CN209183603U - Supporting plate jig - Google Patents

Abstract

The utility model discloses a supporting plate jig, which comprises a supporting plate, a first clamping component and a second clamping component, wherein the supporting plate is used for bearing a battery module; the first clamping assembly and the second clamping assembly are arranged on the supporting plate and respectively clamp the battery modules borne by the supporting plate from different directions. This application carries out the centre gripping through first centre gripping subassembly and the cooperation of second centre gripping subassembly to the battery module on the layer board from different position, need not to change the layer board and can carry out the centre gripping that stabilizes to the battery module of different specifications, realizes battery module fast storage or turnover.

Description

Supporting plate jig

Technical field

The utility model relates to jig technical fields, are specifically related to a kind of supporting plate jig.

Background technique

During the automated production of lithium battery, in order to realize higher automated production efficiency, need to battery mould The storage and turnover that group is automated, this just needs to guarantee that battery modules can be stable on the pallet of storage or week conversion.It is existing Have in technology, the poor compatibility of battery modules pallet, single pallet can only correspond to a kind of battery modules of specification, cause storing Or when having enough to meet the need different battery modules, different size of pallet is required manual replacement to be adapted to the battery modules of various specifications, is grasped Make constant, and then influences whole production efficiency.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of supporting plate jig.

A kind of supporting plate jig includes: supporting plate, is used to carry battery modules；And

Set on the first clamp assemblies and the second clamp assemblies of supporting plate；First clamp assemblies and the second clamp assemblies are right respectively The battery modules of supporting plate carrying are clamped, the moving direction of the first clamp assemblies clamping end and the second clamp assemblies clamping end Moving direction intersection.

According to one embodiment of the utility model, the moving direction of the first clamp assemblies clamping end and the second clamp assemblies are pressed from both sides The moving direction for holding end is vertical.

According to one embodiment of the utility model, the first clamp assemblies are located at the adjacent side of the second clamp assemblies.

According to one embodiment of the utility model, the first clamp assemblies include first clamping member and the first limited block；First Limited block is set to the front of supporting plate；First clamping member is corresponding with the first limited block.

According to one embodiment of the utility model, first clamping member includes the first adjusting component and the first compact heap；First The output end for adjusting component is connect with the first compact heap；First compact heap is opposite with the first limited block；First adjusts Component driver First compact heap is moved along the direction perpendicular to the first limited block.

According to one embodiment of the utility model, the second clamp assemblies include the second clamping piece and the second limited block；Second Limited block is set to the front of supporting plate；Second clamping piece is corresponding with the second limited block.

According to one embodiment of the utility model, the second clamping piece includes the second adjusting component and the second compact heap；Second The output end for adjusting component is connect with the second compact heap；Second compact heap is opposite with the second limited block；Second adjusts Component driver Second compact heap is moved along the direction perpendicular to the second limited block；The shifting of the moving direction of second compact heap and the first compact heap Dynamic direction is vertical.

According to one embodiment of the utility model, the second limited block is located at the adjacent side of the first limited block.

It further include bottom plate and support block part according to one embodiment of the utility model；Bottom plate by support block part with The back side of supporting plate connects；First adjusts component and the second adjusting component between bottom plate and supporting plate.

According to one embodiment of the utility model, bottom plate offers location hole.

Compared with the existing technology, the supporting plate jig of the application is cooperated by the first clamp assemblies and the second clamp assemblies, from Different direction clamps the battery modules on supporting plate, and no replacement is required, and supporting plate can carry out surely the battery modules of different size Solid clamping, realize battery modules quick storage or turnover.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of supporting plate jig in the present embodiment；

Fig. 2 is the structural schematic diagram in the present embodiment inside supporting plate jig.

