CN206316533U - Electrokinetic cell stitch welding machine - Google Patents

Abstract

The utility model discloses a kind of electrokinetic cell stitch welding machine, including appliance stand and feeding mechanism, the feeding mechanism is arranged on appliance stand and for conveying electrical core of power battery；Hold-down mechanism, the hold-down mechanism is fixed on appliance stand and is arranged at feeding mechanism top position, and clamps electrical core of power battery in the vertical direction；Welding mechanism, is arranged at the sidepiece of feeding mechanism, for being welded to electrical core of power battery.Mash welder mechanical automation of the present utility model is manually operated instead of operating personnel, and soldering tip is more, improves the degree of accuracy and precision, improves operating efficiency and the uniformity of product.

Description

Electrokinetic cell stitch welding machine

Technical field

The utility model is related to a kind of mash welder, more particularly to a kind of electrokinetic cell stitch welding machine.

Background technology

Mash welder system uses the principle that two-sided two point excessively stream is welded, and two electrode pressurization workpiece make double layer of metal exist during work Form certain contact resistance under the pressure of two electrodes, and welding current from an electrode flow through another electrode when in two contact resistances Point forms the thermal welding of moment, and welding current moment flow to this electrode formation loop from another electrode along two workpiece, and not The internal structure of welded piece can be injured.The soldering tip of existing mash welder is few, and operating personnel are deposited using the artificial control to soldering tip The degree of accuracy is low, precision is low, homogeneity of product is poor, ineffective defect.

Utility model content

In view of the shortcomings of the prior art, the purpose of this utility model is that there is provided a kind of electrokinetic cell from moving point Welding machine, mechanical automation is manually operated instead of operating personnel, and soldering tip is more, improves the degree of accuracy and precision, improves operating efficiency With the uniformity of product.

To achieve these goals, the technical solution adopted in the utility model is such：A kind of electrokinetic cell is from moving point Welding machine, including

Appliance stand and feeding mechanism, the feeding mechanism are arranged on appliance stand and for conveying electrokinetic cell electricity Core；

Hold-down mechanism, the hold-down mechanism is fixed on appliance stand and is arranged at feeding mechanism top position, and is used for In the vertical direction clamps electrical core of power battery；

Welding mechanism, is arranged at the sidepiece of feeding mechanism, for being welded to electrical core of power battery.

As a kind of preferred scheme, the feeding mechanism includes setting on feedstock direction module, the feedstock direction module There is charging clamp jaw, the charging clamp jaw is connected with horizontal-clamping cylinder.

As a kind of preferred scheme, the feedstock direction module includes X and feeds slide rail to charging slide rail, Y-direction, the X to Charging slide rail on be provided with X to charging sliding block, the X to charging sliding block by X to charging motor drive X to charging slide rail on Move horizontally；Y-direction charging slide rail is arranged at X to being provided with Y-direction charging sliding block on charging sliding block, and on Y-direction charging slide rail； The Y-direction charging sliding block feeds cylinder drive by Y-direction and moved horizontally on Y-direction charging slide rail, and Y-direction feeds the top of sliding block It is connected with charging clamp jaw.

As a kind of preferred scheme, the hold-down mechanism includes compressing support and is arranged at the Z-direction pressure compressed on support Tight slide rail, the Z-direction compresses slide rail and is provided with Z-direction pressed slider；The Z-direction pressed slider is compressed in Z-direction and moved vertically on slide rail It is dynamic, and the bottom of Z-direction pressed slider is connected with the compressing member that vertical compression cylinder drives.

As a kind of preferred scheme, the charging clamp jaw is provided with battery core positioning close to the bottom of the one end for compressing support Inductor.

As a kind of preferred scheme, the welding mechanism includes welding support and the welding side being arranged on welding support To module, soldering tip is provided with the welding direction module.

