CN211565028U - Assembling device for energy storage device - Google Patents

Abstract

The utility model discloses an assembly quality of energy storage device, it includes the frame, be fixed with the multistation disc in the frame, the order has set gradually first bearing subassembly and second bearing subassembly on the multistation disc, first bearing subassembly with be equipped with lead wire guider between the second bearing subassembly. Because be equipped with the lead wire guider between first bearing subassembly and second bearing subassembly for when the position of first bearing subassembly of element follow shifts to the position of second bearing subassembly, can be guided by the lead wire guider on its route and rectify, thereby avoided the pin to warp and arouse to take place to interfere with other equipment, also can be carried out the pin or draw the foot by subsequent pin arrangement subassembly and draw the foot subassembly, make follow-up technology carry out smoothly, avoid the production of defective products.

Description

Assembling device for energy storage device

Technical Field

The utility model relates to an energy storage device production equipment technical field, more specifically say, relate to an assembly quality of energy storage device.

Background

Traditional energy memory's plain son and rubber buffer are placed the plain son and the rubber buffer on the bearing subassembly on the multistation disc usually when the assembly, the multistation disc rotates and drives the bearing subassembly and remove to another station from a station, and at the material loading in-process or the in-process of last equipment feeding all can lead to the pin of plain son to produce and warp, thereby lead to the plain son because the pin warp and take place to interfere when getting into next station, perhaps can't be handled by follow-up processes such as whole foot subassembly or foot pulling subassembly, lead to follow-up process can't go on or produce the defective products.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an assembly quality of energy storage device is provided, because be equipped with lead wire guider between first bearing subassembly and second bearing subassembly, when making the position of plain son from first bearing subassembly shift to second bearing subassembly, can be guided by the lead wire guider on its route and rectify, thereby avoided the pin to warp and arouse and take place to interfere with other equipment, also can be carried out whole foot or draw the foot by subsequent whole foot subassembly and draw the foot subassembly, make follow-up technology carry out smoothly, avoid the production of defective products.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

in order to solve the technical problem, the utility model provides an assembly quality of energy storage device, it includes the frame, be fixed with the multistation disc in the frame, first bearing subassembly and second bearing subassembly have set gradually on the multistation disc, first bearing subassembly with be equipped with lead wire guider between the second bearing subassembly.

Furthermore, the lead guiding device comprises two guiding blocks fixed on the rack, the two guiding blocks are oppositely arranged, and the gap is gradually reduced inwards from the opening.

Furthermore, a fixed seat is fixed on the machine frame, the guide block is fixed on the fixed seat, and a runway-shaped through hole is formed in the guide block.

Further, the head of the guide block is provided with a chamfer.

Furthermore, a pressing device is arranged above the second bearing assembly, and a limiting device is arranged between the rack and the pressing device.

Furthermore, a righting device is arranged above the second bearing component.

Further, the righting device comprises a base fixed on the rack, a sliding groove is fixed on the base, two sliding blocks which are sequentially overlapped are arranged in the sliding groove in a sleeved mode, grooves are formed in the contact surfaces of the two sliding blocks, saw teeth are arranged on the surfaces of the grooves, gears meshed with the saw teeth are arranged in the grooves, and righting clamps are arranged at the heads of the two sliding blocks.

Further, the slider that is located the top is equipped with first stiff end, be fixed with the second stiff end on the spout, be fixed with the extension spring on first stiff end and the second stiff end.

Furthermore, the tail end of one of the sliding blocks is connected with a driving device.

Furthermore, the driving device is provided with a connecting block, the connecting block is provided with a concave part, and the sliding block is provided with a bulge corresponding to the concave part.

The utility model discloses following beneficial effect has:

because be equipped with the lead wire guider between first bearing subassembly and second bearing subassembly for when the position of first bearing subassembly of element follow shifts to the position of second bearing subassembly, can be guided by the lead wire guider on its route and rectify, thereby avoided the pin to warp and arouse to take place to interfere with other equipment, also can be carried out the pin or draw the foot by subsequent pin arrangement subassembly and draw the foot subassembly, make follow-up technology carry out smoothly, avoid the production of defective products.

The lead guiding device comprises two guiding blocks fixed on the rack, the two guiding blocks are oppositely arranged, and the gap is gradually reduced inwards from the opening. Two guide blocks set up in opposite directions and have certain interval, and this interval can be the distance that equals two pins of prime, and when the pin of prime passes through the guide block, because the opening part is great, the pin of prime inwards contracts to the width of normal pin along the guide block promptly to make next process can push down or clip the pin of prime, avoid producing the defective products.

Drawings

Fig. 1 is a schematic structural diagram of an assembling apparatus for an energy storage device according to the present invention.

Fig. 2 is an enlarged view of a point a in fig. 1.

Fig. 3 is a schematic structural view of the foot pulling assembly.

