CN208994071U - A kind of battery core binding apparatus - Google Patents

Abstract

The utility model relates to new-energy automobile power battery production fields, and in particular to a kind of battery core binding apparatus.Battery core binding apparatus include include workbench, the chuck for clamping battery core mould group, the jam-packed mechanism for battery core mould group to be squeezed into mould group thickness and be used for battery core mould group carry out band banding mechanism, the chuck is installed on the workbench, the jam-packed mechanism includes jam-packed power part and stripper plate, the jam-packed power part is installed on the workbench and is sequentially connected with stripper plate, stripper plate can be driven to compress the battery core mould group on chuck, the banding mechanism is installed on the workbench, and carries out band to the battery core mould group on chuck.By the way that chuck and jam-packed mechanism is arranged in workbench, battery core mould group is squeezed into mould group thickness, banding mechanism carries out band to the battery core mould group squeezed, and working efficiency improves.

Description

A kind of battery core binding apparatus

Technical field

The utility model relates to new-energy automobile power battery production fields, and in particular to a kind of battery core binding apparatus.

Background technique

Power battery is the power supply in powered tools source, Duo Zhiwei electric car, electric train, electrical salf-walking Vehicle, golf cart provide the battery of power.Its main distinction is in the starting battery for car engine start.It mostly uses Sealing valve port formula lead-acid accumulator, opened type tube type lead-acid accumulator and lithium iron phosphate storage battery.

In the prior art, battery core mould group is regular is placed on pallet, flows in Multiple chain flow line with pallet Designated position, battery core mould group are clamped positioning, carry out band by the battery core mould group manually to jam-packed later, but band is imitated in this way Rate is low, and higher cost.

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 core bundle Bundling device overcomes the defect of band low efficiency in the prior art.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of battery core binding apparatus is provided, including It workbench, the chuck for clamping battery core mould group, the jam-packed mechanism for battery core mould group to be squeezed into mould group thickness and is used for The banding mechanism of band is carried out to battery core mould group, the chuck is installed on the workbench, and the jam-packed mechanism includes jam-packed power Portion and stripper plate, the jam-packed power part are installed on the workbench and are sequentially connected with stripper plate, can drive stripper plate pressing clip Battery core mould group on disk, the banding mechanism are installed on the workbench, and carry out band to the battery core mould group on chuck.

The still more preferably scheme of the utility model is: the jam-packed mechanism further includes being oppositely arranged on stripper plate First press section and the second press section, first press section include the first pressing plate and the first power part, first power part It is mounted on stripper plate, the first pressing plate can be driven close to or far from the second press section.

The still more preferably scheme of the utility model is: first power part includes motor and screw rod, the screw rod It is sequentially connected respectively with motor, the first pressing plate, the motor is mounted on stripper plate, and drives the first pressing plate to move by screw rod It is dynamic.

The still more preferably scheme of the utility model is: second press section includes the second pressing plate and cylinder, described Cylinder is mounted on stripper plate, and is sequentially connected with the second pressing plate, and the second pressing plate can be driven close to or far from the first pressing plate.

The still more preferably scheme of the utility model is: the chuck includes bottom plate, for clamping battery core mould group X-axis side To the first clamping section and the second clamping section for clamping battery core mould group Y direction, first clamping section include first Positioning plate, substrate, the first clamping plate and spring, first positioning plate and substrate is opposite is mounted on bottom plate, described first Clamping plate is installed on substrate, and the spring one end is installed on substrate, and the other end is mounted on the first clamping plate, and described second Clamping section is installed on the workbench.

The still more preferably scheme of the utility model is: second clamping section includes the second positioning plate, the second clamping Plate and the second power part, second positioning plate and the second clamping plate is opposite is mounted on bottom plate, second power part It is installed on the workbench, and is sequentially connected with the second clamping plate, the second clamping plate can be driven close to or far from the second positioning plate.

The still more preferably scheme of the utility model is: the battery core binding apparatus further includes third power part, described Third power part and substrate are sequentially connected, can drive substrate movement drive the first clamping plate far from the first pressing plate.

The still more preferably scheme of the utility model is: the battery core binding apparatus further includes for conveying battery core mould group Transport establishment and jacking mechanism, the transport establishment be installed on the workbench, the chuck is mounted in transport establishment, described Jacking mechanism is installed on the workbench, and is sequentially connected with bottom plate, bottom plate can be driven to move up and down.

