CN102237504A - Battery connecting guide sheet - Google Patents

Abstract

A battery connecting guide sheet used for electrically connecting with a plurality of batteries, comprises a first sheetbody and a second sheetbody. The second sheetbody is attached on the first sheetbody and is physically and electrically connected with the first sheetbody. The second sheetbody is provided with a plurality of punched holes. The second sheetbody has larger conductivity and larger thickness than the first sheetbody, and the first sheetbody is physically and electrically connected with electrodes of the batteries. The battery connecting guide sheet formed by using mutual connection of two metal materials with different thickness and characteristics can effectively reduce the difficulty of welding the batteries and the guide sheet, and can allow a larger current in the processes of charge/discharge of batteries and facilitate rapid cooling in the processes of charge/discharge of batteries.

Description

Battery connects guide card

Technical field

The present invention relates to a kind of battery and connect guide card, relate in particular to a kind of utilization neither the battery made of same material connect guide card.

Background technology

Battery, be generally used on the portable mobile device, for making the battery of general capacity can supply large-scale mobile device required electric power, as: electric motor car, certainly will or be connected in parallel a plurality of battery series connection, forming one can be for the battery module of high current charge-discharge.Generally with the battery serial connection or and the wherein method that connects be to utilize one to connect the guide card cross-over connection between the electrode of adjacent two batteries, and utilize welding manner to connect this connections guide card and these a plurality of batteries form a current circuit.

Cooperate and consult Fig. 8, connect the stereogram and use schematic diagram of guide card for existing battery.The material of general battery 200 housings (comprising the electrode part) is generally pure nickel, iron nickel plating or aluminium, mainly directly contacts with extraneous in order to the active material of avoiding battery 200 inside; If directly use connects guide card 100 with the battery of the identical material of battery 200 housings, its advantage is that electrode 210 welds easily with being connected guide card 100, but because the conductivity of above-mentioned material is relatively poor, so and be not suitable in the battery module of high current charge-discharge.

The general normal battery that is used in the high current charge-discharge battery module connects guide card 100 for copper material, because the conductivity of copper material itself is good; Because the big electric current when needing the supply battery module to discharge and recharge passes through, and therefore must increase the thickness that copper connects guide card, more to promote the characteristic of its conduction, has increased battery 200 and has been connected 100 liftings of welding difficulty of guide card and the increase of thickness is corresponding also.Its main cause is when the thickness that connects guide card 100 increases, required electric current needs relative healing greatly during welding, and weld stress also need be healed greatly, so cause the control of process parameters degree of difficulty to promote, and fusion temp required during welding is also difficult concentrated because of the big temperature that causes of area of heat radiation, and then makes welding quality wayward.

In addition, because copper itself also has good thermal conductivity, therefore in welding process, copper can be got rid of its surperficial temperature apace, therefore causes temperature to be difficult for the problem of concentrating in welding process, improves the difficulty of welding.

Therefore, how to provide one to have satisfactory electrical conductivity, thermal conductivity and the battery that is easy to be connected with battery 200 connects guide card 100 in the battery module of high current charge-discharge, desire most ardently for industry at present and overcome and improved problem.

Prior art

50 batteries

52 electrodes

60 connect guide card

The present invention

10 batteries connect guide card

110 first lamellar bodies

112 protuberances

120 second lamellar bodies

122 perforation

124 kinks

20 batteries

22 electrodes

Summary of the invention

In view of prior art described, a purpose of the present invention is to provide a kind of battery to connect guide card, and this battery connects guide card in order to a plurality of batteries of serial or parallel connection, forming a current circuit, and this battery connects guide card itself and has good electrical conductivity, thermal conductivity and be easy to and advantages such as battery is connected.

To achieve these goals, the invention provides a kind of battery and connect guide card in order to be electrically connected a plurality of batteries, this battery connects guide card and comprises one first lamellar body and one second lamellar body.This second lamellar body is attached on this first lamellar body, forms entity and electric connection with this first lamellar body, and is formed with a plurality of perforation on this second lamellar body; Wherein, the conductivity of this second lamellar body is greater than this first lamellar body, and the thickness of this second lamellar body is greater than this first lamellar body, and this first lamellar body entity and the electrode that is electrically connected at these a plurality of batteries.

The present invention utilizes thickness, two metal materials that characteristic is different to be bonded with each other to form a battery and connects guide card, except that can effectively reducing battery and the welding difficulty that is connected between guide card, the big electric current in the time of can discharging and recharging for battery in addition by and the quick dissipation of heat when helping battery charging and discharging.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is the three-dimensional exploded view that the battery of first embodiment of the invention connects guide card;

Fig. 2 is the three-dimensional exploded view that the battery of second embodiment of the invention connects guide card;

Fig. 3 is the cutaway view that the battery of second embodiment of the invention connects guide card;

Fig. 4 is the connection diagram that the battery of second embodiment of the invention connects guide card and battery;

Fig. 5 is the battery connection guide card of second embodiment of the invention and the cutaway view that is connected of battery;

Fig. 6 is the use schematic diagram that the battery of third embodiment of the invention connects guide card;

Fig. 7 is the stereogram that the battery of fourth embodiment of the invention connects guide card;

Fig. 8 is the stereogram that existing battery connects guide card.