Description of symbols:

1, supporting plate；11, the first strip shape gob；12, the second strip shape gob；13, third strip shape gob；2, the first clamp assemblies；21, One clamping piece；211, first component is adjusted；2111, the first screw rod part；21110, first axle bearing sleeve；21111, the first screw rod； 21112, first movement link block；21113, first link block is compressed；21114, the first sliding rail；2112, auxiliary adjustment part； 21120,3rd bearing set；21121, screw rod is assisted；21122, mobile link block is assisted；21123, auxiliary compresses link block； 21124, sliding rail is assisted；2113, the first driving connecting rod；21130, fourth bearing set；2114, it is fixed block；212, first Compact heap；22, the first limited block；3, the second clamp assemblies；31, the second clamping piece；311, second component is adjusted；31110, second Bearing holder (housing, cover)；3111, the second screw rod；3112, the second mobile link block；3113, second link block is compressed；3114, the second sliding rail； 3115, the second driving connecting rod；31150,5th bearing set；312, the second compact heap；32, the second limited block；4, bottom plate；41, Location hole；5, block part is supported；51, side plate supporting block；511, first through hole；512, the second through-hole；52, inner support block；6, it covers Bar.

Specific embodiment

Multiple embodiments that the utility model will be disclosed with schema below, as clearly stated, in many practices Details will be explained in the following description.It should be appreciated, however, that the details in these practices does not apply this with limitation practical new Type.That is, the details in these practices is non-essential in some embodiments of the utility model.In addition, for letter For the sake of changing schema, some known usual structures and component will be painted it in the drawings in simply illustrative mode.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining in relative positional relationship, the situation of movement etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and non-specifically The meaning of order or cis-position is censured, it is also non-to limit the utility model, it is retouched just for the sake of difference with same technique term The component stated or operation are not understood to indicate or imply its relative importance or implicitly indicate indicated technology The quantity of feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not within the protection scope of the requires of the utility model.

For the contents, features and effects that can further appreciate that the utility model, the following examples are hereby given, and cooperates attached drawing Detailed description are as follows:

Referring to Figures 1 and 2, Fig. 1 is the structural schematic diagram of supporting plate jig in the present embodiment, and Fig. 2 is supporting plate in the present embodiment Structural schematic diagram inside jig.Supporting plate jig in the present embodiment includes supporting plate 1, the first clamp assemblies 2 and the second clamping group Part 3.Supporting plate 1 is set to supporting plate 1, the first clamp assemblies 2 for carrying battery modules, the first clamp assemblies 2 and the second clamp assemblies 3 And second the battery modules that are carried respectively for supporting plate 1 of clamp assemblies 3 clamped, the movement of 2 clamping end of the first clamp assemblies Intersect with the moving direction of 3 clamping end of the second clamp assemblies in direction.Pass through matching for the first clamp assemblies 2 and the second clamp assemblies 3 It closes, the battery modules on supporting plate 1 is clamped from different directions, no replacement is required, and supporting plate can be to the battery modules of different size Firm clamping is carried out, battery modules quick storage or turnover are realized, so that the whole efficiency of battery production is promoted.

Again referring to Figures 1 and 2, further, the moving direction of 2 clamping end of the first clamp assemblies and the second clamp assemblies 3 press from both sides The moving direction for holding end is vertical.It is from being mutually perpendicular to when the first clamp assemblies 2 and the second clamp assemblies 3 cooperation clamping battery modules Orientation clamped so that chucking power suffered by each orientation of battery modules is more balanced, clamp more firm.In the present embodiment Both first clamp assemblies 2 are located at the adjacent side of the second clamp assemblies 3, assemble the two at an appropriate location, convenient for The setting of clamping end.

It is multiple that further, the first clamp assemblies 2 include first clamping member 21 and the first limited block 22 referring to Figures 1 and 2, First limited block 22 is set to the front of supporting plate 1, and first clamping member 21 is corresponding with the first limited block 22.Second clamp assemblies 3 include Second clamping piece 31 and the second limited block 32, the second limited block 32 are set to the front of supporting plate 1, the second clamping piece 31 and the second limit Block 32 is corresponding.The battery modules that first limited block 22 and the second limited block 32 respectively carry supporting plate 1 limit, the first folder Gripping member 21 cooperates the two sides opposite to battery modules to clamp with the first limited block 22, the second clamping piece 31 and the second limit The cooperation of block 32 clamps the other two sides of battery modules.

