 3; In spacer bottom be the part of box plate 11, middle spacer bottom is a rectangular aperture, leaves the frame of arrangement high thermal conductivity aluminum matrix plate 3 around the rectangular aperture, with rectangular aperture as thermal window;
14, two transition structure parts 14 of transition structure part that two short side plate 13 outsides of base plate 11 connect a corresponding side respectively connect an accessory power outlet 16 respectively;
The bottom surface length of base plate 11 is to being provided with two ventilation slots 18 that communicate with rectangular aperture on the base plate 11; Two ventilation slots 18 rectangular aperture two minor faces that are placed in, the mirror image symmetry;
High thermal conductivity aluminum matrix plate 3 is installed in the middle spacer of rectangular inner cavity, the soldering surface mounted diode of the circuit layer of high thermal conductivity aluminum matrix plate 3, the metal-based layer of high thermal conductivity aluminum matrix plate 3 is corresponding with the rectangular aperture position on the base plate 11, there is the gap between the metal-based layer of high thermal conductivity aluminum matrix plate 3 and base plate 11 lower planes, by two ventilation slots 18, form an air flow spaces;
The endoporus of transition structure part 14 is used for installing output splicing ear 5, and an end of output splicing ear 5 is that weld tabs end 51, one ends are terminal core bar 52; The endoporus of terminal core bar 52 external diameters and transition structure part 14 closely cooperates;
The weld tabs end 51 of output splicing ear 5 is welded on the circuit layer of high thermal conductivity aluminum matrix plate 3, and terminal core bar 52 is installed in the endoporus of transition structure part 14, and terminal core bar 52 1 ends of output splicing ear 5 extend in accessory power outlet 16 holes;
By high thermal conductivity aluminum matrix plate 3 back side metal basic units heat being delivered to box body 1 bottom heat radiation cavity, being dispelled the heat with cross-ventilation by two ventilation slots 18, form the radiator structure of wind h and c conduction combination, is lid 2 on the box body 1.
Four inputs of the protective circuit of diode of described high efficiency and heat radiation photovoltaic terminal box are connected with solar photovoltaic cell panel, two outputs of protective circuit of diode are connected with connector by output splicing ear 5, make between several high efficiency and heat radiation photovoltaic terminal boxes by connector to connect, and then make cascade between several solar photovoltaic cell panels; The output splicing ear 5 of high efficiency and heat radiation photovoltaic terminal box adopts horizon glass picture symmetry connected structure, and the cable between the solar photovoltaic cell panel adopts straight line to connect.
The overall structure of box body 1 is by the engineering plastics injection mo(u)lding.The box internal volume is 23cm3.
After in the box body 1 high thermal conductivity aluminum matrix plate 3 being installed, fill out silica gel sealing in the filling of the space of middle spacer.
The printed circuit board (PCB) of high efficiency and heat radiation photovoltaic terminal box adopts the high thermal conductivity aluminum matrix plate to make, soldering surface mounted element on the circuit layer of high thermal conductivity aluminum matrix plate, dispel the heat in conjunction with the transmission of metal-based layer heat and ventilating opening cross-ventilation mode in the bottom surface of box plate 11 and the cavity structure that dispels the heat in the reservation of high thermal conductivity aluminum matrix backboard side corresponding position.
Characteristics of the present utility model comprise:
Volume is little easy for installation; Save material, only terminal box being installed in can be easy to operate on the backboard, can directly be connected with the MC4 connector, has solved the problem of band line inconvenient operation;
The box internal volume is little, and having only 23cm3 is about 30% of common terminal box, saves glue consumption;
Perfect heat-dissipating adopts outside heat radiation, possesses the heat sinking function between the heat that heat that terminal box produces and cell panel produce in the sun.
