CN204857837U - Soft packet of lithium ion battery module connection structure - Google Patents

Abstract

The utility model provides a soft packet of lithium ion battery module connection structure, including parallelly connected two at least electric cores arranging with be located electric core top and with the electrically conductive busbar of being connected of the utmost point ear of electric core, still including set up below the busbar and with the insulating grid tray of electricity core relatively fixed assembly is equipped with on the insulating grid tray and corresponds the utmost point ear perforation of passing for utmost point ear with the utmost point ear of electric core, utmost point ear makes progress out the fenestrate top of utmost point ear has the portion of bending on the side on insulating grid tray of hugging closely of bending, the busbar has the crimping and is in the portion of bending of utmost point ear goes up and welds the downside that links firmly with the portion of bending of utmost point ear. Because the whole downward crimping of busbar in the portion of bending of utmost point ear, when actual solder mount, only need compress tightly the busbar through corresponding crimping frock downwards, the busbar will compress tightly the portion of bending of utmost point ear downwards, and it needs the problem of configuration utmost point ear pressure equipment frock in addition to have saved, effectively simplify battery module's assembly process, reduce manufacturing cost.

Description

Soft bag lithium ionic cell module connection structure

Technical field

The utility model relates to a kind of soft bag lithium ionic cell module connection structure.

Background technology

Lithium ionic cell module comprises the battery core that multiple connection in series-parallel is arranged, by bus-bar, the lug of battery core is in parallel in battery module, at present, mode mainly through mechanical fasteners and weld connection realizes the lug of battery core and the fixing assembling of bus-bar, wherein, the mode of mechanical fasteners can make lug junction contact resistance become large, and caloric value also can increase, during humiture change, contact resistance also can rise, and then can affect the serviceability of battery module and the performance of power-supply system.The mode of increasing battery manufacturer many employings weld connection is replaced mode that mechanical fasteners connects and is realized connecting of the lug of bus-bar and battery core.

Be disclose a kind of electric car power supply module connection structure in the Chinese utility model patent of CN203218366U at Authorization Notice No., it comprises the multiple battery cores be arranged in parallel, the lug of battery core is by bus-bar conductive communication, be provided with the lug corresponding with the lug of battery core on the busbar to bore a hole, during concrete assembling, the lug of battery core is made to pass perpendicularly through the lug perforation of bus-bar, be close on lug on the busbar through the top bending 90 degree of lug perforation, then by the mode of laser welding, lug bending part welded with bus-bar.

In actual mechanical process, for guaranteeing welding effect, need to use frock to compress bus-bar and lug respectively in addition, because in battery module, battery core number quantity is more, and the battery core number difference in dissimilar battery module, each battery core all has positive and negative lug, causes lug number more, make that the press-fitting tool structure for press-fiting lug is comparatively complicated, versatility is poor, design and manufacture cost is higher.

Utility model content

The utility model provides a kind of soft bag lithium ionic cell module connection structure, with solve exist in prior art lug is welded time need to arrange in addition press-fitting tool lug bending part to be compressed technical problem on the busbar.

The technical scheme of soft bag lithium ionic cell module connection structure provided by the utility model is:

The beneficial effects of the utility model are: in soft bag lithium ionic cell module connection structure provided by the utility model, the lug perforation bending that the top of the lug of battery core has through insulation screen is close to the bending part insulated on the upper side of screen, then bus-bar is crimped on downwards on the bending part of lug, the downside of bus-bar is welded with the bending part of lug and is connected, thus realizes bus-bar and be connected with the conduction of the bending part of the lug of battery core.Because lug is also pressed on insulation screen in bending top by lug perforation, insulation screen can position the lug of battery core.Simultaneously, be crimped on downwards on the bending part of lug because bus-bar is whole, when actual welding is assembled, only need to compress bus-bar downwards by corresponding crimp connection fixture, bus-bar will compress downwards the bending part of lug, eliminate the problem needing configuration lug press-fitting tool in addition, effectively simplify the assembly technology of battery module, reduce production cost.

Further, bus-bar is assembled by fix relative with insulation screen of location structure, is convenient to be positioned bus-bar by insulation screen, improves the assembly precision of the lug of bus-bar and battery core.

Further, location structure adopts concavo-convex location structure, and concavo-convex location structure comprises projection and the pit of corresponding grafting cooperation, and location structure is simple, and positioning precision is better.

Further, welding adopts laser welding, be convenient to realize automation, and laser beam can focus in less region, does not affect other solder joints or parts, there will not be the phenomenon of melt back, can ensure the welding quality of lug and bus-bar preferably.