Again referring to Figures 1 and 2, further, first clamping member 21 includes the first adjusting component 211 and the first compact heap 212, the output end of the first adjusting component 211 is connect with the first compact heap 212, the first compact heap 212 and 22 phase of the first limited block Right, the first adjusting component 211 drives the first compact heap 212 to move along the direction perpendicular to the first limited block 22.First compresses Block 212 and the first limited block 22 cooperation clamping battery modules, the first adjusting component 211 can be adjusted flexibly the first compact heap 212 with The distance between first limited block 22, to be clamped to battery modules of different specifications and sizes.Second clamping piece 31 includes Second adjusts component 311 and the second compact heap 312；The output end of second adjusting component 311 is connect with the second compact heap 312, the Two compact heaps 312 and the second limited block 32 are opposite, and second, which adjusts component 311, drives the second compact heap 312 along perpendicular to second The direction of limited block 32 is mobile, and the moving direction of the second compact heap 312 is vertical with the moving direction of the first compact heap 212, and second The second compact heap can be adjusted flexibly in compact heap 312 and the second limited block 32 cooperation clamping battery modules, the second adjusting component 311 312 and second the distance between the limited block 32, to be clamped to battery modules of different specifications and sizes.

The second limited block 32 is located at the adjacent side of the first limited block 22 in the present embodiment, and the extended line of the two intersects, and The angle of the two extended line intersection is right angle, so set, convenient for being adapted to the battery modules of ordered structure, but also battery modules It is that basic point is placed on supporting plate 1 that above-mentioned right angle, which can quickly be corresponded to, improves and places efficiency.

Again referring to Figures 1 and 2, further, the supporting plate jig in the present embodiment further includes bottom plate 4 and support block part 5, bottom Plate 4 by support block part 5 connect with the back side of supporting plate 1, first adjust component 211 and second adjust component 311 be located at bottom plate 4 and Between supporting plate 1, specifically, the drive part of the first adjusting component 211 and the second adjusting component 311 be located at bottom plate 4 and supporting plate 1 it Between.Supporting plate 1, bottom plate 4 and support 5 three of block part form a bearing space, can adjust to first be set in the bearing space The drive part of component 211 and the second adjusting component 311 is protected, and extraneous factor is avoided to influence the first adjusting component 211 and second adjust 311 drive part of component adjusting actuation, for example, screw fall to the bearing space cause adjust component It can not work normally.

It is multiple further, the first strip shape gob 11 and the second strip shape gob 12 to be offered on supporting plate 1 referring to Figures 1 and 2, In, the first strip shape gob 11 is perpendicular to the first limited block 22, and the second strip shape gob 12 is perpendicular to the second limited block 32, the first strip shape gob 11 It is vertical with the extended line of the second strip shape gob 12.First, which adjusts component 211, is set to bottom plate 4, between supporting plate 1 and bottom plate 4, 22 face of first compact heap 212 and the first limited block, the first output end for adjusting component 211 pass through the first strip shape gob of supporting plate 1 It is connect after 11 with the first compact heap 212, first, which adjusts component 211, drives the first compact heap 212 reciprocal along the first strip shape gob 11 It is mobile.Correspondingly, second adjusts component 311 set on bottom plate 4, between supporting plate 1 and bottom plate 4, the second compact heap 312 With 32 face of the second limited block, the second output end for adjusting component 311 is compressed after the second strip shape gob 12 of supporting plate 1 with second Block 312 connects, and the second adjusting component 311 drives the second compact heap 312 to move back and forth along the second strip shape gob 12.First limited block 22 and first the line of line and the second limited block 32 and the second compact heap 312 of compact heap 212 be mutually perpendicular to.

