CN206882984U - Automatic butt-welding machine - Google Patents
Automatic butt-welding machine Download PDFInfo
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- CN206882984U CN206882984U CN201621386333.3U CN201621386333U CN206882984U CN 206882984 U CN206882984 U CN 206882984U CN 201621386333 U CN201621386333 U CN 201621386333U CN 206882984 U CN206882984 U CN 206882984U
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Abstract
Automatic butt-welding machine is the utility model is related to, including:Frame, plummer, horicontal motion mechanism, spot-welding mechanism and feed mechanism, horicontal motion mechanism is arranged in frame, plummer and horicontal motion mechanism drive connection, plummer is movably set in frame under horicontal motion mechanism driving, spot-welding mechanism is set with respect to plummer, and spot-welding mechanism is arranged at one side of the plummer backwards to horicontal motion mechanism, feed mechanism is arranged at spot-welding mechanism side.Battery is placed on plummer, nickel strap is delivered to by spot-welding mechanism by feed mechanism, one end of nickel strap is welded on a battery by spot-welding mechanism, feed mechanism cuts off nickel strap, horizontal drive mechanism driving plummer motion so that spot-welding mechanism aligns another battery, the other end of nickel strap is soldered on another battery by spot-welding mechanism, so as to complete the welding of two batteries, welding efficiency is effectively increased, and reduce production cost.
Description
Technical field
Battery processing technique field is the utility model is related to, more particularly to automatic butt-welding machine.
Background technology
Battery is during production and assembly, it is necessary to which the negative pole of the positive pole of battery and another battery is welded to connect so that
Two batteries can connect, in particular it is required that nickel sheet is welded on two batteries so that two battery connections.Traditional two
The welding of individual battery is welded using manual mode, and welding efficiency is low, and the cost of labor welded is higher.
Utility model content
The purpose of this utility model is the defect for overcoming prior art, there is provided a kind of automatic butt-welding machine, being capable of battery
Automatic welding, effectively increase welding efficiency, and reduce production cost.
A kind of automatic butt-welding machine, including:Frame, plummer, horicontal motion mechanism, spot-welding mechanism and feed mechanism, it is described
Horicontal motion mechanism is arranged in frame, and the plummer and the horicontal motion mechanism drive connection, the plummer is in institute
State and be movably set under horicontal motion mechanism driving in the frame, the relatively described plummer of the spot-welding mechanism is set, and institute
State spot-welding mechanism and be arranged at one side of the plummer backwards to the horicontal motion mechanism, the feed mechanism is arranged at the point
Welding mechanism side.
Further, the spot-welding mechanism includes slide rail, the first cylinder, contiguous block and at least one capillary, and described first
Cylinder and the slide rail are fixedly installed in the frame, the slide rail perpendicular to the plummer, first cylinder with
The contiguous block drive connection, the contiguous block are slideably positioned on the slide rail, and the capillary is arranged at the contiguous block court
To the one side of the plummer.
Further, the spot-welding mechanism also includes balanced component, and the balanced component includes balance weight, at least one company
Fitting and at least one spring, the balance weight are connected by connector with the contiguous block, and the both ends difference of the spring
It is connected with the balance weight and the contiguous block, the first cylinder and the balance weight drive connection.
Further, the horicontal motion mechanism is led including the first driver, the first guide rail, the second driver and second
Rail, first guide rail and second guide rail are horizontally disposed with, and first guide rail is perpendicular to second guide rail, and described
Two guide rails are fixedly installed in the frame, and first guide rail is slideably positioned on second guide rail, second driving
Device and the first guide rail drive connection, the plummer are slideably positioned on first guide rail, first driver with
The plummer drive connection.
Further, the horicontal motion mechanism also includes rotary driver and sliding shoe, first driver and institute
Sliding shoe drive connection is stated, the sliding shoe is slideably positioned on first guide rail, and the plummer rotation is arranged at described
On sliding shoe, the rotary driver and the plummer drive connection, driving of the plummer in the rotary driver
Under rotate in the horizontal plane.