Fig. 4 is a schematic structural view of the centralizer.

Fig. 5 is an exploded schematic view of the centralizer.

Detailed Description

The present invention will be described in detail with reference to the following examples, which are only preferred embodiments of the present invention and are not intended to limit the present invention.

Please refer to fig. 1 and fig. 2, which are views of the present invention, and the assembling apparatus for an energy storage device includes a frame 1, a multi-station disc 2 is fixed on the frame 1, a first supporting component 3 and a second supporting component 4 are sequentially disposed on the multi-station disc 2, and a lead guiding device 5 is disposed between the first supporting component 3 and the second supporting component 4. Because be equipped with lead wire guider 5 between first bearing subassembly 3 and second bearing subassembly 4 for when the position of first bearing subassembly 3 of element follow shifts to the position of second bearing subassembly 4, can be by lead wire guider 5 on its route to lead to the correction, thereby avoided the pin to warp and arouse to take place to interfere with other equipment, also can be carried out whole foot or draw the foot by subsequent whole foot subassembly and draw foot subassembly 6, make follow-up technology carry out smoothly, avoid the production of defective products.

Referring to fig. 1 to 3, in this embodiment, the lead frame assembly further includes a lead frame assembly 6 disposed on the frame 1, the lead frame assembly 6 includes a sliding base 61 fixed below the frame 1, the sliding base 61 is sleeved with two guide rods 62, the guide rods 62 in this embodiment pass through the sliding base 61 and the frame 1, a guide rod base 63 is fixed at a tail end of the guide rod 62, a power device 64 is fixed in a middle of the guide rod base 63, a first limit screw 65 is fixed at one end of the guide rod base 63, the first limit screw 65 can abut against the sliding base 61, a lead frame holder 66 is fixed at a head of the guide rod 62, a lead frame middle piece is fixed in a middle of the lead frame holder 66, two lead frame clamps 67 located at two sides of the lead frame middle piece are further rotatably fixed on the lead frame holder 66, and the lead guide device 5 is fixed at a side of the lead frame holder 66; the power device 64 is connected with an opening clamp jacking block 68, the opening clamp jacking block 68 is arranged between the tail ends of the two foot clamps 67, and the tail ends of the foot clamps 67 are also provided with bearings; a pressure spring 69 is arranged between the pull foot clamping seat 66 and the frame 1, a pressing device 7 is arranged above the second supporting component 4, a driven rod 71 is arranged on the pressing device 7, a limiting device 72 is arranged on the frame 1 and between the pressing device 7, the limiting device 72 can be arranged between the frame 1 and the pressing device 7 or between the frame 1 and the pull foot clamping seat 66, and the limiting device 72 is arranged on the pull foot clamping seat 66 in this embodiment. The foot-pulling clamping seat 66 is further provided with a threaded hole, and a limiting device 72 fixed on the threaded hole is a second limiting screw.

Through set up stop device 72 between pressure equipment 7 and frame 1, can realize controlling the head of son and the clearance of rubber buffer, measure the head of son and the distance of rubber buffer earlier when just step adjustment, calculate the difference between surveying distance and the required distance again, spacing device 72 is adjusted to this difference of rethread and can be obtained the interval of wanting, through the head of setting for suitable son and the interval of rubber buffer, can let the bubble of core package discharge more easily, also can let the better infiltration of electrolyte.

When the supporting component is used, the supporting component supports the biscuit and the rubber plug, the power device 64 drives the conical opening clamp jacking block 68 to jack upwards, the opening clamp jacking block 68 drives the two pin drawing clamps 67 to draw close towards the pin drawing middle plate so as to clamp pins of the biscuit, the pushing device 7 drives the driven rod 71 to push downwards at the moment, the driven rod 71 drives the whole pin drawing component to move downwards when pushing down to the pin drawing clamp seat 66, so that the pins of the biscuit are pulled downwards, and when the first limiting screw 65 touches the rack 1, the pushing device 7 stops pushing downwards, so that the assembly of the rubber plug is realized; at this moment, the power device 64 drives the conical clamp opening jacking block 68 to pull downwards, so that the pins of the prime part are loosened, then the pressing device 7 retracts, at this moment, the pin pulling component rebounds under the action of the pressure spring 69, and when the second limiting device 72 touches the sliding seat 61, resetting is completed, so that a working cycle is completed.

Further, the lead guiding device 5 includes two guiding blocks 51 fixed on the frame 1, the two guiding blocks 51 are disposed opposite to each other, and the gap is gradually reduced from the opening to the inside. Two guide blocks 51 set up in opposite directions and have certain interval, and this interval can be the distance that equals two pins of prime, and when the pin of prime passes through guide block 51, because the opening part is great, the pin of prime contracts to the width of normal pin along guide block 51 inwards promptly to make next process can push down or clip the pin of prime, avoid producing the defective products.

