CN210681291U - Battery feeding mechanism - Google Patents

Abstract

The utility model discloses a battery feeding mechanism, dial including pay-off bank of cells subassembly, battery heating element, battery and send subassembly, battery to push away the material subassembly, the pay-off bank of cells subassembly sets up in battery heating element's battery input end, the battery pushes away the material subassembly and sets up in battery heating element's battery output end, the battery is dialled and is sent the subassembly to erect in one side top of battery heating element. Specifically, the battery pack is orderly conveyed to the battery input end of the battery heating assembly through the feeding chute assembly, then the battery pack is conveyed to the battery heating assembly from the feeding chute assembly through the battery conveying assembly, after softening treatment is carried out on two sides of the battery pack through the battery heating assembly, the battery pack is moved to the battery pushing assembly, finally the battery pack is conveyed to the packaging station through the battery pushing assembly, and the battery pack is pushed to the packaging station, so that the charging, softening and pushing work of the battery pack can be automatically completed, the intelligent degree of the battery pack is improved, and the production efficiency is effectively improved.

Description

Battery feeding mechanism

Technical Field

The utility model relates to a equipment for packing technical field, in particular to battery feeding mechanism.

Background

Batteries are common in daily life, are widely used and are various in types, including cylindrical batteries, button batteries, soft package batteries and the like. The cylindrical battery needs to be packaged after various working procedures in the production process, the outer surface of the cylindrical battery is sleeved with the heat-shrinkable tube, so that the cylindrical battery is packaged into a delicate battery from a bare battery, when the cylindrical battery is sold, a plurality of cylindrical batteries are packaged together to form a battery pack, the packaging paper is half-wrapped on the battery pack, and then the packaging paper and the battery pack are covered with films, so that the battery pack is formed into a safe and attractive finished product.

Because the battery pack is formed by packaging a plurality of batteries together through the packaging bags, when the battery pack is packaged, the corners of the packaging bags at two sides of the battery pack are softened by the hot air blower and then packaged in the next step, at present, the step is manually performed, and the problems of uncontrollable softening degree, uncontrollable heating time, low speed, high labor intensity, low production efficiency, high labor cost and the like exist in the working mode.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the foregoing prior art, an object of the utility model is to provide a battery feeding mechanism, can accomplish the material loading of battery, heating and the work of propelling movement battery package to packing station, make the intellectuality of the packing work of battery package.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a battery feeding mechanism comprises a feeding trough assembly for feeding a battery pack, a battery heating assembly for softening packaging films on two sides of the battery pack, a battery pushing assembly for pushing the battery pack to a heating area of the battery heating assembly, and a battery pushing assembly for conveying the softened battery pack to a packaging station, wherein the feeding trough assembly is arranged at the battery input end of the battery heating assembly, the battery pushing assembly is arranged at the battery output end of the battery heating assembly, and the battery pushing assembly is erected above one side of the battery heating assembly.

In the battery feeding mechanism, the battery heating assembly comprises a storage platform, a heating cavity formed by two heating blocks and heating parts, the heating blocks are symmetrically arranged on two sides of the storage platform, and the heating parts are arranged in the heating blocks.

The battery feeding mechanism, in the battery pushes away the material subassembly and includes first conveying platform, first conveyer belt, first driver part, baffle, pass cylinder, first lift cylinder and propelling movement piece, first conveyer belt sets up on first conveying platform, and couples with first driver part, the baffle sets up in the both sides of first conveying platform, pass the cylinder and erect on the baffle, the propelling movement piece sets up in the expansion end of first lift cylinder, first lift cylinder couples with passing the cylinder.

The battery feeding mechanism in, the battery is dialled and is sent the subassembly and include hold-in range, action wheel, follow driving wheel, motor, second lift cylinder, dial piece, sliding support, mounting bracket and safety cover, the motor is fixed in on the mounting bracket, and with action wheel coaxial coupling, the action wheel couples through the hold-in range from the driving wheel between, second lift cylinder is fixed in on the sliding support, sliding support is connected with the hold-in range, and with mounting bracket slidable connection, dial the expansion end that the piece is connected in second lift cylinder, the safety cover covers and locates on hold-in range and motor.