Further, in addition to tablet press mechanism, the tablet press mechanism are arranged at the spot-welding mechanism away from the feeder
The side of structure, the tablet press mechanism include the second cylinder and briquetting, and second cylinder is fixedly connected with the frame, and described
Two cylinders and the briquetting drive connection, the briquetting drive lower edge perpendicular to the direction of the plummer in second cylinder
Back and forth movement.
Further, the feed mechanism includes feed table, feeding guiding piece and feeding driver, the feeding guiding piece
On offer chute feeder, described chute feeder one end is driven towards the feed table, the other end towards the spot-welding mechanism, the feeding
Dynamic device is arranged between the feeding guiding piece and the spot-welding mechanism.
Further, the feeding driver includes the 3rd cylinder, unilateral bearing, delivery wheel and bearing wheels, the conveying
Wheel is connected with the unilateral bearing, and the 3rd cylinder and the unilateral bearing drive connection, the bearing wheels are movably set in
In the frame, and the delivery wheel abuts against with the bearing wheels.
Further, the feed mechanism also includes cutting assembly, and the cutting assembly is arranged at the feeding guiding piece
One end away from the feed table.
Further, the cutting assembly includes the 4th cylinder, cutting cylinder and support shaft, the support shaft and the feeding
Guiding piece is disposed adjacent, and the support shaft offers guiding groove, and the cutting cylinder turning set is in the support shaft, and described the
Four cylinders and the cutting cylinder drive connection, the cutting cylinder radially offer opening.
The beneficial effects of the utility model are:Battery is placed on plummer, and nickel strap is delivered to mash welder by feed mechanism
By structure, one end of nickel strap is welded on a battery by spot-welding mechanism, and feed mechanism cuts off nickel strap, horizontal drive mechanism driving carrying
Platform moves so that and spot-welding mechanism is alignd another battery, and the other end of nickel strap is soldered on another battery by spot-welding mechanism, from
And the welding of two batteries is completed, and then, horizontal drive mechanism driving plummer horizontal movement in frame so that plummer energy
Enough from Multi-orientation multi-angle alignment spot-welding mechanism so that spot-welding mechanism can realize the welding to all batteries on plummer,
It is achieved thereby that the automatic welding of battery, effectively increases welding efficiency, and reduce production cost.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only
It is some embodiments of the utility model, for those of ordinary skill in the art, before creative labor is not paid
Put, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the dimensional structure diagram of the automatic butt-welding machine of an embodiment;
Fig. 2 is close-up schematic view at A in Fig. 1;
Fig. 3 is the sectional perspective structural representation of the automatic butt-welding machine of an embodiment;
Fig. 4 is close-up schematic view at B in Fig. 3;
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The all other embodiment obtained, belong to the scope of the utility model protection.
As depicted in figs. 1 and 2, its be the preferred embodiment of the utility model one automatic butt-welding machine 10, including:Frame 100,
Plummer 200, horicontal motion mechanism 300, spot-welding mechanism 400, feed mechanism 500 and tablet press mechanism 600, the horizontal motion machine
Structure 300 is arranged in frame 100, the plummer 200 and the drive connection of horicontal motion mechanism 300, the plummer 200
It is movably set under the horicontal motion mechanism 300 driving in the frame 100, the spot-welding mechanism 400 is relatively described to be held
Microscope carrier 200 is set, and the spot-welding mechanism 400 is arranged at the plummer 200 backwards to the one of the horicontal motion mechanism 300
Face, the feed mechanism 500 are arranged at the side of spot-welding mechanism 400, and the tablet press mechanism 600 is arranged at the spot-welding mechanism
400 opposite side.