As a kind of preferred scheme, the welding direction module includes X and welds slide rail, Z-direction to welding slide rail, Y-direction and weld Slide rail, the Z-direction welding slide rail is arranged on welding support；Z-direction welding saddle, the Z-direction are provided with the Z-direction welding slide rail Weld saddle and motor drive vertical shift on Z-direction welding slide rail is welded by Z-direction；The X is arranged at Z-direction weldering to welding slide rail Connect the top of saddle, and X is to being provided with X on welding slide rail to welding saddle, the X is to welding saddle by X to welding motor Drive X to welding slide rail on move horizontally；The Y-direction welding slide rail is arranged at X and welded to the top of welding saddle, and Y-direction Y-direction welding saddle is provided with slide rail；The Y-direction welding saddle welds motor by Y-direction and drives the level on Y-direction welding slide rail Move, and the soldering tip is arranged on Y-direction welding saddle.

As a kind of preferred scheme, the soldering tip includes soldering tip framework, and the top of the soldering tip framework is provided with capillary point From cylinder, the sidepiece of soldering tip framework is provided with capillary inductor；The end of the soldering tip framework is provided with for fixing capillary Capillary gland, the capillary is connected by the capillary wire being arranged in capillary gland with bonding machine；The soldering tip framework The other end be provided with pressure sensor, the pressure sensor and capillary are flexibly connected.

As a kind of preferred scheme, capillary driving member, one end of the capillary driving member are provided with the soldering tip framework End is connected with capillary, other end end is connected with pressure sensor, and capillary driving member is close to the one of pressure sensor End is arranged with buffer spring.

Compared with prior art, the beneficial effects of the utility model：Mash welder mechanical automation of the present utility model is replaced Operating personnel manually operate, and soldering tip is more, improve the degree of accuracy and precision, improve operating efficiency and the uniformity of product.

Brief description of the drawings

Fig. 1 is complete machine structure schematic diagram of the present utility model；

Fig. 2 is internal structure schematic diagram one of the present utility model；

Fig. 3 is internal structure schematic diagram two of the present utility model；

Fig. 4 is the structural representation one of feeding mechanism in the utility model；

Fig. 5 is the structural representation two of feeding mechanism in the utility model；

Fig. 6 is the structural representation one of welding mechanism in the utility model；

Fig. 7 is the structural representation two of welding mechanism in the utility model；

Fig. 8 is the structural representation of soldering tip in the utility model；

Fig. 9 is the sectional view of soldering tip framework in the utility model.

Embodiment

The utility model is further described with reference to specific embodiment.Following examples are only used for clearly Illustrate the technical solution of the utility model, and protection domain of the present utility model can not be limited with this.

Embodiment：

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of electrokinetic cell stitch welding machine, including

Appliance stand 1 and feeding mechanism 2, the feeding mechanism 2 are arranged on appliance stand 1 and for conveying electrokinetic cell Battery core 3；

Hold-down mechanism 4, the hold-down mechanism 4 is fixed on appliance stand 1 and is arranged at the top position of feeding mechanism 2, and Electrical core of power battery 3 is clamped in the vertical direction；

Welding mechanism 5, is arranged at the sidepiece of feeding mechanism 2, for being welded to electrical core of power battery 3.

In the present embodiment more specifically, the feeding mechanism 2 is two, two feeding mechanisms 2 with welding mechanism 5 Be set in parallel on appliance stand 1, two welding mechanisms 5 are respectively arranged at the both sides of appliance stand 1, electrical core of power battery 3 by Feeding mechanism 2 feed after control hold-down mechanism 4 compress, then using welding mechanism 5 carry out spot welding, using two feeding mechanisms 2 with Two welding mechanisms 5, can alternately spot welding, improve operating efficiency.

The utility model preferably also includes device outer cover 6 and device pedestal 7, plays a protective role；Described device outer cover 6 Top is additionally provided with tri coloured lantern 8 and man-machine interface 9, and wherein tri coloured lantern 8 plays warning function, and man-machine interface 9 is easy to operating personnel Operation；Start button switch 10 and electric switch 11 are provided with described device base 7, wherein start button switch 10 is used to open Moving point welding machine, electric switch 11 is detected for air pressure malleation, when air pressure is too low or without air pressure, mash welder alarm, tri coloured lantern 8 It is bright；More specifically, the both sides of device pedestal 7 are additionally provided with padded step 12.