Wherein, Reference numeral

Embodiment

Below in conjunction with accompanying drawing structural principle of the present invention and operation principle are done concrete description:

Cooperate and consult Fig. 1, connect the three-dimensional exploded view of guide card for the battery of first embodiment of the invention.It is in order to be electrically connected a plurality of batteries, to form a current circuit that supplies battery to discharge and recharge that this battery connects guide card 10.This battery connects guide card 10 and comprises one first lamellar body 110 and one second lamellar body 120, and this first lamellar body 110 all uses metal material to make with this second lamellar body 120.

Be formed with a plurality of perforation 122 on this second lamellar body 120, do in order to improve the radiating effect of this second lamellar body 120 by thermal convection; This first lamellar body 110 is attached at a wherein surface of this second lamellar body 120, and these a plurality of perforation 122 of sealing, and this second lamellar body 120 forms with this first lamellar body 110, and entity (body) is connected and electric connection.

This first lamellar body 110 is mainly in order to electrically connecting with these a plurality of batteries 20, the current circuit when providing these a plurality of batteries 20 to discharge and recharge.Big electric current when this second lamellar body 120 is mainly used and charged and discharged for these a plurality of batteries 20 passes through, and this a plurality of batteries 20 1 heat conducting paths are provided.

Cooperate and consult Fig. 2 and Fig. 3, the battery that is respectively second embodiment of the invention connects the three-dimensional exploded view and the end view of guide card.This battery connects guide card 10 and comprises one first lamellar body 110 and one second lamellar body 120, and this first lamellar body 110 all uses metal material to make with this second lamellar body 120, and is formed with a plurality of protuberances 112 on this first lamellar body 110.

This first lamellar body 110 is attached at a wherein surface of this second lamellar body 120, and forms the entity connection and electrically connect; Be formed with a plurality of perforation 122 on this second lamellar body 120, and these a plurality of perforation 122 are and these a plurality of protuberance 112 corresponding settings, and the direction that protrudes out of these a plurality of protuberances 112 is to be in reverse to this a plurality of perforation 122.In addition, this second lamellar body 120 also includes a kink 124, and this kink 124 can electrically connect in order to the circuit board with the outside.

Cooperate and consult Fig. 4 and Fig. 5, be respectively use schematic diagram and cutaway view that battery of the present invention connects guide card.This first lamellar body 110 uses ferromagnetism (ferromagnetism) lamellar body, as: iron (Fe), cobalt (Co), nickel (Ni) or its alloy, in present embodiment, this first lamellar body 110 is a pure nickel.The protuberance 112 of this first lamellar body 110 mainly forms entity and electric connection in order to the electrode 22 with these a plurality of batteries 20, so that this current circuit that a plurality of batteries one discharge and recharge to be provided.Wherein this first lamellar body 110 and battery 20 can use to resistance welded, spot welding, scolding tin welding or ultrasonic waves welding as the method that is connected, and in present embodiment, mainly are connected with the entity of 20 on battery to finish this first lamellar body 110 with spot welding.And for these a plurality of batteries 20 are welded easily with this first lamellar body 110, the thickness of this first lamellar body 110 is unsuitable blocked up, and its best enforcement thickness is 0.1～0.3 millimeter (mm).

This second lamellar body 120 be to use a conductivity and thermal conductivity splendid copper family lamellar body, as: copper (Cu), silver (Ag), gold (Au), in present embodiment, this second lamellar body 120 is red metal (Red copper).Big electric current when this second lamellar body 120 is mainly used and charged and discharged for these a plurality of batteries 20 passes through, and this a plurality of batteries 20 1 heat conducting paths are provided.For reaching favorable conductive and heat-conducting effect, the thickness of this second lamellar body 120 must come thickly than first lamellar body 110, that is the thickness of this second lamellar body 120 must be greater than 0.3 millimeter.The existence of these a plurality of perforation 122 can be used as the passage that air feed stream passes through, and has more promoted the radiating effect of this second lamellar body 120 by the thermal convection effect.In addition, these a plurality of perforation 122 also can be in order to as these a plurality of protuberances 112 of this first lamellar body 110 and the window of 20 spot welding of battery, pass these a plurality of perforation 122 and be contacted with this a plurality of protuberances 112 for soldering appliance, so that these a plurality of protuberances 112 are welded on the electrode of battery 20.

