CN209344492U - A kind of termination in parallel of solar battery simulator - Google Patents

Abstract

The utility model discloses a kind of termination in parallel of solar battery simulator, including wiring monomer, wiring monomer includes deformation module and extruding module；Deformation module includes fixed plate, and the two sides of fixed plate are respectively the first face and the second face, at least two elastic components is evenly distributed on the first face, the end of elastic component has force block, has slope surface on force block, slope surface is inwardly；Squeezing module includes first end and second end, and second end is connect with locking module；Locking module can push extruding module, so that its first end is squeezed slope surface, each elastic component is strutted outward.The power supply positive/negative of two groups of solar battery simulators quickly, effectively and easily can be carried out circuit connection by wiring monomer by the utility model, be not necessarily to many and diverse operation, convenient and time-saving laborsaving, reduced operation and required.

Description

A kind of termination in parallel of solar battery simulator

Technical field

The utility model relates to distribution analogue technique field, especially a kind of solar battery simulator and tie fill It sets.

Background technique

The corresponding high power density solar battery simulator of the utility model (or abbreviation solar battery simulator) is A exquisite appearance, the once-through type programmable power supply that small in size, performance is high, powerful, easy to operate.Suitable for space flight and state The test macro of the industries such as anti-, consumer electronics product, computer and peripheral hardware, communication, semiconductor, solar energy and automotive electronics In.In in equipment use process, when the voltage of separate unit power supply or electric current are unable to meet demand, can by 2 series connection or The bigger voltage of most 5 satisfactions in parallel, current needs.During the wiring of more solar battery simulator parallel connections, need The output cathode of all power supplys is linked together, and is connected to load, while needing to connect the output negative pole of all power supplys Together, and it is connected to load.But it when the corresponding binding post of each power supply is attached in practice, needs electric wire wire Head peels off longer length, and needs to carry out auxiliary installation by tools such as screwdriver, pliers and fix.Due to most of situation Need by screw tightening, but the new arrangement column joint after being used for a long time, due to a possibility that corroding, cause to be difficult to unscrew and Replace the end of a thread.Therefore, all have the defects that inconvenient, operation takes time and effort either early period and later period of wiring.

Utility model content

The purpose of this section is to summarize some aspects of the embodiments of the present invention and briefly introduce it is some preferably Embodiment.It may do a little simplified or be omitted to avoid making in this section and the description of the application and the title of the invention The purpose of this part, abstract of description and denomination of invention is fuzzy, and this simplification or omission cannot be used for limitation the utility model Range.

The problem of in view of above-mentioned and/or existing solar battery simulator parallel way, proposes practical It is novel.

Therefore, the one of purpose of the utility model be to provide a kind of solar battery simulator and tie fill It sets, effectively, quickly and conveniently the output positive/negative of all power supplys can link together.

In order to solve the above technical problems, the utility model provides the following technical solutions: a kind of solar battery simulator Termination in parallel comprising wiring monomer, wiring monomer includes deformation module, including fixed plate, the two sides point of fixed plate Not Wei the first face and the second face, at least two elastic components are evenly distributed on the first face, the end of elastic component has force block, by There is slope surface, slope surface is inwardly on power block；And module, including first end and second end are squeezed, second end and locking module connect It connects；Locking module can push extruding module, so that its first end is squeezed slope surface, each elastic component is strutted outward.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: It squeezes module and centre is coated on by the force block of each elastic component and its end, the second end for squeezing module has opening for indent Mouthful；Locking module includes that one end passes through fixed plate and catch bar in insertion opening and the rotation for being fixed on the catch bar other end Head has the perforation for being matched with catch bar outer diameter in fixed plate.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: It is fixed with the first retention bead on the lateral wall of catch bar, is fixed with arc convex on the first face, in arc convex insertion opening, And the center of circle of its circular arc is located on the axis of catch bar；When pushing catch bar and being rotated, the first retention bead can be shelved On the outer end face of arc convex.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: It is fixed with centrosymmetric two the first retention beads on the lateral wall of catch bar, is fixed with centrosymmetric two on the first face Arc convex；When in the interval that the first retention bead is located at two neighboring arc convex, the first end and slope surface of module are squeezed Contact, does not generate extruding.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: There is the fan-shaped mark corresponding to arc convex profile and angle on second face；Specific strip bulge on the outer surface of swivel head, Strip bulge corresponds to the position of the first retention bead.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: Opening includes the first section and the second section for overlapping and being connected to, and the cross section of the two is circle；First section it is interior Diameter is greater than the second section, and one end in catch bar insertion opening is fixed with extrusion head, and extrusion head is limited in the first section, and energy Axial-rotation on the other side enough occurs.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: There is bar shaped interval between adjacent elastic component；Squeezing has the second limit convex for being matched with bar shaped interval on the lateral wall of module It rises, opposite sliding can occurred at intervals in bar shaped in the second retention bead.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: The periphery for squeezing module is cased with rebound module, and the one end for springing back module is against on the medial surface of force block, and the other end is against second In retention bead；It squeezes and is evenly distributed at least two second retention beads on the lateral wall of module.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: Wiring monomer two having the same, and connected between the fixed plate of two wiring monomers by conducting wire.