The still more preferably scheme of the utility model is: the substrate is equipped with T-slot, and the battery core binding apparatus is also Including the T-type convex block cooperated with T-slot, the third power part and T-type convex block are sequentially connected, and T-type convex block is located at T-slot Surface；When jacking mechanism driving chuck moves up, the T-type convex block engages with T-slot.

The still more preferably scheme of the utility model is: the battery core binding apparatus further includes the resistance for stopping chuck Retaining device, the blocking mechanism include fixed plate, stop cylinder and the inductor for incuding position of chuck, the fixed plate It is installed on the workbench, the stop cylinder and inductor are installed in fixed plate.

The beneficial effects of the utility model are, by the way that chuck and jam-packed mechanism is arranged in workbench, battery core mould group is squeezed It is pressed into mould group thickness, banding mechanism carries out band to the battery core mould group squeezed, and working efficiency improves.

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 structural schematic diagram of the utility model battery core binding apparatus；

Fig. 2 is the utility model battery core modular structure schematic diagram；

Fig. 3 is the structural schematic diagram that the utility model battery core is stranded bundling device jam-packed mechanism；

Fig. 4 is the structural schematic diagram that the utility model battery core is stranded bundling device chuck；

Fig. 5 is the portion A regional enlarged drawing in Fig. 1；

Fig. 6 is the structural schematic diagram of the utility model battery core binding apparatus blocking mechanism.

Specific embodiment

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

As shown in Figure 1, 2, 3, battery core binding apparatus described in the utility model includes workbench 200, for clamping battery core It the chuck 300 of mould group 100, the jam-packed mechanism 400 for battery core mould group 100 to be squeezed into mould group thickness and is used for battery core mould Group 100 carries out the banding mechanism 500 of band, and the chuck 300 is mounted on workbench 200, and the jam-packed mechanism 400 includes squeezing Tight power part 410 and stripper plate 411, the jam-packed power part 410, which is mounted on workbench 200 and is driven with stripper plate 411, to be connected It connects, stripper plate 411 can be driven to compress the battery core mould group 100 on chuck 300, the banding mechanism 500 is mounted on workbench 200 On, band is carried out to the battery core mould group 100 on chuck 300.By the way that chuck 300 and jam-packed mechanism 400 is arranged in workbench 200, Battery core mould group 100 is squeezed into mould group thickness, 500 pairs of the banding mechanism battery core mould groups 100 squeezed carry out band, working efficiency It improves.

As shown in Figure 1, 2, 3, the jam-packed mechanism 400 further includes the first press section being oppositely arranged on stripper plate 411 420 and second press section 430, first press section 420 include the first pressing plate 421 and the first power part 422, described first is dynamic Power portion 422 is mounted on stripper plate 411, and the first pressing plate 421 can be driven close to or far from the second press section 430.In the present embodiment In, the jam-packed power part 410 selects cylinder, and stripper plate 411 will compress above battery core mould group 100,420 He of the first press section Second press section 430 clamps battery core mould group 100, and jam-packed power part 410 can drive stripper plate 411 to move up and down, and drives first Press section 420 and the second power part 430 move up and down.Chuck 300 clamps battery core mould group 100, and jam-packed mechanism 400 is by battery core It being compressed above mould group 100, the first press section 420 and the second press section 430 clamp battery core mould group 100, and banding mechanism 500 works, Battery core mould group 100 carries out first time band；Later, chuck 300 unclamps battery core mould group 100, and jam-packed power part 410 drives stripper plate 411 move upwards, and battery core mould group 100 is driven to move up, and banding mechanism 500 carries out second of band to battery core mould group 100, Reinforce the stabilization of battery core mould group 100.

As shown in figure 3, first power part 422 include motor 423 and screw rod 424, the screw rod 424 respectively with motor 423, the first pressing plate 421 is sequentially connected, and the motor 423 is mounted on stripper plate 411, and passes through first pressure of the driving of screw rod 424 Plate 421 is mobile.Motor 423 and screw rod 424 drive the first pressing plate 421 mobile, and battery core mould group 100 is clamped.Described second squeezes Portion 430 includes the second pressing plate 431 and cylinder 432, and the cylinder 432 is mounted on stripper plate 411, and is passed with the second pressing plate 431 Dynamic connection, can drive the second pressing plate 431 close to or far from the first pressing plate 421.First power part 422 respectively drives with cylinder 432 First pressing plate 421 is drawn close with the second pressing plate 431 to centre, the thickness that 100 jam-packed of battery core mould group is required at mould composing type, and is squeezed Pressure maximum can reach 10000N.Meanwhile pressure sensor is equipped on the first pressing plate 421, pressure sensor can squeeze Record assembling pressure, mould composing type length in real time in the process, it is more convenient, improve working efficiency.

