CN209238747U - A kind of battery modules hold-down mechanism - Google Patents

Abstract

The utility model relates to battery modules manufacturing fields, and in particular to a kind of battery modules hold-down mechanism, including rack and hold down assembly；Each hold down assembly includes power part, connecting plate, sliding rail and compact heap；The sliding rail is mounted on the rack；Connecting plate is slidably arranged on sliding rail；Limit hole is offered in rack；Compact heap is detachably connected with connecting plate and is threaded through in limit hole, and surface is equipped with protrusion；Power part is sequentially connected with connecting plate and compact heap is driven to move back and forth.By being equipped with the protrusion for adapting to the battery modules shell of uneven surface on the surface of compact heap, when power part driving compact heap advances against battery modules shell, compact heap compresses battery modules after the out-of-flatness by protrusion adaptation case surface, avoid weighing wounded abnormal crooked problem after battery modules and shaping firmly, and it also uses sliding rail and is oriented to, the accuracy for guaranteeing depressed position, has achieved the effect that adaptable, stability is high, has precisely compressed.

Description

A kind of battery modules hold-down mechanism

Technical field

The utility model relates to battery modules manufacturing fields, and in particular to a kind of battery modules hold-down mechanism.

Background technique

In recent years, China greatly develops New Energy Industry, along with greatly developing for new-energy automobile industry, power battery Production capacity demand increasingly increase, the highly effective and safe of related matched automation equipment also seems most important.

New energy battery modules are positioned and are compressed in production.Especially rectangular cell mould group, for convenience of after Continuous dress plate-side plate welding plays the packing work of the moulds groups such as band locked screw, first to carry out compression shaping to battery modules shell, And the surface texture of shell is mostly out-of-flatness.

Utility model content

The technical problem to be solved by the present invention is in view of the above drawbacks of the prior art, provide a kind of battery mould Group hold-down mechanism, it is intended to solve to compress orthopaedic problems to uneven battery modules shell.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of battery modules hold-down mechanism is provided, It holds down assembly including what rack and two were symmetrically arranged on the frame；Each hold down assembly includes power part, connection Plate, sliding rail and compact heap；The sliding rail is mounted on the rack；The connecting plate is slidably arranged on sliding rail；It is opened in the rack Equipped with limit hole；The compact heap is detachably connected with connecting plate and is threaded through in the limit hole, and surface is equipped with and uses In the protrusion for adapting to battery modules case surface shape；The power part is sequentially connected with connecting plate and compact heap is driven back and forth to transport It is dynamic.

The still more preferably scheme of the utility model is: offering guide groove on the compact heap；In the limit hole Equipped with the guide post to match with the guide groove.

The still more preferably scheme of the utility model is: guide groove there are two opening up on the compact heap；The limit There are two the guide posts being oppositely arranged by Kong Zhongshe.

The still more preferably scheme of the utility model is: the rack includes the positioning for the positioning of battery modules shell Plate；The limit hole is provided on the positioning plate.

The still more preferably scheme of the utility model is: described hold down assembly further includes transfer block；The transfer block one End is affixed with connecting plate, and the other end is affixed with compact heap.

The still more preferably scheme of the utility model is: the transfer block is " L " font.

The still more preferably scheme of the utility model is: battery modules hold-down mechanism further includes multiple pneumatic joints；Institute It states and is provided with a plurality of air holes on positioning plate；The pneumatic joint is mounted on the stomata.

The still more preferably scheme of the utility model is: the power part is cylinder；The output shaft of the cylinder and company Fishplate bar is affixed.

The still more preferably scheme of the utility model is: the rack further includes pedestal and two vertical plates that are parallel to each other； The vertical plate is mounted on the base；The positioning plate with vertical plate is removably vertical connect；The sliding rail and power part are respectively mounted On vertical plate.

The still more preferably scheme of the utility model is: the rack further includes multiple angle bar for reinforcing；It is described Angle bar connects the vertical plate and pedestal.