Battery is placed on plummer 200, and specifically, battery is placed in material disc, and material disc fixed placement is held at this
On microscope carrier 200, nickel strap is delivered to by spot-welding mechanism 400 by feed mechanism 500, and nickel strap is welded on a battery by spot-welding mechanism 400,
Feed mechanism 500 cuts off nickel strap, and horicontal motion mechanism 300 drives plummer 200 to move so that spot-welding mechanism 400 is aligned in
Another battery, tablet press mechanism 600 push the other end of the nickel strap after cut-out, and spot-welding mechanism 400 welds the other end of nickel strap
It is connected on another battery, the horizontal drive mechanism driving horizontal movement in frame 100 of plummer 200 so that the energy of plummer 200
Enough from Multi-orientation multi-angle alignment spot-welding mechanism 400 so that spot-welding mechanism 400 can be realized to all electricity on plummer 200
The welding in pond, it is achieved thereby that the automatic welding of battery, effectively increases welding efficiency, and reduce production cost.
In order to realize the welding to battery, in one embodiment, as shown in Figure 2 and Figure 4, the spot-welding mechanism 400 wraps
Include slide rail 420, the first cylinder 410, contiguous block 430 and at least one capillary 440, first cylinder 410 and the slide rail 420
It is fixedly installed in the frame 100, the slide rail 420 is perpendicular to the plummer 200, first cylinder 410 and institute
The drive connection of contiguous block 430 is stated, the contiguous block 430 is slideably positioned on the slide rail 420, and the capillary 440 is arranged at institute
Contiguous block 430 is stated towards the one side of the plummer 200.For example, the plummer 200 is parallel to horizontal plane, for example, the slide rail
420 perpendicular to horizontal plane, for example, the cylinder body of first cylinder 410 is fixedly connected with frame 100, the piston rod of the first cylinder 410
It is connected with contiguous block 430.For example, in the present embodiment, the spot-welding mechanism 400 includes four capillaries 440, four capillaries 440 are set
It is placed on contiguous block 430, and end abuts, i.e., four one end of capillary 440 away from contiguous block 430 mutually abut, during work, the
The drive connection block 430 of one cylinder 410 is descending along slide rail 420 so that capillary 440 is connected on the nickel strap of battery surface, capillary
440 are welded on battery by electric resistance welding nickel strap.Specifically, the capillary 440 and fiery ox(Power supply adaptor)Electrical connection, weldering
The end of pin 440 produces high temperature so that nickel strap melts and is welded on battery.
In order that obtaining welding effect more preferably, in one embodiment, as shown in Figure 2 and Figure 4, the spot-welding mechanism 400 is also
Including balanced component 450, the balanced component 450 includes balance weight 451, at least one connector 452 and at least one spring
453, the balance weight 451 is connected by connector 452 with the contiguous block 430, and the both ends of the spring 453 respectively with institute
State balance weight 451 and the contiguous block 430 connects, the first cylinder 410 and the drive connection of balance weight 451.For example, in this reality
Apply in example, the balanced component 450 includes four connectors 452, and a spring 453, each bullet are arranged with every a connection piece 452
The both ends of spring 453 are connected with balance weight 451 and contiguous block 430 respectively, corresponding with a capillary 440 per a connection piece 452, for example,
Each balance weight 451 is provided with screw rod 454, and screw rod 454 is bolted in the one end of balance weight 451 away from connector 452, this
Sample, by the distance between the adjustment block 451 of screw rod 454 and contiguous block 430, so as to adjust the elastic force of spring 453 so that weldering
The pressure that pin 440 is connected to downwards when on nickel strap can be adjusted, and then cause welding effect more preferably.
In order that battery on plummer 200 can be welded, in one embodiment, incorporated by reference to Fig. 1 and Fig. 3,
The horicontal motion mechanism 300 includes the first driver 311, the first guide rail 331, the second driver 312 and the second guide rail 332,
First guide rail 331 and second guide rail 332 are horizontally disposed, and first guide rail 331 is perpendicular to second guide rail
332, second guide rail 332 is fixedly installed in the frame 100, and first guide rail 331 is slideably positioned in described second
On guide rail 332, second driver 312 and the drive connection of the first guide rail 331, the plummer 200 are slideably positioned in
On first guide rail 331, first driver 311 and the drive connection of plummer 200, for example, first guide rail 331
For X-direction guide rail, second guide rail 332 is Y direction guide rail, and the first guide rail 331 and 332 equal level of the second guide rail are put
Put, for example, second driver 312 is fixedly installed in frame 100, so, plummer 200 can be in the first driver 311
Driving under along the first guide rail 331 in X-direction back and forth movement, and as first leads under the driving of the second driver 312
Rail 331 is along the second guide rail 332 back and forth movement in the Y-axis direction, so that the battery on plummer 200 can move to pair
The capillary 440 of neat spot-welding mechanism 400, and then complete spot welding.