The battery feeding mechanism, in the chute feeder subassembly, the chute feeder subassembly includes material loading groove, second conveying platform, second conveyer belt, second drive part and striker plate, the second conveyer belt sets up on second conveying platform, and couples with second drive part, material loading groove sets up in second conveying platform's battery input end, the striker plate sets up in the both sides of second conveying platform.

In the battery feeding mechanism, arc-shaped heating grooves are formed in the opposite sides of the two heating blocks.

In the battery feeding mechanism, a concave platform for installing the heating block is arranged on the object placing platform.

In the battery feeding mechanism, the inner sides of the baffle plates are provided with limit blocks for blocking the battery pack, and the two baffle plates are provided with notches for the shifting blocks to pass through.

In the battery feeding mechanism, the first conveyor belt is provided with a plurality of positioning convex strips.

Compared with the prior art, the utility model provides a battery feeding mechanism, accessible the pay-off groove subassembly is with orderly transport to battery heating element's of battery package battery input end, rethread the battery is dialled the subassembly and is sent the battery package from pay-off groove subassembly to battery heating element department, carries out the softening treatment back through battery heating element to the both sides of battery package, makes the battery package remove to the battery and pushes away on the material subassembly, the rethread the battery pushes away the material subassembly and carries the battery package to packing station department to with battery package propelling movement to packing station, can accomplish the material loading of battery package from this automatically, soften and propelling movement work, improved the intelligent degree of battery package, effectively improved production efficiency, still reduced workman's intensity of labour simultaneously, reduced the human cost.

Drawings

Fig. 1 is a schematic structural diagram of the battery feeding mechanism provided by the present invention.

Fig. 2 is the schematic structural diagram of the protective cover for battery feeding mechanism.

Fig. 3 is a schematic structural diagram of a heating assembly of the battery feeding mechanism provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Referring to fig. 1 and 2, the utility model provides a battery feeding mechanism, including the chute feeder subassembly 11 that is used for supplying the battery to wrap the material loading, be used for softening the battery heating element 12 of the packaging film of battery package both sides, push away the battery of the district of heating of battery heating element 12 with the battery package and dial and send subassembly 13, carry the battery after softening to the packing station and push away material subassembly 14, chute feeder subassembly 11 sets up in the battery input of battery heating element 12, battery pushes away material subassembly 14 and sets up in the battery output of battery heating element 12, battery is dialled and is sent subassembly 13 and erect in one side top of battery heating element 12.

When the batteries are conveyed, the batteries are manually placed on the feeding groove assembly 11, the batteries are sequentially conveyed to the battery input end of the battery heating assembly 12 through the feeding groove assembly 11, then the batteries are conveyed to the battery heating assembly 12 from the feeding groove assembly 11 through the battery conveying assembly 13, after the packaging films on the two sides of the batteries are softened by the battery heating assembly 12, the batteries are moved to the battery pushing assembly 14, and finally the batteries are conveyed to the packaging station through the battery pushing assembly 14 and are pushed to the packaging station, so that the charging, softening and pushing of the batteries can be automatically completed, the intelligent degree of the batteries is improved, the production efficiency is effectively improved, the labor intensity of workers is reduced, and the labor cost is reduced. And the softening degree of each battery pack is consistent, so that the quality of the battery pack package is ensured.

Referring to fig. 3, the battery heating assembly 12 includes a platform 121, a heating cavity formed by two heating blocks 122, and heating members (not shown), wherein the heating blocks 122 are symmetrically disposed on two sides of the platform 121, and the heating members are disposed in the heating blocks 122. The interval between the heating piece 122 and the width adaptation of battery package, generally slightly be greater than the width of battery package to supply the battery package to pass through smoothly, two the opposite side of heating piece 122 has and is arcuation heating groove 1221, when the battery package passes through heating piece 122, makes heating groove 1221 can more laminate in the both sides of battery package, with the packaging film of better softening battery package both sides, makes the packaging film more laminate on the packaging package, ensures that the battery package accomplishes behind all packing steps, the appearance is unanimous.

Specifically, the platform 121 has a concave (not shown) for installing the heating block 122. The heating parts can adopt heating wires, thermocouples and the like, and the battery pack can be only passed through the object platform 121 to soften the packaging films on the two sides of the battery pack.