As shown in Figure 4, Figure 5, the utility model preferably feeding mechanism 2 includes feedstock direction module 21, the charging Charging clamp jaw 22 is provided with direction module 21, the charging clamp jaw 22 is connected with horizontal-clamping cylinder 23；The charging side To module 21 include X to charging slide rail 24, Y-direction feed slide rail 25, the X to charging slide rail 24 on be provided with X to charging sliding block 27, the X to charging sliding block 27 by X to charging motor 28 drive X to charging slide rail 24 on move horizontally；The Y-direction is entered Material slide rail 25 be arranged at X to charging sliding block 27 on, and Y-direction charging slide rail 25 on be provided with Y-direction charging sliding block 29；The Y-direction is entered Material sliding block 29 drives fed in Y-direction and moved horizontally on slide rail 25 by Y-direction charging cylinder 26, and Y-direction feeds the top of sliding block 29 It is connected with charging clamp jaw 22.It is more specifically artificial that electrical core of power battery 3 is put into charging clamp jaw 22, level folder The tight control of cylinder 23 charging clamp jaw 22 clamps electrical core of power battery 3 in the horizontal direction, and then feedstock direction module 21 is controlled Charging clamp jaw 22, to spot welding position is moved horizontally in, Y-direction, the standard of spot welding can be found using feedstock direction module 21 in X True position, high precision, while make it that charging clamp jaw 22 clamps electrical core of power battery 3 using horizontal-clamping cylinder 23 so that dynamic Power battery battery core 3 in spot welding will not occurred level position skew, improve the degree of accuracy and homogeneity of product.

The utility model preferably hold-down mechanism 4 includes compressing support 41 and is arranged at the Z-direction compressed on support 41 Slide rail 42 is compressed, the Z-direction compresses slide rail 42 and is provided with Z-direction pressed slider 43；The Z-direction pressed slider 43 is compressed in Z-direction and slided Vertical shift on rail 42, and the bottom of Z-direction pressed slider 43 is connected with the compressing member 45 that vertical compression cylinder 44 drives；More have Body, support 41 will be compressed and be vertically fixedly installed on appliance stand 1, the height of compressing member 45 is adjusted so that compressing member 45 is just For the position directly above of electrical core of power battery 3, drive vertical compression cylinder 44 make it that Z-direction pressed slider 43 is compressed in Z-direction and slide Vertical shift on rail 42, so that driving the in the vertical direction of compressing member 45 to move and compressed to electrical core of power battery 3 causes power Vertical position skew will not occur in spot welding for battery battery core 3, improve the degree of accuracy and homogeneity of product；Specifically, here Compressing member 45 is using " Qian " shape pawl；More specifically, by hand 46 control synchronizing wheels 47 on Timing Belt 48 movement so as to Drive screw 49 make it that Z-direction pressed slider 43 compresses vertical shift on slide rail 42 in Z-direction.

The preferably described charging clamp jaw 22 of the utility model is provided with battery core close to the bottom of the one end for compressing support 41 to be determined Position inductor 210, for more accurately and precisely positioning so that electrical core of power battery 3 can be sent to accurately by feeding mechanism 2 Spot welding position.