As shown in figure 4, the chuck 300 includes bottom plate 310, the first folder for clamping battery core mould group 100X axis direction Tight portion 320 and the second clamping section 330 for clamping battery core mould group 100Y axis direction, first clamping section 320 include the One positioning plate 321, substrate 322, the first clamping plate 323 and spring 324, first positioning plate 321 and the opposite peace of substrate 322 On bottom plate 310, first clamping plate 323 is mounted on substrate 322, and described 324 one end of spring is mounted on substrate 322 On, the other end is mounted on the first clamping plate 323, and second clamping section 330 is mounted on workbench 200.It is set on substrate 322 There is guiding axis, guiding axis one end is mounted on substrate 322, and one end is mounted in the first clamping class 323, and spring 324 is arranged in base Between plate 322 and the first clamping plate 323, it is adapted to the battery core of different in width.Meanwhile first positioning plate 321 can also have it is more Block plate is constituted.Second clamping section 330 includes the second positioning plate 331, the second clamping plate 332 and the second power part 333, Second positioning plate 331 and the second clamping plate 332 is opposite is mounted on bottom plate 310, second power 333 is mounted on It on workbench 200, and is sequentially connected with the second clamping plate 332, the second clamping plate 332 can be driven close to or far from the second positioning plate 331, it is applicable to the battery core mould group 100 of different-thickness.In the present embodiment, second power part 333 selects cylinder, together When, the first positioning plate 321 is vertical with the second positioning plate 331 to be mounted on bottom plate 310, and second clamping section 330 is additionally provided with Buffer spring and pedestal, pedestal are slidably mounted on bottom plate 310, and are sequentially connected with the second power part 333, and described second Clamping plate 332 is installed on the base, and the buffer spring is arranged between pedestal and the second clamping plate 332, it is possible to prevente effectively from Since the second power part 333 pushes the thrust of pedestal is excessive to cause to damage battery core.

As shown in Figure 1, the battery core binding apparatus further includes third power part 210, the third power part 210 and substrate 322 transmission connection, can drive substrate 322 movement drive the first clamping plate 323 far from the first pressing plate 321.When battery core mould group 100 into When second of band of row, 210 drive substrate 322 of third power part is mobile, drives the first clamping plate 323 far from the first pressing plate 321, the second power part 333 drives the second clamping plate 332 far from the second positioning plate 333, and chuck 300 unclamps battery core mould group 100, It drives battery core mould group 100 to move up by jam-packed mechanism 400 later, carries out band.

As shown in Figure 1, the battery core binding apparatus further includes transport establishment 700 and the top for conveying battery core mould group 100 It rises mechanism (being not drawn into figure), the transport establishment is mounted on workbench 200, and the chuck 300 is mounted in transport establishment, The jacking mechanism is mounted on workbench 200, and is sequentially connected with bottom plate 310, and bottom plate 310 can be driven to move up and down.Transport Mechanism 500 transports the battery core mould group 100 to band to jam-packed mechanism 400, and jacking mechanism driving bottom plate 310 moves up, Convenient for banding mechanism 500 to 100 band of battery core mould group.

As shown in Figure 1,5, the substrate 322 is equipped with T-slot 324, and the battery core binding apparatus further includes and T-slot The T-type convex block 211 of 324 cooperations, the third power part 210 are sequentially connected with T-type convex block 211, and T-type convex block 211 is located at T-type The surface of slot 324；When jacking mechanism driving chuck 300 moves up, the T-type convex block 211 blocks with T-slot 324 It closes.Jacking mechanism driving chuck 300 moves up, and carries out first time band, third power part 210 passes through T-type convex block 211 later It is sequentially connected with substrate 322, the first clamping plate 323 of driving drives battery core mould group far from the first positioning plate 321, jam-packed mechanism 400 100 move up, and carry out second of band.