Referring to fig. 1 and 2, the battery pushing assembly 14 includes a first conveying platform (not shown), a first conveyor belt 141, a first driving part (not shown), a baffle 142, a pushing cylinder 143, a first lifting cylinder 144, and a pushing block 145, where the first conveyor belt 141 is disposed on the first conveying platform and connected to the first driving part, the baffle 142 is disposed on two sides of the first conveying platform to ensure that the battery pack is conveyed linearly, the pushing cylinder 143 is mounted on the baffle 142, the pushing block 145 is disposed at a movable end of the first lifting cylinder 144, the first lifting cylinder 144 is connected to the pushing cylinder 143, and the pushing cylinder 143 controls the pushing block 145 and the first lifting cylinder 144 to move synchronously.

After the packaging films on the two sides of the battery pack are softened, the battery pack is conveyed to the first conveying belt 141 by the battery conveying component 13, the first conveying belt 141 is driven by the first driving component to be conveyed, so that the battery pack is conveyed to the packaging station side synchronously, and the battery pack can be prevented from sliding off the first conveying belt 141 by the baffle plates 142 on the two sides of the first conveying platform in the conveying process. When the battery pack is conveyed to the pushing block 145 along with the first conveyor belt 141, the first conveyor belt 141 stops, the pushing block 145 is controlled to move downwards to the rear side of the battery pack by the first lifting cylinder 144, and the pushing block 145 is controlled to push the battery pack forwards by the pushing cylinder 143, so that the pushing action of the battery pack is completed, and the battery pack is moved to the packaging station.

In this embodiment, the pushing block 145 is in a preset distance with the first conveying 141 belt when being reset, and the preset distance is smaller than the diameter of the battery, so as to avoid blocking the conveying of the battery pack. After the pushing block 145 pushes one battery pack, the pushing cylinder 143 and the first lifting cylinder 144 are sequentially reset, so that the pushing block 145 sequentially retreats and moves upwards, and at this time, the first conveyor belt 141 continues to move for the length of one battery pack, so that the battery pack moves to the pushing station.

Specifically, the first conveyor belt 141 is provided with a plurality of positioning protruding strips 1411, the positioning protruding strips 1411 are uniformly distributed on the first conveyor belt 141, so that when a battery pack is conveyed, the battery pack can be conveyed at equal intervals, and meanwhile, when a battery pack is conveyed to the pushing block 145, the battery pack adjacent to the battery pack slides into the working area of the pushing block 145 along with the previous battery pack, so that two battery packs are prevented from being simultaneously pushed to the packaging station.

With reference to fig. 1 and fig. 2, the battery pushing and sending assembly 13 includes a timing belt 131, a driving pulley 132, a driven pulley 133, a motor 134, a second lifting cylinder 135, a pushing block 136, a sliding bracket 137, a mounting bracket 138, and a protective cover 139, wherein the motor 134 is fixed on the mounting bracket 138 and coaxially connected to the driving pulley 132, the driving pulley 132 is connected to the driven pulley 133 through the timing belt 131, the second lifting cylinder 135 is fixed on the sliding bracket 137, the sliding bracket 137 is connected to the timing belt 131 and slidably connected to the mounting bracket 138, the pushing block 136 is connected to a movable end of the second lifting cylinder 135, and the protective cover 139 is covered on the timing belt 131 and the motor 134.

Specifically, the battery shifting assembly 13 further comprises a crawler 1381 which is in synchronous transmission with the synchronous belt 131 and stably controls the shifting block 136 to move, the second lifting cylinder 135 is used for controlling the shifting block 136 to lift, the shifting block 136 descends when the battery pack needs to be shifted, the shifting block 136 shifts the battery pack to the heating module, and then the battery pack resets, and the operation is repeated in this way.

Furthermore, both ends of the mounting rack 138 are provided with induction devices 1382, and the induction devices 1382 control the stroke of the sliding support 137, so that the battery pack can be accurately conveyed.