In order to realize the driving to the guide rail 331 of plummer 200 and first, for example, first driver 311 and second drives
Device 312 is servomotor, for example, first driver 311 is fixedly installed on the first guide rail 331, first driver 311
Pass through the first screw mandrel(It is not shown)With the drive connection of plummer 200, second driver 312 passes through the second screw mandrel(It is not shown)With
The drive connection of first guide rail 331.
The capillary 440 in order that battery for obtaining each position different angle of plummer 200 can align, further improve welding effect
Rate, in one embodiment, as shown in figure 3, the horicontal motion mechanism 300 also includes rotary driver 341 and sliding shoe
342, first driver 311 and the drive connection of sliding shoe 342, the sliding shoe 342 are slideably positioned in described first
On guide rail 331, the plummer 200 is rotated and is arranged on the sliding shoe 342, the rotary driver 341 and the carrying
The drive connection of platform 200, the plummer 200 rotate in the horizontal plane under the driving of the rotary driver 341, for example, should
Plummer 200 connects a rotating shaft 343, the rotating shaft 343 and the drive connection of rotary driver 341, and the rotating shaft 343 is perpendicular to level
Face, so, the plummer 200 can rotate in the horizontal plane under the driving of rotary driver 341, and then cause plummer
200 can turn to different angle, and then cause two batteries in different angle can be realized by nickel strap to weld, that is, hold
Microscope carrier 200 can not only move in X-direction and Y direction in the horizontal plane, additionally it is possible to rotate so that plummer 200 everybody
Putting the battery of different angle can align capillary 440, can not only realize the welding of two batteries on diverse location, Er Qieneng
The welding between two batteries of different angle is enough realized, further improves welding efficiency.
In order to improve welding efficiency so that welding effect is more preferably, in one embodiment, as shown in Figure 2 and Figure 4, described
Tablet press mechanism 600 includes the second cylinder 620 and briquetting 630, and second cylinder 620 is fixedly connected with the frame 100, described
Second cylinder 620 and the drive connection of briquetting 630, the briquetting 630 drive lower edge perpendicular to institute in second cylinder 620
State the direction back and forth movement of plummer 200.For example, the cylinder body of second cylinder 620 is fixedly connected with frame 100, the second cylinder
620 piston rod is connected with briquetting 630, specifically, after nickel strap is delivered to battery surface by feed mechanism 500, one end of nickel strap
It is welded on a battery, the front end of nickel strap is cut off, and nickel strap one end after disconnection is welded on a battery, and the other end may
Tilt or crimp, in order that another battery can be connected to by obtaining the other end of the nickel strap, be easy to the welding of capillary 440, now,
Second cylinder 620 driving briquetting 630 moves straight down, is moved towards plummer 200 so that briquetting 630 is connected to the nickel
Band, and by under the driving of the second cylinder 620, nickel strap is flattened, and make it that the other end of nickel strap is close or is connected to another
Battery, now, capillary 440, so as to improve welding efficiency, can make to the other end of nickel strap is soldered on another battery
Obtain welding effect more preferably.