A kind of preferred embodiment of termination in parallel as solar battery simulator described in the utility model, in which: It further include Wiring module；Wiring module includes the lever piece positioned at the thread segment of one end and positioned at the other end, tool among the two There is extruded segment；There is the screw hole for being matched with thread segment in fixed plate.

The utility model has the beneficial effects that the utility model can be quick, effective by wiring monomer and easily by two The power supply positive/negative of group solar battery simulator carries out circuit connection, is not necessarily to many and diverse operation, convenient and time-saving laborsaving, reduces behaviour It is required.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the utility model Example, for those of ordinary skill in the art, without any creative labor, can also be according to these attached drawings Obtain other attached drawings.Wherein:

Fig. 1 is the structure chart of two groups of solar battery simulator parallel connections in the utility model；

Fig. 2 is the wiring monomer structure figure in the utility model；

Fig. 3 is the deformation module structure chart and its partial structurtes detail drawing in the utility model；

Fig. 4 is the extruding function structure chart in the utility model；

Fig. 5 is the locking module structure chart in the utility model；

Fig. 6 is the overall top view after the wiring monomer in the utility model is connect with binding post；

Fig. 7 is the whole sectional view and Wiring module after the wiring monomer in the utility model is connect with binding post Fragmentary detail view；

Fig. 8 is the termination overall structure figure in parallel of the solar battery simulator in the utility model.

Specific embodiment

It is attached below with reference to specification to keep the above objects, features, and advantages of the utility model more obvious and easy to understand Figure is described in detail specific embodiment of the present utility model.

Many details are explained in the following description in order to fully understand the utility model, but this is practical new Type can also be implemented using other than the one described here other way, and those skilled in the art can be without prejudice to this reality With doing similar popularization in the case where novel intension, therefore the utility model is not limited by the specific embodiments disclosed below.

Secondly, " one embodiment " or " embodiment " referred to herein, which refers to, may be included at least one reality of the utility model A particular feature, structure, or characteristic in existing mode." in one embodiment " that different places occur in the present specification is not The same embodiment is referred both to, nor the individual or selective embodiment mutually exclusive with other embodiments.

Solar battery simulator is a kind of once-through type programmable power supply, is suitable for space flight and national defence, consumer electronics produce In the test macro of industries such as product, computer and peripheral hardware, communication, semiconductor, solar energy and automotive electronics.In practice, usually There is the voltage of separate unit power supply or electric current the case where being unable to meet demand, thus can by 2 series connection or it is most 5 it is in parallel Mode meets bigger voltage, current needs.

During the wiring of more solar battery simulator parallel connections, the output cathode by all power supplys is needed to be connected to Together, and it is connected to load, while needs to link together the output negative pole of all power supplys, and be connected to load, in the process certainly Also line is checked, it is ensured that be not shorted between positive and negative.

It referring to Fig.1 ~ 8, is one embodiment of the utility model, this embodiment offers a kind of solar battery simulators Termination in parallel, effectively, quickly and conveniently the output positive/negative of all power supplys can be linked together.

The termination in parallel of the solar battery simulator includes wiring monomer.Wiring monomer includes deformation module 100, module 200 and locking module 300 are squeezed.

Wherein, deformation module 100 includes fixed plate 101 and elastic component 102.Fixed plate 101 is golden by solid-state that can be conductive (preferably copper, aluminium) is made in category, is plate structure.The two sides of fixed plate 101 are respectively the first face A and the second face B, the first face It is evenly distributed at least two elastic components 102 on A, specifically, elastic component 102 can have multiple simultaneously, and is uniformly distributed in On a circumference of first face A.Elastic component 102 uses laterally as the batten of cambered surface, can regard a tube-in-tube structure as by between Every being divided into several battens, and " interval " between adjacent elastic component 102 is bar shaped interval 106.In the present invention, Elastic component 102 has certain lateral elasticity deformability, and when effect by lateral force can bend, and remove outer It can restore after power as former state.Preferably, elastic component 102 is using the conductive metal with toughness.