Further, a fixing seat 52 is fixed on the frame 1, the guide block 51 is fixed on the fixing seat 52, and a runway-shaped through hole 53 is formed in the guide block 51. By arranging the runway-shaped through hole 53, the interval between the two guide blocks 51 can be adjusted, and when the elements with different models need to be replaced, the width between the two guide blocks 51 can be adjusted to adapt to the elements with different models. In this embodiment, the fixing base 52 is fixed to the leg assembly 6.

Further, the head of the guide block 51 is provided with a chamfer. The chamfer can be a fillet or a chamfer angle, the width of the opening of the guide block 51 can be increased through the chamfer, and pins of the elements can enter the gap of the guide block 51 more smoothly.

Referring to fig. 1, 4 and 5, a centering device 8 is further provided above the second supporting member 4. The head of the element is righted by the righting device 8, and then the foot is pulled by the foot pulling component 6, so that the head of the element can be prevented from inclining, and the production yield of products is improved.

Further, the righting device 8 comprises a base 81 fixed on the rack 1, a sliding groove 82 is fixed on the base 81, two sliding blocks 83 which are sequentially overlapped are sleeved in the sliding groove 82, grooves 84 are formed in contact surfaces of the two sliding blocks 83, sawteeth 85 are arranged on surfaces of the grooves 84, gears 86 which are meshed with the sawteeth 85 are arranged in the grooves 84, and righting clamps 87 are arranged at heads of the two sliding blocks 83. When the element needs to be centered, one of the sliding blocks 83 is driven to be close to the other sliding block 83, and under the synergistic action of the gears 86, the other sliding block 83 is also close to the other sliding block 83 at the same time, so that the centering clamps 87 at the heads of the sliding blocks 83 are close to each other to perform centering, and otherwise, the centering clamps can be loosened, and the centering device is simple in structure and safe in equipment.

Further, the slider 83 located above is provided with a first fixed end, the chute 82 is fixed with a second fixed end, and the first fixed end and the second fixed end are fixed with a tension spring. Through setting up the extension spring, can kick-back through extension spring elasticity after slider 83 pulls open to realize slider 83's restoration, need not to set up complicated mechanism and make its restoration, reduce control error and energy loss.

Further, a driving device 88 is connected to the end of one of the sliders 83. The forward and backward movement of the slider 83 is controlled by a driving device 88.

Furthermore, a connecting block 89 is arranged on the driving device 88, a concave portion is arranged on the connecting block 89, and a protrusion corresponding to the concave portion is arranged on the sliding block 83. The drive means 88 can control the advance and retreat of the slider 83 by engaging the concave portion of the joint block 89 with the convex portion of the slider 83.

The above embodiments only express the embodiments of the present invention, and the description thereof is specific and detailed, but the invention can not be understood as the limitation of the patent scope of the present invention, but all the technical solutions obtained by adopting the equivalent substitution or equivalent transformation should fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an assembly quality of energy memory device, its characterized in that, it includes the frame, be fixed with the multistation disc in the frame, first bearing subassembly and second bearing subassembly have set gradually on the multistation disc, first bearing subassembly with be equipped with lead wire guider between the second bearing subassembly.

2. The apparatus of claim 1, wherein the lead guide means comprises two guide blocks fixed to the frame, the two guide blocks being disposed opposite to each other with a gap gradually decreasing inward from the opening.

3. The assembling device for the energy storage device according to claim 2, wherein a fixed seat is fixed on the frame, the guide block is fixed on the fixed seat, and a runway-shaped through hole is arranged on the guide block.

4. The energy storage device assembly apparatus of claim 2, wherein the head of the guide block is chamfered.

5. The energy storage device assembling apparatus of claim 1, wherein a pressing device is disposed above the second supporting assembly, and a limiting device is disposed between the frame and the pressing device.

6. The apparatus of claim 1 wherein a centralizer is positioned above the second bolster assembly.

7. The assembling device for the energy storage device according to claim 6, wherein the righting device comprises a base fixed on the frame, a sliding groove is fixed on the base, two sliding blocks which are sequentially overlapped are sleeved in the sliding groove, a groove is arranged on a contact surface of each of the two sliding blocks, sawteeth are arranged on the surface of each groove, gears meshed with the sawteeth are arranged in the grooves, and righting clamps are arranged on the heads of the two sliding blocks.

8. The assembling device for the energy storage device of claim 7, wherein the upper sliding block is provided with a first fixed end, the sliding groove is fixed with a second fixed end, and the first fixed end and the second fixed end are fixed with tension springs.

9. An assembly of energy storage devices according to claim 7, wherein a drive means is connected to the end of one of said sliders.

10. The assembling device for the energy storage device according to claim 9, wherein the driving device is provided with a connecting block, the connecting block is provided with a concave portion, and the sliding block is provided with a protrusion corresponding to the concave portion.

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