In order to realize the self-feeding of nickel strap, and then welding efficiency is improved, it is further, as shown in Figure 3 and Figure 4, described
Feed mechanism 500 includes feed table 510, feeding guiding piece 520 and feeding driver 530, is opened up on the feeding guiding piece 520
There is a chute feeder 521, described one end of chute feeder 521 is described towards the spot-welding mechanism 400 towards the feed table 510, the other end
Feeding driver 530 is arranged between the feeding guiding piece 520 and the spot-welding mechanism 400, for example, the feeding driver
530 are arranged between the feeding guiding piece 520 and the capillary 440, for example, the chute feeder 521 is parallel to the feeding
Disk 510, for example, chute feeder 521 is aligned in the feed table 510, specifically, material nickel strap is around being located on feed table 510, i.e. nickel
Band is wound on the surface of feed table 510, and the nickel strap is sent to spot-welding mechanism 400 by the chute feeder 521 of feeding guiding piece 520
Side, and in the presence of capillary 440, be welded on battery, the feeding driver 530 is used to drive the nickel strap along chute feeder
521 motions, so as to drive feed table 510 to rotate so that the nickel strap on feed table 510 constantly transmits to the direction of spot-welding mechanism 400
Nickel strap, so as to realize self-feeding, and then improve welding efficiency.
In order to further improve the transfer efficiency of chute feeder 521, for example, referring to Fig. 3, the feeding guiding piece 520 tilts
Set, for example, the feeding guiding piece 520 is by close to one end of the feed table 510 to one end of the close spot-welding mechanism 400
Gradually tilted to plummer 200, i.e., feeding guiding piece 520 is big close to one end of the feed table 510 and the distance of plummer 200
In feeding guiding piece 520 close to one end of the spot-welding mechanism 400 and the distance of plummer 200, for example, the feed table 510 is solid
Surely it is arranged in frame 100, for example, the distance of the feed table 510 and plummer 200 is more than spot-welding mechanism 400 and plummer 200
Distance, for example, the height of the feed table 510 be more than the spot-welding mechanism 400 height, for example, the height of the feed table 510
More than the height of capillary 440, so, because the height of feed table 510 is higher, nickel strap with feeding guiding piece 520 gradually downward
The battery moved on plummer 200, under gravity, the motion of nickel strap are more quick so that feeding driver 530 is more
It is laborsaving.
In order to realize the self-feeding of nickel strap, in one embodiment, as shown in Figure 2 and Figure 4, the feeding driver
530 include the 3rd cylinder 533, unilateral bearing(It is not shown), delivery wheel 532 and bearing wheels 534, the delivery wheel 532 with it is described
Unilateral bearing connects, and the 3rd cylinder 533 and the unilateral bearing drive connection, the bearing wheels 534 are movably set in institute
State in frame 100, and the delivery wheel 532 abuts against with the bearing wheels 534.Specifically, nickel strap is sent to through chute feeder 521
Feeding driver 530, delivery wheel 532 and bearing wheels 534 are connected to the two sides of nickel strap respectively, and delivery wheel 532 is driving wheel, carrying
Wheel 534 is driven pulley, for example, the 3rd cylinder 533 is fixedly installed in frame 100, cylinder body and the frame 100 of the 3rd cylinder 533
It is fixedly connected, the piston rod of the 3rd cylinder 533 is connected with unilateral bearing, so, and when the 3rd cylinder 533 works, the 3rd cylinder
533 piston rod moves backward, i.e. the piston rod of the 3rd cylinder 533 is towards the direction away from spot-welding mechanism 400 or plummer 200
Motion, promote unilateral bearing to rotate so that delivery wheel 532 rotates counterclockwise, delivery wheel 532 and bearing wheels 534 by with nickel
The frictional force of interband so that nickel strap moves to spot-welding mechanism 400 or the direction of plummer 200, then, the work of the 3rd cylinder 533
Stopper rod counter motion, because unilateral bearing is only capable of rotating in one direction, therefore, unilateral bearing is kept not with delivery wheel 532
Dynamic, i.e., delivery wheel 532 can't rotate clockwise, and enter without causing nickel strap to be moved away from spot-welding mechanism 400, then, the 3rd
The piston rod of cylinder 533 moves backward again, promotes unilateral bearing to rotate again, and then delivery wheel 532 is rotated, and nickel strap is again
It is secondary towards spot-welding mechanism 400 or the segment distance of 200 stepping of plummer one, constantly circulated with this so that the 3rd cylinder 533 every time
Work, cause the segment distance of nickel strap stepping one, and it is equal with the spacing of two batteries on plummer 200 to the distance of stepping.