This first lamellar body 110 and this second lamellar body 120 by the different-thickness that attaches mutually, and this thin first lamellar body 110 of used thickness forms with these a plurality of batteries 20, and entity is connected and electric connection, make these a plurality of batteries 20 be connected 10 welding easily of guide card with battery, add that this is attached at first lamellar body 110 and this thicker second lamellar body 120 of thickness, the conductivity that makes integral battery door connect guide card 10 promotes, and, more promote the radiating effect that this battery connects guide card 10 integral body by these a plurality of open-works 122 that are arranged at this second lamellar body 120.

Cooperate and consult Fig. 6, connect the use schematic diagram of guide card for the battery of third embodiment of the invention.Be formed with a plurality of perforation 122 arranged side by side on this second lamellar body 120, these a plurality of perforation 122 correspondences are provided with two first lamellar bodies 110 that comprise a plurality of protuberances 112, these a plurality of protuberance 112 entities connect and are electrically connected at a plurality of batteries 20, so so that bigger voltage or bigger capacitance to be provided.

Cooperate and consult Fig. 7, connect the stereogram of guide card for the battery of fourth embodiment of the invention.This battery connects guide card 10 and includes two first lamellar bodies 110 and one second lamellar body 120, these two first lamellar bodies 110 entity respectively connect and are electrically connected at a plurality of batteries, be formed with a plurality of perforation 122 on this second lamellar body 120, these two first lamellar bodies 110 are attached at a wherein surface of this second lamellar body 120, and these two first lamellar bodies 110 these a plurality of perforation 122 of shaded portions respectively.

Present embodiment is that this first lamellar body 110 is divided into two, and entity is connected on these a plurality of batteries respectively, and compared to single first lamellar body 110 of the above embodiments, the overall impedance of this of present embodiment first lamellar body 110 improves.Because electric current itself can select low-impedance path current, therefore in present embodiment, the electric current of these a plurality of battery charging and dischargings is via behind this first lamellar body 110, can flow to this lower second lamellar body 120 of impedance apace, and the kink 124 via this second lamellar body 120 transmits to the outside again.

In addition, this battery connects guide card 10 also can use a plurality of first lamellar bodies 110 arranged side by side of one second lamellar body, 120 collocation, perhaps utilizes the battery of the first embodiment of the present invention to connect the arrange in pairs or groups battery of second embodiment of guide card and connects guide card to form a large-scale battery pack.

Comprehensive the above, the present invention utilizes thickness, two lamellar bodies that characteristic is different to be bonded with each other to form a battery to connect guide card, wherein thin its structure of lamellar body is close with battery case, in order to as and battery between the welding material, can effectively reduce battery and the welding difficulty that is connected between guide card.And its impedance of thicker lamellar body is low, thereby has good electrical conductivity and thermal conductivity, can for the big electric current of battery discharge and recharge the time by and the quick dissipation of heat can help battery charging and discharging the time.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (10)

1. a battery connects guide card, in order to be electrically connected the electrode of a plurality of batteries, it is characterized in that, this battery connects guide card and comprises:

One first lamellar body;

One second lamellar body is attached on this first lamellar body, forms entity and electric connection with this first lamellar body, and is formed with a plurality of perforation on second lamellar body;

Wherein, this first lamellar body and this second lamellar body are all metal, and the conductivity of this second lamellar body is greater than this first lamellar body, and the thickness of this second lamellar body is greater than this first lamellar body, this first lamellar body entity and the electrode that is electrically connected at these a plurality of batteries.

2. battery according to claim 1 connects guide card, it is characterized in that, is formed with a plurality of to should a plurality of perforation settings and be connected in the protuberance of these a plurality of battery electrodes on this first lamellar body.

3. battery according to claim 2 connects guide card, it is characterized in that the direction that protrudes out of these a plurality of protuberances is in reverse to this a plurality of perforation.

4. battery according to claim 1 connects guide card, it is characterized in that this first lamellar body also comprises a kink, in order to electrically connect a circuit board.

5. battery according to claim 1 connects guide card, it is characterized in that this first lamellar body is a ferromagnetic metal.

6. battery according to claim 3 connects guide card, it is characterized in that this first lamellar body is a nickel.

7. battery according to claim 1 connects guide card, it is characterized in that this second lamellar body is a copper family metal.

8. battery according to claim 5 connects guide card, it is characterized in that this second lamellar body is a red metal.

9. battery according to claim 1 connects guide card, it is characterized in that the thickness of this first lamellar body is 0.1～0.3 millimeter.

10. battery according to claim 1 connects guide card, it is characterized in that, includes two first lamellar bodies, be arranged at respectively on this second lamellar body, and these a plurality of perforation of shaded portions.

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