As shown in Figure 6, Figure 7, the utility model preferably welding mechanism 5 includes welding support 51 and is arranged at welding Soldering tip 53 is provided with welding direction module 52 on support 51, the welding direction module 52；The welding direction module 52 Slide rail 55, Z-direction being welded to welding slide rail 54, Y-direction including X and welding slide rail 56, the Z-direction welding slide rail 56 is arranged at welding support On 51；Z-direction welding saddle 57 is provided with the Z-direction welding slide rail 56, the Z-direction welds saddle 57 and welds motor 58 by Z-direction Drive the vertical shift on Z-direction welding slide rail 56；The X is arranged at the top that Z-direction welds saddle 57, and X to welding slide rail 54 X is provided with to welding slide rail 54 to welding saddle 59, the X is driven in X to welding saddle 59 by X to welding motor 510 Moved horizontally on to welding slide rail 54；The Y-direction welding slide rail 55 is arranged at X and slided to the top of welding saddle 59, and Y-direction welding Y-direction welding saddle 511 is provided with rail 55；The Y-direction welding saddle 511 welds motor 512 by Y-direction and driven in Y-direction welding Moved horizontally on slide rail 55, and the soldering tip 53 is arranged on Y-direction welding saddle 511；More specifically, using welding direction mould 52 pairs of soldering tips 53 of group carry out the movement on horizontally and vertically direction so that soldering tip 53 can accurately find electrical core of power battery 3 The position of upper spot welding, improves the degree of accuracy and homogeneity of product；More specifically, it is equal on each welding mechanism 5 in the present embodiment It is provided with two soldering tips 53；More specifically, the bottom of two soldering tips 53, second soldering tip 513 therein is provided with the second soldering tip X To saddle 514, the second soldering tip X to saddle 514 by the second soldering tip X to motor 515 in the second soldering tip X to water on slide rail 516 Translation is dynamic, and the second soldering tip X is arranged on the Y-direction of the second soldering tip 513 welding saddle 511 to slide rail 516, so as to ensure two welderings First 53 can be with isolated operation.

As shown in figure 8, the utility model preferably the soldering tip 53 include soldering tip framework 531, the soldering tip framework 531 it is upper Portion is provided with capillary separation cylinder 532, and the sidepiece of soldering tip framework 531 is provided with capillary inductor 533；The soldering tip framework 531 End be provided with capillary gland 535 for fixing capillary 534, the capillary 534 is by being arranged in capillary gland 535 Capillary wire 536 be connected with bonding machine 13；The other end of the soldering tip framework 531 is provided with pressure sensor 537, the pressure Force snesor 537 is flexibly connected with capillary 534；Wherein capillary separation cylinder 532 is used to protect soldering tip 53 and electrical core of power battery 3, facilitate capillary 534 to depart from electrical core of power battery 3；More specifically, 534 points of the capillary on each soldering tip 53 be upper capillary with Lower capillary, wherein upper capillary is connected with capillary inductor 533, pressure sensor 537 respectively with lower capillary；During implementation, capillary 534 when touching electrical core of power battery 3, and the capillary inductor 533 of upper capillary and lower capillary has been intended to signal, while two pressure Sensor 537 will reach after certain pressure that ability energization is welded；The top of device outer cover 6 is wherein provided with welding Machine 13 and pressure sensor controller 14, bonding machine 13 are powered by capillary wire 536 and carry out spot weld operation, pressure sensor control The control pressure sensor 537 of device 14 processed.

As shown in figure 9, being provided with capillary driving member 538, the capillary in the utility model preferably soldering tip framework 531 One end end of driving member 538 is connected with capillary 534, other end end is connected with pressure sensor 537, and capillary is driven Part 538 is arranged with buffer spring 539 close to one end of pressure sensor 537, and capillary 534 is by capillary driving member 538, buffering elastic Spring 539 is connected to pressure sensor 537, so as to realize flexible connection.

During specific implementation, electrical core of power battery 3 manually is sequentially placed on two feeding mechanisms 2, is switched by start button 10, mash welder starts automatic running, and now battery core positioning inductor 210 will have induced signal, and hold-down mechanism 4 treats the dynamic of spot welding Power battery battery core 3 is compressed, and the soldering tip 53 on two welding mechanisms 5 carries out spot welding simultaneously, and capillary 534 touches electrokinetic cell During battery core 3, the capillary inductor 533 of upper capillary, lower capillary on soldering tip 53 will have signal, while two pressure sensors 537 Reach after certain pressure, ability energization is welded；Each each soldering tip 53 of welding mechanism 5 is in the upward displacements of X Keeping two soldering tips 53 can act under certain position, particular case, to ensure that each soldering tip 53 has enough spaces to enter Row individually welding；More specifically, the wiring in the present embodiment may be contained within tank chain 14.

The above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of the utility model know-why is not departed from, some improvement and deformation can also be made, these change Enter and deform and also should be regarded as protection domain of the present utility model.