The beneficial effects of the utility model are, by being equipped with the battery for adapting to uneven surface on the surface of compact heap The protrusion of module shell, when power part driving compact heap advances against battery modules shell, compact heap is adapted to outer by protrusion Battery modules are compressed after the out-of-flatness on shell surface, avoid weighing wounded abnormal crooked problem after battery modules and shaping firmly, and It also uses sliding rail to be oriented to, guarantees the accuracy of depressed position, reached adaptable, stability is high, the effect that precisely compresses Fruit.

Detailed description of the invention

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:

Fig. 1 is the stereoscopic schematic diagram of the battery modules hold-down mechanism of the utility model embodiment；

Fig. 2 is the schematic perspective view to hold down assembly of the utility model embodiment；

Fig. 3 is the rearview of the battery modules hold-down mechanism of the utility model embodiment.

Specific embodiment

Now in conjunction with attached drawing, elaborate to the preferred embodiment of the utility model.

As shown in Figure 1-3, the battery modules hold-down mechanism of the present embodiment includes that rack 1 and two are symmetricly set on rack 2 are held down assembly on 1；It is described it is each hold down assembly 2 include power part 21, connecting plate 22, sliding rail 23 and compact heap 24；It is described Sliding rail 23 is mounted in rack 1；The connecting plate 22 is slidably arranged on sliding rail 23；Limit hole 3 is offered in the rack 1； The compact heap 24 is detachably connected with connecting plate 22 and is threaded through in the limit hole 3, and surface is equipped with for adapting to The protrusion 25 of battery modules case surface shape；The power part 21 is sequentially connected with connecting plate 22 and drives compact heap 24 reciprocal Movement.

Specifically, vertical plate 13 and multiple angle bar 14 that the rack 1 is parallel to each other including positioning plate 11, pedestal 12, two.Institute Vertical plate 13 is stated to be mounted on pedestal 12.The positioning plate 11 is used for will be outside battery modules together with other external agency's (not shown) Shell positioning, the positioning plate 11 are removably vertical affixed with vertical plate 13.The angle bar 14 connects the vertical plate 13 and pedestal 12. More preferably, the power part 21 is cylinder, and the cylinder is mounted on vertical plate 13 by air cylinder fixed plate 27.It is each to hold down assembly 2 are all provided with there are two the sliding rail 23 being parallel to each other, and the sliding rail 23 is also mounted on vertical plate 13.The battery modules hold-down mechanism is also Including multiple pneumatic joints 4；It is provided with a plurality of air holes on the positioning plate 11；The pneumatic joint 4 is mounted on the stomata.

For the precision for further increasing depressed position, open up that there are two guide grooves 26 on the compact heap 24；Above-mentioned limit Hole 3 is provided on positioning plate 11, sets that there are two the guide posts 31 that match with the guide groove 26 in the limit hole 3.Work as gas When cylinder drives compact heap 24 to advance or retreat, the guide post 31 passes through the guide groove 26, plays good guiding role. Particularly, since compact heap 24 and positioning plate 11 are detachable installation, pass through replacement compact heap 24 and positioning plate 11 Realize the compression shaping feature of compatible different type, various sizes of battery modules.

It continues to refer to figure 1, Fig. 2, described hold down assembly 2 further includes transfer block 28；The transfer block 28 is " L " font, and And one end and connecting plate 22 are affixed, the other end and compact heap 24 are affixed.When cylinder driving pinboard 28 advances, pinboard 28 It is interspersed in limit hole 3 on one side, perpendicular another side is resisted against positioning plate 11, on the basis limited together with cylinder stroke On, the stroke of compact heap 24 is further limited, prevents from damaging battery modules because of over-voltage.

