CN202245301U

CN202245301U - Moving and loading mechanism for power battery

Info

Publication number: CN202245301U
Application number: CN2011203035220U
Authority: CN
Inventors: 刘骏
Original assignee: SHENZHEN UNICOMP TECHNOLOGY Co Ltd
Current assignee: SHENZHEN UNICOMP TECHNOLOGY Co Ltd
Priority date: 2011-08-19
Filing date: 2011-08-19
Publication date: 2012-05-30
Anticipated expiration: 2021-08-19

Abstract

The utility model relates to a moving and loading mechanism, in particular to a moving and loading mechanism for a power battery. The utility model provides the moving and loading mechanism for the power battery, which comprises an X axis feeding mechanism and a Z axis lifting mechanism, wherein the X axis feeding mechanism comprises an X axis fixing base which is provided with an X axis driving part; the X axis driving part is connected with an X axis sliding table; the Z axis lifting mechanism comprises a Z axis driving part; the Z axis driving part is arranged on the X axis sliding table and is connected with a Z axis sliding table; and the Z axis sliding table is connected with a moving and loading part. The moving and loading mechanism for the power battery has the beneficial effects that the automatic moving and loading of the power battery is achieved, the automation is favorably realized, and the work efficiency is improved.

Description

The electrokinetic cell transfer mechanism

Technical field

The utility model relates to transfer mechanism, relates in particular to a kind of electrokinetic cell transfer mechanism.

Background technology

In the production process of battery, need battery (like electrokinetic cell) be moved to position to be processed or to be detected by deposit position, at present, mainly be to accomplish said process with manual work, cause degree of automation lower, work efficiency is lower.

Summary of the invention

In order to solve the problems of the prior art, the utility model provides a kind of electrokinetic cell transfer mechanism.

The utility model provides a kind of electrokinetic cell transfer mechanism, comprises X axle feed mechanism and Z axle lifting mechanism, wherein; Said X axle feed mechanism comprises X axle permanent seat, and said X axle permanent seat is provided with X axle drive division, and said X axle drive division is connected with X axle slide unit; Said Z axle lifting mechanism comprises Z axle drive division; Said Z axle drive division is arranged on the said X axle slide unit, and said Z axle drive division is connected with Z axle slide unit, and said Z axle slide unit is connected with transfer portion.

As the further improvement of the utility model, said transfer portion is a sucker.

As the further improvement of the utility model, said transfer portion is a vacuum cup.

As the further improvement of the utility model, said vacuum cup has two at least.

As the further improvement of the utility model, said X axle permanent seat is provided with X spindle guide bar, and said X axle slide unit and said X spindle guide bar are moving sets.

As the further improvement of the utility model, the bottom of said X axle slide unit is connected with slide block, and said slide block set is located on the said X spindle guide bar.

As the further improvement of the utility model, said X axle feed mechanism is perpendicular to said Z axle lifting mechanism.

As the further improvement of the utility model, said X axle slide unit is L shaped.

As the further improvement of the utility model, said X axle slide unit is connected with Z axle permanent seat, and said Z axle permanent seat is provided with Z spindle guide hole, and said Z axle slide unit is connected with Z spindle guide bar, and said Z spindle guide bar is arranged in the said Z spindle guide hole.

As the further improvement of the utility model, said X axle drive division is an X axle cylinder, and said Z axle drive division is a Z axle cylinder.

The beneficial effect of the utility model is: through such scheme; Z axle lifting mechanism moves back and forth under the driving of X axle feed mechanism in transfer initial position and transfer terminal location, and transfer portion then under the driving of Z axle lifting mechanism, does the oscilaltion campaign; To realize that material and release are got in the transfer of electrokinetic cell; To realize automatic transfer to electrokinetic cell, help realizing automation, improved work efficiency.

Description of drawings

Fig. 1 is the perspective view of a kind of electrokinetic cell transfer mechanism of the utility model;

Fig. 2 is the front view of the said electrokinetic cell transfer mechanism of the utility model.

The specific embodiment

Below in conjunction with the description of drawings and the specific embodiment the utility model is further specified.

Drawing reference numeral among Fig. 1 to Fig. 2 is: X axle permanent seat 10; X axle drive division 11; X spindle guide bar 12; X axle slide unit 13; Slide block 14; Z axle permanent seat; Z axle drive division 21; Z spindle guide bar 22; Z axle slide unit 23; Transfer portion 3.

To shown in Figure 2, a kind of electrokinetic cell transfer mechanism comprises X axle feed mechanism and Z axle lifting mechanism like Fig. 1; Wherein, Said X axle feed mechanism comprises X axle permanent seat 10, and said X axle permanent seat 10 is provided with X axle drive division 11, and said X axle drive division 11 is connected with X axle slide unit 13; Said Z axle lifting mechanism comprises Z axle drive division 21; Said Z axle drive division 21 is arranged on the said X axle slide unit 13, and said Z axle drive division 21 is connected with Z axle slide unit 23, and said Z axle slide unit 23 is connected with the transfer portion 3 that is used for the transfer electrokinetic cell.