Claims (9)

1. a kind of electrokinetic cell stitch welding machine, it is characterised in that：Including

Appliance stand and feeding mechanism, the feeding mechanism are arranged on appliance stand and for conveying electrical core of power battery；

Hold-down mechanism, the hold-down mechanism is fixed on appliance stand and is arranged at feeding mechanism top position, and for perpendicular Nogata clamps electrical core of power battery upwards；

Welding mechanism, is arranged at the sidepiece of feeding mechanism, for being welded to electrical core of power battery.

2. a kind of electrokinetic cell stitch welding machine according to claim 1, it is characterised in that：The feeding mechanism include into Expect to be provided with charging clamp jaw on direction module, the feedstock direction module, the charging clamp jaw is connected with horizontal-clamping cylinder.

3. a kind of electrokinetic cell stitch welding machine according to claim 2, it is characterised in that：The feedstock direction module bag Include X to charging slide rail, Y-direction feed slide rail, the X to charging slide rail on be provided with X to charging sliding block, the X to charging sliding block By X to charging motor drive X to charging slide rail on move horizontally；The Y-direction charging slide rail is arranged at X to charging sliding block On, and Y-direction charging slide rail on be provided with Y-direction charging sliding block；The Y-direction charging sliding block feeds cylinder by Y-direction and drives to enter in Y-direction Moved horizontally on material slide rail, and the top of Y-direction charging sliding block is connected with charging clamp jaw.

4. a kind of electrokinetic cell stitch welding machine according to claim 2, it is characterised in that：The hold-down mechanism includes pressure Locking bracket and the Z-direction being arranged on compression support compress slide rail, and the Z-direction compresses slide rail and is provided with Z-direction pressed slider；It is described Z-direction pressed slider compresses vertical shift on slide rail in Z-direction, and the bottom of Z-direction pressed slider is connected with vertical compression cylinder driving Compressing member.

5. a kind of electrokinetic cell stitch welding machine according to claim 4, it is characterised in that：The charging clamp jaw is close The bottom for compressing one end of support is provided with battery core positioning inductor.

6. a kind of electrokinetic cell stitch welding machine according to claim 1, it is characterised in that：The welding mechanism includes weldering Soldering tip is provided with the welding direction module for connecing support and being arranged on welding support, the welding direction module.

7. a kind of electrokinetic cell stitch welding machine according to claim 6, it is characterised in that：The welding direction module bag Include X and weld slide rail, Z-direction welding slide rail to welding slide rail, Y-direction, the Z-direction welding slide rail is arranged on welding support；The Z-direction Z-direction welding saddle is provided with welding slide rail, Z-direction welding saddle drives welded in Z-direction and erected on slide rail by Z-direction welding motor Translation is moved；The X to welding slide rail be arranged at Z-direction weld saddle top, and X to welding slide rail on be provided with X to welding slide Part, the X to welding saddle by X to welding motor drive X to welding slide rail on move horizontally；The Y-direction welds slide rail X is arranged to weld to the top of welding saddle, and Y-direction and be provided with Y-direction welding saddle on slide rail；The Y-direction welding saddle passes through Y Drive and moved horizontally on Y-direction welding slide rail to welding motor, and the soldering tip is arranged on Y-direction welding saddle.

8. a kind of electrokinetic cell stitch welding machine according to claim 6, it is characterised in that：The soldering tip includes soldering tip frame Frame, the top of the soldering tip framework is provided with capillary separation cylinder, and the sidepiece of soldering tip framework is provided with capillary inductor；The weldering The end of head framework is provided with capillary gland for fixing capillary, and the capillary passes through the capillary that is arranged in capillary gland Wire is connected with bonding machine；The other end of the soldering tip framework is provided with pressure sensor, and the pressure sensor and capillary are soft Property connection.

9. a kind of electrokinetic cell stitch welding machine according to claim 8, it is characterised in that：Set in the soldering tip framework There is a capillary driving member, one end end of the capillary driving member is connected with capillary, other end end is connected with pressure sensor Connect, and capillary driving member is arranged with buffer spring close to one end of pressure sensor.