The end of elastic component 102 has block-like force block 103, has slope surface 103a, slope surface 103a court on force block 103 Interior (the accommodating space M enclosed towards each elastic component 102 and force block 103).Therefore, according to the position of power and making With the component effect on point, when using the slope surface 103a of other structures transverse shear stress force block 103, each 102 energy of elastic component It is enough softened, bore support is big.

The outer surface for squeezing module 200 can be to be cylindric, by each elastic component 102 and its force block 103 of end It is coated in intermediate accommodating space M.The both ends for squeezing module 200 are respectively first end 201 and second end 202, second end 202 It is contacted with the connection of locking module 300, first end 201 with slope surface 103a, therefore, extrusion die can be pushed by locking module 300 Block 200 makes its first end 201 squeeze slope surface 103a, and each elastic component 102 is strutted outward.Squeeze module 200 and locking mould The nonmetallic materials that block 300 is all made of hard are made, cannot be conductive.

Further, the second end 202 for squeezing module 200 has the opening 202a of indent.Locking module 300 includes pushing One end of bar 301 and swivel head 302, catch bar 301 passes through in fixed plate 101 and insertion opening 202a, and is against opening 202a Inner face on, the fixed swivel head 302 of the other end of catch bar 301, swivel head 302 is located at the second face B mono- of fixed plate 101 Side.It is to be noted that there is the perforation 101a for being matched with 301 outer diameter of catch bar in fixed plate 101, and catch bar 301 passes through Perforation 101a, and opposite sliding can occur and relatively rotate.

In the present invention, locking module 300 enables to elastic component 102 to be squeezed after die block 200 struts and keeps steady Fixed and lock state, concrete scheme are as follows:

It is convex knot that first retention bead 301a(the first retention bead 301a is fixed on the lateral wall of catch bar 301 Structure, and there are two tools, it is distributed in being centrosymmetric on the lateral wall of catch bar 301)；It is corresponding, it is solid on the first face A Surely there is arc convex 104, arc convex 104 is the bulge-structure of arc-shaped track, it is preferred that its arc length is 1/4 circular arc.Arc In 104 insertion opening 202a of protrusion, and the center of circle of its circular arc is located on the axis of catch bar 301.In the present invention, first There are two centrosymmetric arc convex 104 for distribution on the A of face.The utility model setting, when the first retention bead 301a is located at phase When in the interval between adjacent two arc convex 104, the first end 201 for squeezing module 200 is contacted with slope surface 103a, is not generated crowded Pressure；When pushing catch bar 301 and being rotated, the first retention bead 301a can be shelved on the outer end face of arc convex 104, And the first end 201 for squeezing module 200 can strut each elastic component 102.

In the present invention, the power supply output cathode of solar battery simulator is the binding post 701 of anode, power supply Output negative pole is the binding post 702 of cathode, and positive binding post 701 is identical as 702 structure of binding post of cathode, and all has use In the connecting hole 704 being attached with wiring monomer 703.The utility model setting: the entirety of elastic component 102 is enclosed outer Diameter is slightly less than 704 internal diameter of connecting hole of binding post when not being squeezed effect, and can guarantee that elastic component 102 can be whole It is inserted into connecting hole 704.When elastic component 102 compression be softened after can be fitted close with connecting hole 704, formed consolidate, Compactly it is fixedly connected.

For the visualized operation convenient for construction personnel to locking module 300, it is convenient for determining and control locking module 300 is to crowded The lock state of die block 200, the utility model have following technical solution:

With the fan-shaped mark 105 corresponding to 104 profile of arc convex and angle on second face B, i.e., the two is in transverse direction Angular range having the same and position in projection.Meanwhile specific strip bulge 302a, bar shaped on the outer surface of swivel head 302 Raised 302a corresponds to the position of the first retention bead 301a in lateral projection, preferably, the centre of strip bulge 302a Protrusion makes its lateral surface form convex outward, convenient for operating and rotating swivel head 302.

It will be apparent that it is initial under natural conditions, the first retention bead 301a is located at two neighboring arc convex 104 Between interval in, and contact, and squeeze the first end 201 of module 200 and slope surface 103a is contacted, do not generate crowded with the first face A Pressure.If pushing swivel head 302, so that the first retention bead 301a is detached from the lateral restriction of arc convex 104, then rotation rotation Due to not having the constraint of transverse rotation between catch bar 301 and extruding module 200 relative rotation can occur for head 302() First retention bead 301a is shelved on the outer end face of arc convex 104, i.e., the two has in lateral projection The part of coincidence.