In the present embodiment, supporting plate 1 is rectangle tabular, and the first limited block 22 and the second limited block 32 are rectangular-shape, the One limited block 22 and the second limited block 32 can be fixed by screws in the square position of supporting plate 1, the first limited block 22 and supporting plate 1 Long side is parallel, and the second limited block 32 is parallel with the short side of supporting plate 1, the end of the end of the first strip shape gob 11 and the second limited block 32 Relatively, the end of the second strip shape gob 12 is opposite with the end of the first limited block 22.Battery modules can generally be designed to regular Shape, for example, cuboid, above-mentioned setting is convenient for clamping the battery modules of cuboid isotactic shape；Certainly, supporting plate 1, First limited block 22 and the second limited block 32 can also be used cross section and be square or circular other shapes, be not limited.

Again referring to Figures 1 and 2, further, the first adjusting component 211 includes the first screw rod part 2111；First screw rod part 2111 include the first screw rod 21111, first movement link block 21112 and the first compression link block 21113.First screw rod 21111 set on bottom plate 4 and between supporting plate 1 and bottom plate 4, specifically, the first screw rod 21111 passes through two first axle bearing sleeves 21110 are fixedly mounted on bottom plate 4, and are located at close to the side of the second limited block 32, the first screw rod 21111 and the first strip shape gob 11 is parallel.First movement link block 21112 is connect with the first screw rod 21111, and the first screw rod 21111 drives first movement link block 21112, first movement link block 21112 is along 21111 linear movement of the first screw rod.First compresses one end of link block 21113 It is connect with first movement link block 21112, the other end is connect after passing through the first strip shape gob 11 with the first compact heap 212.First Screw rod 21111 drives first movement link block 21112 mobile, dynamic first pressure of the movement synchronous belt of first movement link block 21112 It is tightly connected the movement of block 21113, and then the first compact heap of synchronous drive 212 is mobile.First compact heap 212 and the first limited block 22 Relatively, the tune of the spacing distance between the first compact heap 212 and the first limited block 22 can be realized in the first screw rod 21111 of rotation Section, and then realize and gripped from opposite both direction to battery modules on supporting plate 1 are placed in.

Multiple reference Fig. 2, further, the first screw rod part 2111 further includes the first sliding rail 21114；First sliding rail 21114 is set In bottom plate 4, and it is located at the side of the first screw rod 21111, the first sliding rail 21114 is parallel with the first screw rod 21111, and first movement connects It connects block 21112 to be slidably connected with the first sliding rail 21114, the first sliding rail 21114 is for guiding first movement link block 21112 mobile Direction, so that the direction of the first screw rod 21111 driving movement of first movement link block 21112 is more accurate, and the first sliding rail 21114 pairs of first movement link blocks 21112 also have with certain supporting role.

Again referring to Figures 1 and 2, further, the second adjusting component 311 includes the second screw rod 3111, first movement connection Block 3112 and the second compression link block 3113.Second screw rod 3111 is set to bottom plate 4 and between supporting plate 1 and bottom plate 4, the Two screw rods 3111 are fixedly installed in bottom plate 4 close to the side of the first limited block 22 by two second bearings set 31110, and second Screw rod 3111 is parallel with the second strip shape gob 12, and the second screw rod 3111 is vertical with the first screw rod 21111.Second mobile link block 3112 connect with the second screw rod 3111, and the second screw rod 3111 drives the second mobile link block 3112, the second mobile link block 3112 Along 3111 linear movement of the second screw rod.One end of second compression link block 3113 is connect with the second mobile link block 3112, The other end is connect after passing through the second strip shape gob 12 with the second compact heap 312.Second screw rod 3111 drives the second mobile link block 3112 is mobile, and the movement synchronous belt dynamic second of the second mobile link block 3112 compresses the movement of link block 3113, and then synchronous belt The movement of dynamic second compact heap 312.Second compact heap 312 is oppositely arranged with the second limited block 32, and the second screw rod 3111 of rotation is The adjusting of the spacing distance between the second compact heap 312 and the second limited block 32 can be achieved, and then realize from other two direction Clamping is fixed to the battery modules being placed on supporting plate 1.