As a shown in Figure 6, the battery core binding apparatus further includes the blocking mechanism 600 for stopping chuck 300, the resistance Retaining device 600 includes fixed plate 610, stop cylinder 620 and the inductor 630 for incuding 300 position of chuck, the fixation Plate 610 is mounted on workbench 200, and the stop cylinder 620 and inductor 630 are installed in fixed plate 610.Fixed plate 610 are equipped with bracket 631, and inductor 630 is mounted on bracket 631, when the transport of bottom plate 310 to 400 lower section of jam-packed mechanism, resistance It keeps off cylinder 620 to stretch out, bottom plate 310 is prevented to continue to move.In the present embodiment, the inductor 630 selects optoelectronic switch, photoelectricity Switch can detecte whether bottom plate 310 transports the position, improve working efficiency.

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 core binding apparatus, it is characterised in that: chuck including workbench, for clamping battery core mould group, for will be electric Core model group is squeezed into the jam-packed mechanism of mould group thickness and the banding mechanism for carrying out band to battery core mould group, the chuck peace On the table, the jam-packed mechanism includes jam-packed power part and stripper plate to dress, and the jam-packed power part is installed on the workbench And be sequentially connected with stripper plate, stripper plate can be driven to compress the battery core mould group on chuck, the banding mechanism is mounted on workbench On, band is carried out to the battery core mould group on chuck.

2. battery core binding apparatus according to claim 1, it is characterised in that: the jam-packed mechanism further includes being oppositely arranged on The first press section and the second press section on stripper plate, first press section includes the first pressing plate and the first power part, described First power part is mounted on stripper plate, and the first pressing plate can be driven close to or far from the second press section.

3. battery core binding apparatus according to claim 2, it is characterised in that: first power part includes motor and silk Bar, the screw rod are sequentially connected with motor, the first pressing plate respectively, and the motor is mounted on stripper plate, and is driven by screw rod First pressing plate is mobile.

4. battery core binding apparatus according to claim 2, it is characterised in that: second press section include the second pressing plate and Cylinder, the cylinder are mounted on stripper plate, and are sequentially connected with the second pressing plate, and the second pressing plate can be driven close to or far from first Pressing plate.

5. battery core binding apparatus according to claim 1, it is characterised in that: the chuck includes bottom plate, for clamping electricity First clamping section of core model group X-direction and the second clamping section for clamping battery core mould group Y direction, described first clamps Portion include the first positioning plate, substrate, the first clamping plate and spring, first positioning plate and substrate it is opposite be mounted on bottom plate On, first clamping plate is installed on substrate, and the spring one end is installed on substrate, and the other end is mounted on the first clamping plate On, second clamping section is installed on the workbench.

6. battery core binding apparatus according to claim 5, it is characterised in that: second clamping section includes the second positioning Plate, the second clamping plate and the second power part, second positioning plate and the second clamping plate is opposite is mounted on bottom plate are described Second power part is installed on the workbench, and is sequentially connected with the second clamping plate, and the second clamping plate can be driven close to or far from the Two positioning plates.

7. battery core binding apparatus according to claim 6, it is characterised in that: the battery core binding apparatus further includes that third is dynamic Power portion, the third power part and substrate are sequentially connected, can drive substrate movement drive the first clamping plate far from the first pressing plate.

8. battery core binding apparatus according to claim 7, it is characterised in that: the battery core binding apparatus further includes for defeated The transport establishment of power transmission core model group and jacking mechanism, the transport establishment are installed on the workbench, and the chuck is mounted on transport In mechanism, the jacking mechanism is installed on the workbench, and is sequentially connected with bottom plate, bottom plate can be driven to move up and down.

9. battery core binding apparatus according to claim 8, it is characterised in that: the substrate is equipped with T-slot, the battery core Binding apparatus further includes the T-type convex block with T-slot cooperation, and the third power part and T-type convex block are sequentially connected, T-type convex block position In the surface of T-slot；When jacking mechanism driving chuck moves up, the T-type convex block engages with T-slot.

10. battery core binding apparatus according to claim 8, it is characterised in that: the battery core binding apparatus further includes being used for Stop the blocking mechanism of chuck, the blocking mechanism includes fixed plate, stop cylinder and the induction for incuding position of chuck Device, the fixed plate are installed on the workbench, and the stop cylinder and inductor are installed in fixed plate.