Further, bus-bar is provided with inspection hole to observe the bending offset dimensions of the bending part of each lug, can adjust according to the actual bending situation of lug to it.

Further, because the battery core manufactured exists tolerance, when the layout that battery core is arranged side by side successively in left-right direction, because tolerance in the lateral direction is constantly accumulated, battery module actual (real) thickness is made to differ larger with design thickness, the position of each battery core and the design attitude on bus-bar are staggered just larger, now, the both sides battery core being positioned at battery core both sides, center can be made according to actual needs to bend in opposite directions or opposing bending, bending i.e. left side battery core bends to the right in opposite directions, right side battery core bends left, opposing bending i.e. left side battery core is towards left bending, right side battery core bends to the right, the relative position of lug and bus-bar in each battery core can be adjusted like this, the lug in each battery core is made all to be in the position can welded with bus-bar, be convenient to realize automatic welding.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of soft bag lithium ionic cell module connection structure provided by the utility model;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the structural representation of bus-bar in Fig. 1;

Fig. 4 is a kind of bending mode of lug schematic diagram of battery core in Fig. 1;

Fig. 5 is the lug another kind of bending mode schematic diagram of battery core.

Embodiment

As shown in Figure 1 to Figure 3, a kind of embodiment of soft bag lithium ionic cell module connection structure, comprise multiple battery cores 1 of being arranged in parallel and to conduct electricity with being positioned at the bus-bar 3 be connected above battery core and with the lug of battery core, multiple battery cores in the present embodiment set gradually in left-right direction, bus-bar 3 also extends in left-right direction, soft bag lithium ionic cell module connection structure also comprises and to be arranged at below bus-bar 3 and the fixing insulation screen 2 that assemble relative to described battery core, insulation screen 2 is provided with the lug that for lug pass corresponding to the lug 4 of battery core 1 and bores a hole 202, lug 4 upwards pass described lug perforation 202 top have bending be close to insulation screen 2 upper side on bending part, described bus-bar 3 have be crimped on described lug 4 bending part on and weld with the bending part of lug 4 downside be connected.

Location structure is provided with between bus-bar 3 and insulation screen 2, bus-bar 3 is assembled by fix relative with described insulation screen 2 of described location structure, location structure in the present embodiment is specially concavo-convex location structure, concavo-convex location structure comprises the projection 201 be arranged on insulation screen 2 and the pit 301 be arranged on bus-bar 3, during assembling, bus-bar 3 is placed on insulation screen 2, projection 201 on insulation screen to realize the location to bus-bar, ensures the assembly precision of insulation screen and bus-bar with the corresponding grafting of pit 301 on bus-bar.

In the present embodiment, bus-bar 3 is provided with multiple inspection holes 302 of the bending part bending offset dimensions of observing each lug for correspondence.

In the present embodiment, lug 1 in battery core is divided into anode ear and negative electrode lug, accordingly, bus-bar is divided into and correspondingly with the bending part of anode ear welds the positive bus that is connected and weld with the bending part of negative electrode lug is corresponding the negative bus-bar be connected, positive bus is aluminum conducting strip, and negative bus-bar is copper conducting strip or is that copper face is for welding with the bending part of negative electrode lug the copper-aluminum composite board be connected.

In the present embodiment, the mode that the downside of bus-bar 3 is connected by laser welding is welded with the bending part of the lug 4 of described battery core 1 and is connected.During actual welding operation, compress bus-bar 3 by press-fitting tool, bus-bar 3 compresses lug downwards, and then effectively can guarantee welding effect.

Simultaneously, because battery core monomer exists manufacturing tolerance, when multiple battery core monomer is arranged in juxtaposition, manufacturing tolerance is easily accumulated and is caused battery module actual size to differ larger with design size, and then not corresponding with the position to be welded on bus-bar after causing the lug bending in each battery core (position to be welded on bus-bar is determined by the design size of space in laser welding process usually, the size of space of each position to be welded namely on bus-bar is corresponding with the design size of space of the automation continuous welding in laser welding process), now, just need according to actual needs by the overbending direction of the lug of each battery core of adjustment, eliminate as much as possible or reduce the impact of battery core cumulative limit on automatic welding.