Multiple reference Fig. 2, further, the second adjusting component 31 further includes the second sliding rail 3114；Second sliding rail 3114 is set to Bottom plate 4, and it is located at the side of the second screw rod 3111, the second sliding rail 3114 is parallel with the second screw rod 3111；Second mobile link block 3112 are slidably connected with the second sliding rail 3114, and the second sliding rail 3114 is used to guide the moving direction of the second mobile link block 3112, And the second mobile link block 3112 is supported.

Multiple reference Fig. 2, further, supporting plate 1 is also provided with third strip shape gob 13, third strip shape gob 13 and the first bar shaped Mouthfuls 11 parallel, and the first strip shape gob 11 and third strip shape gob 13 both ends that be located at supporting plate 1 opposite.First adjusts component 211 Further include auxiliary adjustment part 2112, the first driving connecting rod 2113 and is fixed block 2114.Auxiliary adjustment part 2112 includes Screw rod 21121, auxiliary mobile link block 21122 and auxiliary is assisted to compress link block 21123.Screw rod 21121 is assisted to pass through two A 3rd bearing set 21120 is installed on bottom plate 4, parallel with the first screw rod 21111, assists screw rod 21121 and the first screw rod 21111 faces.First driving connecting rod 2113 is installed on bottom plate 4 by two fourth bearing sets 21130, and the first transmission connects The both ends of extension bar 2113 are opposite with the first screw rod 21111 and auxiliary one end of screw rod 21121 respectively, and the first transmission connection The both ends of bar 2113 are respectively equipped with umbrella tooth, and the first screw rod 21111 and auxiliary screw rod 21121 are with respect to the first driving connecting rod 2113 one end all has compatible umbrella tooth, assists one end and the 2113 one end toe joint of the first driving connecting rod of screw rod 21121, One end toe joint of the other end of first driving connecting rod 2113 and the first screw rod 21111.Assist mobile link block 21122 with it is auxiliary Screw rod 21121 is helped to connect, the auxiliary driving auxiliary mobile link block 21122 of screw rod 21121 is mobile, assists mobile link block 21122 Along auxiliary 21121 linear movement of screw rod.One end that auxiliary compresses link block 21123 is connect with auxiliary mobile link block 21122, Its other end is connect after passing through third strip shape gob 13 with the one end for being fixed block 2114, is fixed the other end of block 2114 It is connect with the first compression link block 21113；First compact heap 212 is set to and is fixed on block 2114.

The first screw rod 21111 driving the first compression link block 21113 is rotated to move along the first strip shape gob 11, it is same with this When, by the linkage of the first driving connecting rod 2113, the synchronous drive rotation of auxiliary screw rod 21121, auxiliary screw rod 21121 are driven Dynamic auxiliary mobile link block 21122 is mobile, and synchronous drive auxiliary compresses link block 21123 and moves along third strip shape gob 13；The One compression link block 21113 and auxiliary compress 21123 synchronizing moving of link block, and drive is fixed block 2114 and the first compression The movement of block 212.By auxiliary wire rod piece 2112, the first driving connecting rod 2113 and it is fixed the setting of block 2114, it can be auxiliary The first screw rod part 2111 of cooperation is helped to drive the first compact heap 212 mobile, so that the movement of the first compact heap 212 is more steady, Clamping battery modules are cooperated to be also more to consolidate with the first limited block 22, in addition, it is larger to be fixed the settable length of block 2114 The first compact heap 212, can so increase the first compact heap 212 clamping battery modules when holding area, further increase electricity Stability when Chi Mo group is had enough to meet the need.

Multiple reference Fig. 2, further, auxiliary adjustment part 2112 further include auxiliary sliding rail 21124；Auxiliary sliding rail 21124 is set In bottom plate 4, and it is located at the side of auxiliary screw rod 21121；Assist sliding rail 21124 parallel with auxiliary screw rod 21121；Auxiliary is mobile to be connected It connects block 21122 to be slidably connected with auxiliary sliding rail 21124, auxiliary sliding rail 21124 is used to guide the shifting of auxiliary mobile link block 21122 Dynamic direction, and auxiliary mobile link block 21122 is supported.