In the present embodiment, bearing wheels 534 are connected by a cursor with frame 100, and the cursor is away from bearing wheels 534
One end be rotatablely connected with frame 100, one side of the cursor away from the delivery wheel 532 is connected by spring with frame 100,
So, under the elastic force effect of spring, the bearing wheels 534 will be close to delivery wheel 532 or be close to the surface of delivery wheel 532
Nickel strap, so that the frictional force between delivery wheel 532 and bearing wheels 534 is bigger, the driving to nickel strap is better.For example,
In order to further improve frictional force, for example, the circumferential surface of delivery wheel 532 is provided with lines, for example, the circumference of delivery wheel 532
Surface is provided with zigzag lines, and so, by the lines, delivery wheel 532 has stronger frictional force, and then can be nickel
With the stronger driving force of offer.
In order to realize the cutting to nickel strap, in one embodiment, as shown in Figure 2 and Figure 4, the feed mechanism 500 is also
Including cutting assembly 540, the cutting assembly 540 is arranged at one of the feeding guiding piece 520 away from the feed table 510
End, for example, cutting assembly 540 is arranged between feeding driver 530 and the spot-welding mechanism 400, for example, cutting assembly 540
It is arranged between feeding driver 530 and the capillary 440, so, spot-welded structures is delivered to by the driving of feeding driver 530
Nickel strap under 400, component 540 can be cut and cut, and be welded on battery.
For example, the cutting assembly 540 includes the 4th cylinder 544, cutting cylinder 543 and support shaft 542, the support shaft
542 are disposed adjacent with the feeding guiding piece 520, and the support shaft 542 offers guiding groove 546, and the cutting cylinder 543 rotates
It is sheathed in the support shaft 542, the 4th cylinder 544 and the cutting drive connection of cylinder 543, cutting cylinder 543 edge
Radially offer opening 545.For example, the 4th cylinder 544 is connected with frame 100, for example, the tumbler of cutting cylinder 543 and one
547 one end connection, the other end of the tumbler 547 are connected with the piston rod of the 4th cylinder 544, the cylinder body of the 4th cylinder 544
Be flexibly connected with frame 100, when the 4th cylinder 544 driving tumbler 547 rotate when, tumbler 547 drive the cutting cylinder 543 around
Support shaft 542 rotates.Specifically, driven through feeding driver 530 and be delivered to the nickel strap of cutting assembly 540 by support shaft 542
On guiding groove 546 in pass through, the nickel strap wears the opening 545, and after nickel strap one segment distance of stepping, the 4th cylinder 544 works,
So that cutting cylinder 543 rotates around support shaft 542, the cutting cylinder 543 is with rotating counterclockwise, the cutting cylinder 543 and support shaft 542
Collective effect, nickel strap is cut off, so that nickel strap protrudes from guiding groove 546 and is cut off close to the part of capillary 440.When
During four 544 counter motions of cylinder, the cutting cylinder 543 rotates clockwise, and the opening 545 of the cutting cylinder 543 rotates and this draws to it
Guide groove 546 so that nickel strap channeled groove 546 and opening 545 can step to capillary 440 again.
In order to adjust the position of feeding driver 530, and then nickel strap can accurately be conveyed, for example, the feeding is driven
Dynamic device 530 is connected with first direction adjustment mechanism and second direction adjustment mechanism, and first direction adjustment mechanism and second direction are adjusted
Complete machine structure is fixedly connected with frame 100, for example, the adjustment direction of first direction adjustment mechanism and second direction adjustment mechanism
Adjustment direction is mutually perpendicular to, for example, first direction adjustment mechanism and second direction adjustment mechanism are spiral fine-adjusting instrument.This first
Direction adjusting mechanism is used to driving the position of the in the vertical direction of feeding driver 530, and and fixed feeding driver 530, the
Two direction adjusting mechanisms are used to drive feeding driver 530 to move in the horizontal plane along perpendicular to the direction of feeding guiding piece 520,
And fixed feeding driver 530.Pass through the adjustment of the position to feeding driver 530 so that feeding driver 530 can be more
Accurately drive the motion of nickel strap.