Further, opening 202a includes the first section 202a-1 and the second section 202a-2 for overlapping and being connected to, The cross section of the two is circle.Wherein, the internal diameter of the first section 202a-1 is greater than the second section 202a-2, and catch bar 301 The end point of one end is fixed with extrusion head 301b in insertion opening 202a, and extrusion head 301b is to be matched with the first section 202a-1 knot The flat rod structure of structure, and be limited in the first section 202a-1, and axial-rotation on the other side can occur.

It squeezes and is fixed with the second retention bead 203 for being matched with bar shaped interval 106 on the lateral wall of module 200, the second limit Position protrusion 203 can have it is multiple, and be uniformly distributed in squeeze module 200 lateral wall on.Each second retention bead 203 is divided Not Qian Ru in the bar shaped interval 106 of corresponding position, can bar shaped interval 106 occur it is opposite slide, guarantee to squeeze module 200 not It rotates.

Further, the periphery for squeezing module 200 is cased with rebound module 400, and rebound module 400 uses compressed spring, One end is against on the medial surface of force block 103, and the other end is against in the second retention bead 203, can guarantee that squeezing module 200 exists It is fitted under original state on the first face A, activity does not occur.Therefore, the second retention bead 203 not only guaranteed extruding here The effect of 200 linear slide of module also has the function of transmitting rebound 400 pressure of module.It is dismantled when from binding post 701,702 When wiring monomer 703, rebound module 400 can also be convenient for the reset of extruding module 200, locking module 300.

In the present invention, wiring monomer 703 having the same two, and the fixed plate of two wiring monomers 703 (101) it is connected between by conducting wire 500.

The termination in parallel of the solar battery simulator further includes Wiring module 600 comprising is located therein one The outer surface of the thread segment 601 at end and lever piece 602 positioned at the other end, thread segment 601 has external screw thread, using conductive gold Category is made.For lever piece 602 for can be manually rotated and operate Wiring module 600, surface can have fin, to enhance friction, Lever piece 602 can be made of non electrically conductive material, such as plastics.The centre of thread segment 601 and lever piece 602 has extruded segment 603, extruded segment is laminated structure.

There is the screw hole 101b for being matched with thread segment 601, Wiring module 600 can pass through thread segment 601 in fixed plate 101 Cooperation with screw hole 101b screws in screw hole 101b, is formed and is fixed.Wiring module 600 can be used for connecting power -line terminal and bear It carries.Specifically, connecting live wire between load and Wiring module 600, wherein one end of electric wire is wound on thread segment 601, then Thread segment 601 is screwed in into screw hole 101b, so that electric wire and Wiring module 600 and deformation module 100 form conductive path, electric wire The other end access load.Therefore, the electric current from power -line terminal is introduced into deformation module 100, then passes through Wiring module 600 enter electric wire, final to import in load.

It is important that, it should be noted that the construction and arrangement of the application shown in multiple and different exemplary implementation schemes is only It is illustrative.Although several embodiments are only described in detail in this disclosure, refering to the personnel of the displosure content It should be easily understood that many changes under the premise of substantially without departing from the novel teachings and advantage of theme described in this application Type is possible (for example, the size of various elements, scale, structure, shape and ratio and parameter value, mounting arrangements, material Use, color, the variation of orientation etc.).For example, being shown as integrally formed element can be made of multiple portions or element, The position of element can be squeezed or change in other ways, and the property of discrete component or number or position can be modified or change Become.Therefore, all such remodeling are intended to be comprised in the scope of the utility model.It can be changed according to the embodiment of substitution Become or the order or sequence of resequence any process or method and step.In the claims, the item of any " device adds function " Money, which is intended to, is covered on the structure described herein for executing the function, and is not only structure and is equal but also is equivalent knot Structure.It, can be in the design, operation conditions and arrangement of exemplary implementation scheme under the premise of without departing substantially from the scope of the utility model In make other replacement, remodeling, change and omit.Therefore, the utility model is not limited to specific embodiment, but extends To a variety of remodeling still fallen within the scope of the appended claims.

In addition, all spies of actual implementation scheme can not be described in order to provide the terse description of exemplary implementation scheme Sign (that is, those incoherent features of optimal mode with the execution the utility model currently considered, or in realization the utility model Those incoherent features).