Again referring to Figures 1 and 2, further, bottom plate 4 is consistent with the size of supporting plate 1 and shape, can adopt in the present embodiment With identical rectangular slab.Support block part 5 include four side plate supporting blocks 51, side plate supporting block 51 be strip plate, four The length of a side plate supporting block 51 is adapted with the length on 4 four side of bottom plate respectively, and four side plate supporting blocks 51 successively join end to end A rectangular framework is formed, the two sides of every side plate supporting block 51 are pasted with the back side of supporting plate 1 and the surface of bottom plate 4 respectively It closes, bottom plate 4 forms a rectangular-shape by the way that four side plate supporting blocks 51 and supporting plate 1 are fixed, and fixing piece can be used when specific fixed It is fixed, such as screw.Entire supporting plate jig so may make to form a firm entirety, and supporting plate 1 and bottom plate 4 are set It is set to regular shape, may make supporting plate jig global shape rectangular-shape that is regular, such as being formed in the present embodiment, very just In the overall movement of supporting plate jig.

Again referring to Figures 1 and 2, the supporting plate jig in the present embodiment further includes loop bar 6.First screw rod 21111 is far from first One end of driving connecting rod 2113 has flat position, and the first screw rod 21111 has one end face side plate supporting block 51 of flat position, side The position of 51 the first screw rod of face 21111 of plate supporting block offers first through hole 511, and 6 (not shown) of loop bar may pass through One through-hole 511 is sheathed on the end of the first screw rod 21111, so that the two forms dismountable clamping relationship.It is real to rotate loop bar 6 Now the first screw rod 21111 is rotated and is controlled, the rotation of loop bar 6 can be realized by mechanical power sources such as motors.In addition, this implementation The first screw rod 21111 in example is trapezoidal screw, with self-locking function, rotates and stops to the first screw rod 21111 in loop bar 6 Afterwards, the first screw rod 21111 itself can be realized limit and fix.

Second adjusting component 311 further includes the second driving connecting rod 3115, and the second driving connecting rod 3115 passes through the 5th axis Bearing sleeve 31150 is mounted on bottom plate 4, and the second driving connecting rod 3115 is parallel with the first screw rod 21111, the second driving connecting rod 3115 one end are opposite with one end of the second screw rod 3111, other end face side plate supporting block 51.Second driving connecting rod One end of 3115 face side plate supporting blocks 51 has a flat position, and the other end of the second driving connecting rod 3115 has a umbrella tooth, and second Bar 3111 has compatible umbrella tooth with respect to one end of the second driving connecting rod 3115, and the second screw rod 3111 has the one of umbrella tooth One end toe joint at end and the second driving connecting rod 3115；Second driving connecting rod 3115 has the side plate branch of one end face of flat position The second through-hole 512 is offered on bracer 51, loop bar 6 may pass through the end that the second through-hole 512 is sheathed on the second driving connecting rod 3115 Portion, so that forming dismountable clamping relationship between the two.

In the present embodiment, 6 quantity of loop bar can be one, need to carry out the first screw rod 21111 or the second screw rod 3111 When rotation connection, it is only necessary to which corresponding the first screw rod 21111 or the second driving connecting rod 3115 of being inserted in of the loop bar 6 is had flat position End.

Multiple reference Fig. 2, further, the present embodiment insole board 4 offer location hole 41, and the quantity of location hole 41 is two A, two location holes 41 are divided into the diagonal of bottom plate 4, and are respectively positioned between the first screw rod 21111 and auxiliary screw rod 21121, The setting of two location holes 41 positions supporting plate jig convenient for extraneous device.

Multiple reference Fig. 2, further, support block part 5 further includes inner support block 52, the number of inner support block 52 in the present embodiment Amount is three, is the bulk of strip, and three inner support blocks 52 are set to the first screw rod 21111 and auxiliary screw rod side by side Between 21121, three inner support blocks 52 are fixedly connected with bottom plate 4 and supporting plate 1 respectively by fixing piece, pass through inner support block 52 It is arranged so that the structure of supporting plate jig is more firm, increases the reliability of supporting plate jig.In the present embodiment, each internal supporting block 242 It is arranged along the width direction of bottom plate 4, three inner support blocks 52 are arranged successively along the length direction of bottom plate 4, three inner supports The upper and lower surface of block 52 is bonded with bottom plate 4 and supporting plate 1 respectively, and then screw state is fixed, further increases the supporting plate of approximate cuboid The stability and reliability of jig.