Diode there is good thermolysis, has reduced because of the damage of high temperature to diode, prolonged the useful life of diode.
Cable is determined the length of cable by electric power station system design, reduces cost also to have reduced the resistance of cable simultaneously, and energy output is improved greatly.
The printed circuit board (PCB) (pcb board) that present embodiment adopts the good high thermal conductivity aluminum matrix plate of thermal diffusivity to make replaces traditional electrical equipment terminal to connect diode, improve the heat sinking function of electronic devices and components, available machines used is installed electronic devices and components, has improved the quality of circuit, has improved output greatly and has saved artificial.Avoid the artificial variety of issue that in installation process, brings.
The high thermal conductivity aluminum matrix plate is the aluminium base of aluminium base industry middle and high end conductive coefficient, has 5~10 tame producers manufacturing at present in the whole world.
The heat conduction parameter of the high thermal conductivity aluminum matrix plate that present embodiment adopts is:
Copper Foil: Copder foil 1OZ cathode copper;
Heat-conducting glue: 0.8 ℃/W of 60um thermal resistance;
Aluminium sheet: Aluminum sheet 1.5MM ± 10% 1060 series;
Product performance:
Thermal resistance: 0.175 ℃/W(low thermal resistance); (resistance that heat runs at heat flow path, the size of the heat-transfer capability between reflection medium or medium has shown the caused temperature rise size of 1W heat, unit is ℃/W or K/W.)
Conductive coefficient: 2.5-3.0 1.0 W/m.k; (conductive coefficient represents with λ, and unit is watt/Mi Du, w/mk).
Anti-immersed solder: seconds 288 ℃, 120 seconds are not stratified, non-foaming, 288 ℃ 120 seconds;
Puncture voltage: 4.6KV-6KV 4.6KV.
Adopt stamp-mounting-paper diode that diode is in operation and produce heat by outside the high thermal conductivity aluminum matrix sheet material material pcb board derivation box, prolonged the useful life of diode, the temperature that has remedied the generation in service in box of traditional diode raises and to make diode shorten problem useful life.
Adopted stamp-mounting-paper diode, avoided traditional diode that manually in the process that diode is installed, occurs with splicing ear tie point unsteadiness, the resistance elevated temperature is raise cause burning of diode damage and terminal box, avoid conventional diode in the appearance quality problems of the course of processing.
The pcb board that present embodiment has adopted the high thermal conductivity aluminum matrix plate to make dispels the heat outside box, dwindles box body and saves material.Changed the problem of heat radiation in traditional large large space.Taked the welding manner of input terminal to reduce resistance and improved electric conductivity, that has avoided that traditional clamped-in style uses jump ring under long-time high temperature looseningly makes tie point loose contact resistance increase electric energy decline increase in temperature to burn terminal box.
Present embodiment has adopted the heat-conducting glue closed circuit, and heat radiation is dustproof, water-proof function.Avoid the conventional seals circle at high temperature to make the aging distortion of sealing ring for a long time and lost sealing function, cause the damage of electronic devices and components that cell panel can't be used.
Adopted box body two ends lead-out terminal to connect.The solar power system cell panel is connected to form straight line between the cell panel, saved the middle connector of cable and cable.Changed traditional cell panel and connected with the U-shaped Belt connector of cell panel and cause that cable is long, resistance is big, the circuit system performance is reduced.
Adopted the output of terminal box two ends to connect.Solved conventional electrical connectors and at the band line inconvenient problem has been installed.This terminal box also can be installed with pipeline machine, improves output, saves artificial.
According to the above description, can realize scheme of the present utility model in conjunction with art technology.