It should be noted that, battery core centered by the battery core mediated in all battery cores, the battery core be positioned in the lateral direction on the left of the battery core of center is left side battery core, the battery core be positioned on the right side of the battery core of center is right side battery core.As shown in Figure 4, when battery module physical length is greater than design length, the lug of left side battery core is bent left, the lug of right side battery core bends to the right, the i.e. left side bending part of lug of battery core and the opposing bending of bending part of the lug of right side battery core, like this, when the spacing of the battery core at both ends is X, the length of the bending part of lug is A, and the maximum spacing of the lug at both ends is X+2A.As shown in Figure 5, when the physical length of battery module is less than design length, the lug of left side battery core is bent to the right, the lug of right side battery core bends left, the i.e. left side bending part of lug of battery core and the bending part bending in opposite directions of the lug of right side battery core, like this, when the battery core spacing at both ends is X, the length of the bending part of lug is A, and the minimum spacing of the lug at both ends is X-2A.

The battery module that the present embodiment provides is when assembling, fix relative with battery core 1 of insulation screen 2 is assembled, then by location structure, bus-bar 3 is assembled with insulation screen 2 relative positioning, then by press-fitting tool, bus-bar and lug are compressed, the bending part of lug 4 is then pressed close to insulation screen 2 and bus-bar 3, effectively ensures welding quality.

In the present embodiment, location structure between bus-bar and insulation screen is concavo-convex location structure, in other embodiments, location structure also can adopt the location structure of other modes as arranged circumferential rib on insulation screen, positions assembling by circumferential rib to bus-bar.

In the present embodiment, inspection hole on bus-bar is furnished with multiple in left-right direction, the concrete structure of inspection hole can be arranged according to actual needs, and the inspection hole for the bending part of each lug can, for the elongated hole extended along the longitudinal direction, also can be the multiple observation apertures distributed along the longitudinal direction.

In the present embodiment, the bending part of bus-bar and lug be welded as laser welding, in other embodiments, the mode of ultrasonic bonding also can be adopted to realize the weld connection of the bending part of bus-bar and lug.

Claims (8)

1. soft bag lithium ionic cell module connection structure, comprise at least two battery cores being arranged in parallel and to conduct electricity with being positioned at the bus-bar be connected above battery core and with the lug of battery core, it is characterized in that: also comprise and to be arranged at below bus-bar and the fixing insulation screen that assemble relative to described battery core, insulation screen is provided with the lug that for lug pass corresponding to the lug of battery core and bores a hole, described lug upwards pass described lug perforation top have bending be close to insulation screen upper side on bending part, described bus-bar have be crimped on described lug bending part on and weld with the bending part of lug the downside be connected.

2. soft bag lithium ionic cell module connection structure according to claim 1, is characterized in that: be provided with location structure between described bus-bar and insulation screen, and described bus-bar is assembled by fix relative with described insulation screen of described location structure.

3. soft bag lithium ionic cell module connection structure according to claim 2, it is characterized in that: described location structure is concavo-convex location structure, concavo-convex location structure comprises projection and the pit of corresponding grafting cooperation, and what protruding and pit was corresponding is arranged on described bus-bar and insulation screen.

4. the soft bag lithium ionic cell module connection structure according to claim 1 or 2 or 3, is characterized in that: the mode that the downside of described bus-bar is connected by laser welding is welded with the bending part of the lug of described battery core and is connected.

5. the soft bag lithium ionic cell module connection structure according to claim 1 or 2 or 3, is characterized in that: described bus-bar is provided with the inspection hole of the bending part bending offset dimensions of observing each lug for correspondence.

6. the soft bag lithium ionic cell module connection structure according to claim 1 or 2 or 3, it is characterized in that: the lug in described battery core is divided into anode ear and negative electrode lug, accordingly, bus-bar is divided into and correspondingly with the bending part of anode ear welds the positive bus that is connected and weld with the bending part of negative electrode lug is corresponding the negative bus-bar be connected, positive bus is aluminum conducting strip, and negative bus-bar is copper conducting strip or is that copper face is for welding with the bending part of negative electrode lug the copper-aluminum composite board be connected.

7. the soft bag lithium ionic cell module connection structure according to claim 1 or 2 or 3, it is characterized in that: described battery core is arranged in left-right direction successively, battery core centered by one or two battery core mediated in all battery cores, the battery core be positioned in the lateral direction on the left of the battery core of center is left side battery core, the battery core be positioned on the right side of the battery core of center is right side battery core, bending part bending or the opposing bending in opposite directions of the bending part of the lug of left side battery core and the lug of right side battery core.

8. the soft bag lithium ionic cell module connection structure according to claim 1 or 2 or 3, is characterized in that: the position of the downside towards battery core of described insulation screen corresponding each lug perforation is provided with for guiding the lug of corresponding battery core to enter triangle guiding groove in corresponding lug perforation.