To sum up: the supporting plate jig in the present embodiment adjusts the first compact heap of Component driver and the first limited block by first Cooperation clamps battery modules in supporting plate width direction, and second adjusting the second compact heap of Component driver is being held in the palm with the cooperation of the second limited block Plate length direction clamp battery modules, can the battery modules to different size carry out firm clamping, without to supporting plate carry out more It changes, convenient for the storage or turnover of battery modules, has saved the cost of manufacture of a variety of pallets.The setting of location hole on bottom plate, it is convenient Bottom plate is positioned, convenient for the turnover of supporting plate jig.

Upper described only the embodiments of the present invention, is not intended to limit the utility model.For this field For technical staff, various modifications and changes may be made to the present invention.The interior institute of all spirit and principle in the utility model Any modification, equivalent substitution, improvement and etc. of work should all include within the scope of the claims of the utility model.

Claims (10)

1. a kind of supporting plate jig characterized by comprising

Supporting plate (1), is used to carry battery modules；And

Set on the first clamp assemblies (2) and the second clamp assemblies (3) of the supporting plate (1)；First clamp assemblies (2) and Two clamp assemblies (3) respectively clamp the battery modules of the supporting plate (1) carrying, the first clamp assemblies (2) clamping The moving direction at end intersects with the moving direction of the second clamp assemblies (3) clamping end.

2. supporting plate jig according to claim 1, which is characterized in that the movement of the first clamp assemblies (2) clamping end Direction is vertical with the moving direction of the second clamp assemblies (3) clamping end.

3. supporting plate jig according to claim 2, which is characterized in that first clamp assemblies (2) are located at described second The adjacent side of clamp assemblies (3).

4. supporting plate jig according to claim 1, which is characterized in that first clamp assemblies (2) include the first clamping Part (21) and the first limited block (22)；First limited block (22) is set to the front of the supporting plate (1)；Described first clamping member (21) corresponding with the first limited block (22).

5. supporting plate jig according to claim 4, which is characterized in that the first clamping member (21) includes the first adjusting group Part (211) and the first compact heap (212)；Described first adjusts the output end of component (211) and first compact heap (212) even It connects；First compact heap (212) and first limited block (22) are opposite；Described first is adjusted described in component (211) driving First compact heap (212) is mobile along the direction perpendicular to the first limited block (22).

6. supporting plate jig according to claim 5, which is characterized in that second clamp assemblies (3) include the second clamping Part (31) and the second limited block (32)；Second limited block (32) is set to the front of the supporting plate (1)；Second clamping piece (31) corresponding with the second limited block (32).

7. supporting plate jig according to claim 6, which is characterized in that second clamping piece (31) includes the second adjusting group Part (311) and the second compact heap (312)；Described second adjusts the output end of component (311) and second compact heap (312) even It connects；Second compact heap (312) and second limited block (32) are opposite；Described second is adjusted described in component (311) driving Second compact heap (312) is mobile along the direction perpendicular to the second limited block (32)；The movement of second compact heap (312) Direction is vertical with the moving direction of first compact heap (212).

8. supporting plate jig according to claim 7, which is characterized in that second limited block (32) is located at first limit The adjacent side of position block (22).

9. supporting plate jig according to claim 7 or 8, which is characterized in that it further includes bottom plate (4) and support block part (5)；The bottom plate (4) is connect by support block part (5) with the back side of the supporting plate (1)；Described first adjusts component (211) and second adjusts component (311) between the bottom plate (4) and supporting plate (1).

10. supporting plate jig according to claim 9, which is characterized in that the bottom plate (4) offers location hole (41).