Claims (4)

1. high efficiency and heat radiation photovoltaic terminal box, comprise box body (1) and circuit board, it is characterized in that, described box body (1) polycrystalline substance comprises thermal window and ventilation slot, the circuit board that is installed in the box body adopts high thermal conductivity aluminum matrix plate (3), high thermal conductivity aluminum matrix plate (3) back is sealed on the thermal window, forms a heat radiation cavity in box body (1) bottom, and the heat radiation cavity communicates with ventilation slot;
Comprise protective circuit of diode on the high thermal conductivity aluminum matrix plate (3) in the described box body (1), the output splicing ear is welded on two outputs of protective circuit of diode, and output splicing ear horizon glass picture symmetry adopts the inserting terminal structure;
Box body (1) comprises box plate (11), surrounds rectangular inner cavity by box plate (11) and two long sidewalls (12), two short side plates (3), and rectangular inner cavity inside is divided into front side compartment, rear side compartment and middle spacer by dividing plate again; Wherein, front side compartment, rear side compartment mirror image symmetry are provided with several input holes (15) in the rear side compartment; Middle spacer is for installing the pedestal of high thermal conductivity aluminum matrix plate (3); In spacer bottom be the part of box plate (11), middle spacer bottom is a rectangular aperture, leaves the frame of arrangement high thermal conductivity aluminum matrix plate (3) around the rectangular aperture, with rectangular aperture as thermal window;
Two short side plates (13) outside of base plate (11) connects the transition structure part (14) of a corresponding side respectively, and two transition structure parts (14) connect an accessory power outlet (16) respectively;
The bottom surface length of base plate (11) is to being provided with two ventilation slots (18) that communicate with rectangular aperture on the base plate (11); Two ventilation slots (18) rectangular aperture two minor faces that are placed in, the mirror image symmetry;
High thermal conductivity aluminum matrix plate (3) is installed in the middle spacer of rectangular inner cavity, the soldering surface mounted diode of circuit layer of high thermal conductivity aluminum matrix plate (3), the metal-based layer of high thermal conductivity aluminum matrix plate (3) is corresponding with the rectangular aperture position on the base plate (11), there is the gap between the metal-based layer of high thermal conductivity aluminum matrix plate (3) and base plate (11) lower plane, by two ventilation slots (18), form an air flow spaces;
The endoporus of transition structure part (14) is used for installing output splicing ear (5), and an end of output splicing ear (5) is weld tabs end (51), and an end is terminal core bar (52); The endoporus of terminal core bar (52) external diameter and transition structure part (14) closely cooperates;
The weld tabs end (51) of output splicing ear (5) is welded on the circuit layer of high thermal conductivity aluminum matrix plate (3), terminal core bar (52) is installed in the endoporus of transition structure part (14), and terminal core bar (52) one ends of output splicing ear (5) extend in accessory power outlet (16) hole;
By high thermal conductivity aluminum matrix plate (3) back side metal basic unit heat is delivered to box body (1) bottom heat radiation cavity, is dispelled the heat with cross-ventilation by two ventilation slots (18), form the radiator structure of wind h and c conduction combination, box body (1) is gone up and is lid (2);
Four inputs of the protective circuit of diode of described high efficiency and heat radiation photovoltaic terminal box are connected with solar photovoltaic cell panel, two outputs of protective circuit of diode are connected with connector by output splicing ear (5), make between several high efficiency and heat radiation photovoltaic terminal boxes by connector to connect, and then make cascade between several solar photovoltaic cell panels; The output splicing ear (5) of high efficiency and heat radiation photovoltaic terminal box adopts horizon glass picture symmetry connected structure, and the cable between the solar photovoltaic cell panel adopts straight line to connect.
2. high efficiency and heat radiation photovoltaic terminal box as claimed in claim 1 is characterized in that, the overall structure of box body (1) is by the engineering plastics injection mo(u)lding, and the box internal volume is 23cm3.
3. high efficiency and heat radiation photovoltaic terminal box as claimed in claim 1 or 2 is characterized in that, behind the installation high thermal conductivity aluminum matrix plate (3), fills out silica gel sealing in the filling of the space of middle spacer in the box body (1).
4. high efficiency and heat radiation photovoltaic terminal box as claimed in claim 1 or 2 is characterized in that, is provided with four input holes (15) in the rear side compartment.
CN 201320204866 2013-04-22 2013-04-22 High-efficient radiation solar PV junction box Expired - Fee Related CN203192820U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201320204866 CN203192820U (en) 2013-04-22 2013-04-22 High-efficient radiation solar PV junction box

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201320204866 CN203192820U (en) 2013-04-22 2013-04-22 High-efficient radiation solar PV junction box

Publications (1)

Publication Number Publication Date
CN203192820U true CN203192820U (en) 2013-09-11

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201320204866 Expired - Fee Related CN203192820U (en) 2013-04-22 2013-04-22 High-efficient radiation solar PV junction box

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103199135A (en) * 2013-04-22 2013-07-10 马俊龙 Heat-dissipation-efficient solar photovoltaic junction box
CN105207609A (en) * 2015-03-13 2015-12-30 常州天合光能有限公司 Ventilation and heat dissipation intelligent junction box
CN109604756A (en) * 2018-12-25 2019-04-12 京信通信系统(中国)有限公司 Welding procedure applied to connecting terminal and coaxial cable welding

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103199135A (en) * 2013-04-22 2013-07-10 马俊龙 Heat-dissipation-efficient solar photovoltaic junction box
CN105207609A (en) * 2015-03-13 2015-12-30 常州天合光能有限公司 Ventilation and heat dissipation intelligent junction box
CN105207609B (en) * 2015-03-13 2018-05-15 天合光能股份有限公司 Ventilation cooling's intelligent terminal box
CN109604756A (en) * 2018-12-25 2019-04-12 京信通信系统(中国)有限公司 Welding procedure applied to connecting terminal and coaxial cable welding

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C17 Cessation of patent right
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Granted publication date: 20130911

Termination date: 20140422