To shown in Figure 2, said transfer portion 3 is a sucker, can be used for adsorbing electrokinetic cell like Fig. 1.

To shown in Figure 2, said transfer portion 3 is a vacuum cup, can be used for adsorbing electrokinetic cell like Fig. 1.

To shown in Figure 2, said vacuum cup has two at least, adsorbable a plurality of electrokinetic cells like Fig. 1.

To shown in Figure 2, said X axle permanent seat 10 is provided with X spindle guide bar 12 like Fig. 1, and said X axle slide unit 13 is a moving sets with said X spindle guide bar 12, and wherein, said X axle slide unit 13 is said X spindle guide bar 12 horizontal sway in the driving lower edge of X axle drive division 11.

To shown in Figure 2, the bottom of said X axle slide unit 13 is connected with slide block 14 like Fig. 1, and said slide block 14 is set on the said X spindle guide bar 12.

To shown in Figure 2, said X axle feed mechanism is perpendicular to said Z axle lifting mechanism like Fig. 1, and wherein, the direction of feed of said X axle feed mechanism is a horizontal direction, and said Z axle lifting mechanism then is the oscilaltion feeding.

To shown in Figure 2, said X axle slide unit 13 is L shaped like Fig. 1.

To shown in Figure 2, said X axle slide unit 13 is connected with Z axle permanent seat 20 like Fig. 1, and said Z axle permanent seat 20 is provided with Z spindle guide hole; Said Z axle slide unit 23 is connected with Z spindle guide bar 22; Said Z spindle guide bar 22 is arranged in the said Z spindle guide hole, and wherein, said Z axle permanent seat 20 is perpendicular to said X axle slide unit 13.

To shown in Figure 2, said X axle drive division 11 is an X axle cylinder like Fig. 1, and said Z axle drive division 21 is a Z axle cylinder.

A kind of electrokinetic cell transfer mechanism that the utility model provides; Z axle lifting mechanism moves back and forth under the driving of X axle feed mechanism in transfer initial position and transfer terminal location; Transfer portion 3 is then under the driving of Z axle lifting mechanism; Do the oscilaltion campaign, to realize that material and release are got in the transfer of electrokinetic cell.

A kind of electrokinetic cell transfer mechanism that the utility model provides has been realized the automatic transfer to electrokinetic cell, helps realizing automation, has improved work efficiency.

Above content is the further explain that combines concrete preferred implementation that the utility model is done, and can not assert that the practical implementation of the utility model is confined to these explanations.For the those of ordinary skill of technical field under the utility model, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be regarded as belonging to the protection domain of the utility model.

Claims

1. electrokinetic cell transfer mechanism; It is characterized in that: comprise X axle feed mechanism and Z axle lifting mechanism, wherein, said X axle feed mechanism comprises X axle permanent seat (10); Said X axle permanent seat (10) is provided with X axle drive division (11); Said X axle drive division (11) is connected with X axle slide unit (13), and said Z axle lifting mechanism comprises Z axle drive division (21), and said Z axle drive division (21) is arranged on the said X axle slide unit (13); Said Z axle drive division (21) is connected with Z axle slide unit (23), and said Z axle slide unit (23) is connected with transfer portion (3).

2. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: said transfer portion (3) is a sucker.

3. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: said transfer portion (3) is a vacuum cup.

4. electrokinetic cell transfer mechanism according to claim 3 is characterized in that: said vacuum cup has two at least.

5. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: said X axle permanent seat (10) is provided with X spindle guide bar (12), and said X axle slide unit (13) is a moving sets with said X spindle guide bar (12).

6. electrokinetic cell transfer mechanism according to claim 5 is characterized in that: the bottom of said X axle slide unit (13) is connected with slide block (14), and said slide block (14) is set on the said X spindle guide bar (12).

7. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: said X axle feed mechanism is perpendicular to said Z axle lifting mechanism.

8. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: said X axle slide unit (13) is for L shaped.

9. electrokinetic cell transfer mechanism according to claim 1; It is characterized in that: said X axle slide unit (13) is connected with Z axle permanent seat (20); Said Z axle permanent seat (20) is provided with Z spindle guide hole; Said Z axle slide unit (23) is connected with Z spindle guide bar (22), and said Z spindle guide bar (22) is arranged in the said Z spindle guide hole.

10. electrokinetic cell transfer mechanism according to claim 1 is characterized in that: (110 are X axle cylinder to said X axle drive division, and said Z axle drive division (21) is a Z axle cylinder.