It should be noted that above embodiments are merely intended for describing the technical solutions of the present application, but not for limiting the present application, although reference The utility model is described in detail in preferred embodiment, those skilled in the art should understand that, it can be to this reality It is modified or replaced equivalently with novel technical solution, without departing from the spirit and scope of the technical scheme of the present invention, It should all cover in the scope of the claims of the utility model.

Claims (10)

1. a kind of termination in parallel of solar battery simulator, it is characterised in that: including wiring monomer, the wiring monomer Including,

Deformation module (100), including fixed plate (101), the two sides of the fixed plate (101) are respectively the first face (A) and Two faces (B) are evenly distributed at least two elastic components (102) on first face (A), the end tool of the elastic component (102) Have force block (103), there is slope surface (103a) on the force block (103), the slope surface (103a) is inwardly；And

It squeezes module (200), including first end (201) and second end (202), the second end (202) and locking module (300) Connection；The locking module (300) can push the extruding module (200), its first end (201) is made to squeeze the slope surface (103a) struts each elastic component (102) outward.

2. the termination in parallel of solar battery simulator as described in claim 1, it is characterised in that: the extruding module (200) centre is coated on by the force block (103) of each elastic component (102) and its end, it is described squeeze module (200) second Hold (202) that there is the opening (202a) of indent；

The locking module (300) includes the promotion that one end passes through the fixed plate (101) and is inserted into the opening (202a) Bar (301) and the swivel head (302) for being fixed on the catch bar (301) other end have cooperation on the fixed plate (101) In the perforation (101a) of the catch bar (301) outer diameter.

3. the termination in parallel of solar battery simulator as claimed in claim 2, it is characterised in that: the catch bar (301) it is fixed on lateral wall the first retention bead (301a), is fixed with arc convex (104), institute on first face (A) It states arc convex (104) to be inserted into the opening (202a), and the center of circle of its circular arc is located at the axis of the catch bar (301) On；

When pushing the catch bar (301) and being rotated, first retention bead (301a) can be shelved on arc convex (104) on outer end face.

4. the termination in parallel of solar battery simulator as claimed in claim 2 or claim 3, it is characterised in that: the promotion It is fixed with centrosymmetric two the first retention beads (301a) on the lateral wall of bar (301), is fixed on first face (A) Centrosymmetric two arc convex (104)；

When in the interval that first retention bead (301a) is located at two neighboring arc convex (104), the extruding module (200) first end (201) is contacted with slope surface (103a), does not generate extruding.

5. the termination in parallel of solar battery simulator as claimed in claim 4, it is characterised in that: second face (B) there is the fan-shaped mark (105) corresponding to the arc convex (104) profile and angle on；

Specific strip bulge (302a) on the outer surface of the swivel head (302), the strip bulge (302a) correspond to described The position of first retention bead (301a).

6. claim 2 ~ 3 or 5 it is any as described in solar battery simulator termination in parallel, it is characterised in that: institute Stating opening (202a) includes the first section (202a-1) and the second section (202a-2) for overlapping and being connected to, the two it is transversal Face is circle；

The internal diameter of first section (202a-1) is greater than the second section (202a-2), opens described in catch bar (301) insertion One end in mouth (202a) is fixed with extrusion head (301b), and the extrusion head (301b) is limited to first section (202a-1) It is interior, and axial-rotation on the other side can occur.

7. the termination in parallel of solar battery simulator as claimed in claim 6, it is characterised in that: the adjacent bullet Property part (102) between there are bar shaped interval (106)；

There is the second retention bead for being matched with the bar shaped interval (106) on the lateral wall for squeezing module (200) (203), in the bar shaped interval (106) opposite sliding can occur for second retention bead (203).

8. the termination in parallel of solar battery simulator as claimed in claim 7, it is characterised in that: the extruding module (200) periphery is cased with rebound module (400), and one end of rebound module (400) is against the inside of the force block (103) On face, the other end is against on second retention bead (203)；

It squeezes and is evenly distributed at least two second retention beads (203) on the lateral wall of module (200).

9. the termination in parallel of the solar battery simulator as described in claim 1 ~ 3,5,7 or 8 are any, feature exist In: two having the same of the wiring monomer, and connected between the fixed plate (101) of two wiring monomers by conducting wire (500) It connects.

10. the termination in parallel of solar battery simulator as claimed in claim 9, it is characterised in that: further include wiring Module (600)；

The Wiring module (600) includes the thread segment (601) positioned at one end and lever piece (602) positioned at the other end, and two There are extruded segment (603) among person；

There is the screw hole (101b) for being matched with the thread segment (601) on the fixed plate (101).