Specifically, the specific working mode of the battery modules hold-down mechanism are as follows: one, in battery modules shell (not shown) Before being put into, left and right two holds down assembly 2 all in original state；Two, it is put to battery modules by other mechanism (not shown) After entering position (not shown) to be positioned, two hold down assembly and 2 while operating, and cylinder drives connecting plate 22, transfer block 28 and compresses Block 24 advances, and carries out compression positioning to battery modules shell.By being equipped on the surface of compact heap 24 for adapting to uneven surface Battery modules shell protrusion 25, when cylinder driving compact heap 24 advance against battery modules shell when, compact heap 24 passes through Battery modules are compressed after the out-of-flatness of 25 adaptation case surface of protrusion, avoid exception after weighing battery modules and shaping wounded firmly crooked The problem of, and also use sliding rail 23, guide groove 26 and guide post 31 and be oriented to, guarantee the accuracy of depressed position, reaches It is adaptable, stability is high, the effect that precisely compresses.

It should be understood that above embodiments are only to illustrate the technical solution of the utility model, it is rather than its limitations, right For those skilled in the art, it can modify to technical solution illustrated in the above embodiments, or to part of skill Art feature is equivalently replaced；And all such modifications and replacement, it all should belong to the protection of the appended claims for the utility model Range.

Claims (10)

1. a kind of battery modules hold-down mechanism, it is characterised in that: be symmetricly set on rack (1) including rack (1) and two Hold down assembly (2)；Each hold down assembly (2) include power part (21), connecting plate (22), sliding rail (23) and compact heap (24)；The sliding rail (23) is mounted on rack (1)；The connecting plate (22) is slidably arranged on sliding rail (23)；The rack (1) limit hole (3) are offered on；The compact heap (24) is detachably connected with connecting plate (22) and is threaded through the limit hole (3) in, and surface is equipped with the protrusion (25) for adapting to battery modules case surface shape；The power part (21) with connect Plate (22) is sequentially connected and compact heap (24) is driven to move back and forth.

2. battery modules hold-down mechanism according to claim 1, it is characterised in that: offer and lead on the compact heap (24) To slot (26)；The guide post (31) to match with the guide groove (26) is equipped in the limit hole (3).

3. battery modules hold-down mechanism according to claim 2, it is characterised in that: offer two on the compact heap (24) A guide groove (26)；The guide post (31) being oppositely arranged there are two being set in the limit hole (3).

4. battery modules hold-down mechanism according to claim 3, it is characterised in that: the rack (1) includes being used for battery The positioning plate (11) of module shell positioning；The limit hole (3) is provided on the positioning plate (11).

5. battery modules hold-down mechanism according to claim 4, it is characterised in that: hold down assembly (2) further include turning Connect block (28)；Described transfer block (28) one end and connecting plate (22) are affixed, and the other end and compact heap (24) are affixed.

6. battery modules hold-down mechanism according to claim 5, it is characterised in that: the transfer block (28) is " L " font.

7. battery modules hold-down mechanism according to claim 5, it is characterised in that: battery modules hold-down mechanism further includes more A pneumatic joint (4)；It is provided with a plurality of air holes on the positioning plate (11)；The pneumatic joint (4) is mounted on the stomata.

8. battery modules hold-down mechanism according to claim 7, it is characterised in that: the power part (21) is cylinder；Institute Output shaft and the connecting plate (22) for stating cylinder are affixed.

9. according to the described in any item battery modules hold-down mechanisms of claim 5-8, it is characterised in that: the rack (1) is also wrapped Include pedestal (12) and two vertical plates (13) that are parallel to each other；The vertical plate (13) is mounted on pedestal (12)；The positioning plate (11) With vertical plate (13) is removably vertical connect；The sliding rail (23) and power part (21) are installed on vertical plate (13).

10. battery modules hold-down mechanism according to claim 9, it is characterised in that: the rack (1) further includes multiple use In the angle bar (14) of reinforcing；The angle bar (14) connects the vertical plate (13) and pedestal (12).