Here is a specific embodiment:
Incorporated by reference to Fig. 1 to Fig. 4, battery is placed on material tray, and material tray fixed placement is on plummer 200, thing
Material nickel strap is around being located on feed table 510, and the chute feeder 521 through feeding guiding piece 520 is delivered to close to capillary 440 and carrying
The position of the battery of platform 200, and the nickel strap is through the guiding groove 546 of support shaft 542 and the opening 545 of cutting cylinder 543, it is close
Capillary 440, the 3rd cylinder 533 driving delivery wheel 532 rotate so that end motion is close to battery surface, the first gas to nickel strap forward
Cylinder 410 works, and the battery of capillary 440 towards plummer 200 moves, and capillary 440 is connected to one end of nickel strap, by one end of nickel strap
It is welded on a battery, the first cylinder 410 resets, and capillary 440 moves upwards away from battery, the driving cutting of the 4th cylinder 544
Cylinder 543 rotates, and cutting cylinder 543 cuts off nickel strap, and the other end for the nickel strap being welded on battery separates with material nickel strap, horizontal
Motion 300 moves so that capillary 440 is aligned in another battery, i.e., the capillary 440 is now in the upper of another battery
Side, the second cylinder 620 are worked, and driving briquetting 630 is pushed to battery direction, and the other end for the nickel strap being welded on battery is pressed in
On another battery, the first cylinder 410 works, and driving capillary 440 is descending, and the other end of nickel strap is welded on into another battery
On, it is achieved thereby that the welding of nickel strap and two batteries.
Then, horicontal motion mechanism 300 moves so that capillary 440 is aligned in other batteries, and the 3rd cylinder 533 drives defeated
Wheel 532 is sent to rotate so that material nickel strap travels forward and is close to other batteries again, and the first cylinder 410 works, capillary 440
It is descending that nickel strap is welded, constantly circulated with this, it is achieved thereby that the battery on plummer 200 in diverse location different angle
Welding, effectively increase the welding efficiency of battery, reduce manufacturing cost.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope that this specification is recorded all is considered to be.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
Within the spirit and principle of utility model, any modification, equivalent substitution and improvements made etc., the utility model should be included in
Protection domain within.
Claims (10)
- A kind of 1. automatic butt-welding machine, it is characterised in that including:Frame, plummer, horicontal motion mechanism, spot-welding mechanism and feeding Mechanism, the horicontal motion mechanism are arranged in frame, the plummer and the horicontal motion mechanism drive connection, described to hold Microscope carrier is movably set in the frame under horicontal motion mechanism driving, and the relatively described plummer of the spot-welding mechanism is set Put, and the spot-welding mechanism is arranged at one side of the plummer backwards to the horicontal motion mechanism, the feed mechanism is set In the spot-welding mechanism side.
- 2. automatic butt-welding machine according to claim 1, it is characterised in that the spot-welding mechanism include slide rail, the first cylinder, Contiguous block and at least one capillary, first cylinder and the slide rail are fixedly installed in the frame, and the slide rail hangs down Directly the slide rail is slideably positioned in the plummer, first cylinder and the contiguous block drive connection, the contiguous block On, the capillary is arranged at the contiguous block towards the one side of the plummer.
- 3. automatic butt-welding machine according to claim 2, it is characterised in that the spot-welding mechanism also includes balanced component, institute Stating balanced component includes balance weight, at least one connector and at least one spring, the balance weight by connector with it is described Contiguous block is connected, and the both ends of the spring are connected with the balance weight and the contiguous block respectively, and the first cylinder is put down with described Weigh block drive connection.
- 4. automatic butt-welding machine according to claim 1, it is characterised in that the horicontal motion mechanism includes the first driving Device, the first guide rail, the second driver and the second guide rail, first guide rail and second guide rail are horizontally disposed with, and described One guide rail is fixedly installed in the frame perpendicular to second guide rail, second guide rail, and first guide rail is slided and set It is placed on second guide rail, second driver and the first guide rail drive connection, the plummer are slideably positioned in On first guide rail, first driver and the plummer drive connection.
- 5. automatic butt-welding machine according to claim 4, it is characterised in that the horicontal motion mechanism also includes rotating driving Device and sliding shoe, first driver and the sliding shoe drive connection, the sliding shoe are slideably positioned in described first and led On rail, the plummer is rotated and is arranged on the sliding shoe, the rotary driver and the plummer drive connection, described Plummer rotates in the horizontal plane under the driving of the rotary driver.
- 6. automatic butt-welding machine according to claim 1, it is characterised in that also set including tablet press mechanism, the tablet press mechanism It is placed in side of the spot-welding mechanism away from the feed mechanism, the tablet press mechanism includes the second cylinder and briquetting, and described Two cylinders are fixedly connected with the frame, and second cylinder and the briquetting drive connection, the briquetting is in second gas Cylinder drives lower edge perpendicular to the direction back and forth movement of the plummer.
- 7. automatic butt-welding machine according to claim 1, it is characterised in that the feed mechanism includes feed table, feeding is drawn Guiding element and feeding driver, offer chute feeder on the feeding guiding piece, and described chute feeder one end is towards the feed table, separately One end is arranged between the feeding guiding piece and the spot-welding mechanism towards the spot-welding mechanism, the feeding driver.
- 8. automatic butt-welding machine according to claim 7, it is characterised in that the feeding driver includes the 3rd cylinder, list To bearing, delivery wheel and bearing wheels, the delivery wheel is connected with the unilateral bearing, the 3rd cylinder and the unilateral bearing Drive connection, the bearing wheels are movably set in the frame, and the delivery wheel abuts against with the bearing wheels.
- 9. automatic butt-welding machine according to claim 7, it is characterised in that the feed mechanism also includes cutting assembly, institute State cutting assembly and be arranged at the described one end of feeding guiding piece away from the feed table.
- 10. automatic butt-welding machine according to claim 9, it is characterised in that the cutting assembly includes the 4th cylinder, cutting Cylinder and support shaft, the support shaft are disposed adjacent with the feeding guiding piece, and the support shaft offers guiding groove, the cutting Cylinder turning set in the support shaft, radially open by the 4th cylinder and the cutting cylinder drive connection, the cutting cylinder Provided with opening.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621386333.3U CN206882984U (en) | 2016-12-16 | 2016-12-16 | Automatic butt-welding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621386333.3U CN206882984U (en) | 2016-12-16 | 2016-12-16 | Automatic butt-welding machine |
Publications (1)
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109262122A (en) * | 2018-11-02 | 2019-01-25 | 江苏通灵电器股份有限公司 | A kind of terminal box diode butt-weld device |
CN109719434A (en) * | 2019-02-19 | 2019-05-07 | 德朗能(张家港)动力电池有限公司 | Battery production spot-welding equipment |
CN112894183A (en) * | 2020-12-29 | 2021-06-04 | 吉安市优特利科技有限公司 | Automatic welding machine for tab of aluminum-shell battery |
-
2016
- 2016-12-16 CN CN201621386333.3U patent/CN206882984U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109262122A (en) * | 2018-11-02 | 2019-01-25 | 江苏通灵电器股份有限公司 | A kind of terminal box diode butt-weld device |
CN109719434A (en) * | 2019-02-19 | 2019-05-07 | 德朗能(张家港)动力电池有限公司 | Battery production spot-welding equipment |
CN112894183A (en) * | 2020-12-29 | 2021-06-04 | 吉安市优特利科技有限公司 | Automatic welding machine for tab of aluminum-shell battery |
CN112894183B (en) * | 2020-12-29 | 2022-12-20 | 吉安市优特利科技有限公司 | Automatic welding machine for tab of aluminum-shell battery |
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