Before the battery pack is pushed, the sliding support 137 is reset (namely, is located on the outer side of the feed chute assembly 11), after the first conveyor belt 141 conveys a battery pack step length, the second lifting cylinder 135 controls the shifting block 136 to descend onto the feed chute assembly 11 to be in contact with the battery pack, the motor 134 drives the synchronous belt 131 to transmit, the sliding support 137 is driven to move towards the battery heating assembly 12, meanwhile, the shifting block 136 pushes the battery pack towards the battery heating assembly 12, after the battery pack is pushed to a designated position (namely, after the battery pack is pushed into a heating cavity), the second lifting cylinder 135 controls the shifting block 136 to ascend and reset, and at this time, one battery pack pushing action is completed.

Referring to fig. 1, the feeding chute assembly 11 includes a feeding chute 111, a second conveying platform (not shown), a second conveyor belt 112, a second driving part 113, and a material blocking plate 114, wherein the second conveyor belt 112 is disposed on the second conveying platform and is connected to the second driving part 113, the feeding chute 111 is disposed at a battery input end of the second conveying platform, and the material blocking plate 114 is disposed at two sides of the second conveying platform.

In this embodiment, the feeding trough 111 and the second conveyor belt 112 are arranged at an inclined angle, so that the battery pack can smoothly slide onto the second conveyor belt 112. During operation, the battery pack is manually placed on the feeding groove 111, the second driving part 113 drives the second conveying belt 112 to move by one step length of the battery pack, the battery pack is conveyed to the poking and conveying assembly through the second conveying belt 112, and meanwhile the battery pack can be prevented from sliding off from two sides of the second conveying belt 112 through the material baffle plate 114.

Furthermore, the inner side of the material blocking plate 114 is provided with a limiting block 115 for blocking the battery pack, the limiting block 115 is located below the poking and feeding assembly, and both the material blocking plates 114 are provided with notches 1141 for the poking block 136 to pass through, so that the poking block 136 can smoothly poke the battery pack from the second conveyor belt 112 to the battery heating assembly 12.

To sum up, the utility model provides a battery feeding mechanism, through the battery input end to battery heating element is carried to the pay-off groove subassembly is orderly with the battery package, the rethread the battery is dialled and is sent the subassembly to battery heating element department from the pay-off groove subassembly with the battery package, carries out the softening treatment back through battery heating element to the both sides of battery package, makes the battery package remove to the battery and pushes away on the subassembly, at last rethread the battery pushes away the material subassembly and carries the battery package to packing station department to with battery package propelling movement to packing station, can accomplish the material loading of battery package from this automatically, soften and the propelling movement work, improved the intelligent degree of battery packing, moreover the degree of softening of every battery package is unanimous, has ensured the quality of battery package packing.

Furthermore, the utility model discloses replace artifical material loading speed slow, the human cost is big, operating time is long, advantage such as inefficiency.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (9)

1. A battery feeding mechanism is characterized by comprising a feeding trough assembly, a battery heating assembly, a battery pushing assembly and a battery pushing assembly, wherein the feeding trough assembly is used for feeding a battery pack, the battery heating assembly is used for softening packaging films on two sides of the battery pack, the battery pushing assembly is used for pushing the battery pack to a heating area of the battery heating assembly, and the battery pushing assembly is used for conveying the softened battery pack to a packaging station.

2. The battery feeding mechanism as claimed in claim 1, wherein the battery heating assembly comprises a placement platform, a heating cavity formed by two heating blocks and heating parts, the heating blocks are symmetrically arranged on two sides of the placement platform, and the heating parts are arranged in the heating blocks.

3. The battery feeding mechanism according to claim 2, wherein the battery pushing assembly comprises a first conveying platform, a first conveying belt, a first driving part, a baffle, a pushing cylinder, a first lifting cylinder and a pushing block, the first conveying belt is arranged on the first conveying platform and connected with the first driving part, the baffle is arranged on two sides of the first conveying platform, the pushing cylinder is erected on the baffle, the pushing block is arranged at the movable end of the first lifting cylinder, and the first lifting cylinder is connected with the pushing cylinder.

4. The battery feeding mechanism of any one of claims 1 to 3, wherein the battery pushing assembly comprises a synchronous belt, a driving wheel, a driven wheel, a motor, a second lifting cylinder, a pushing block, a sliding support and a mounting frame, the motor is fixed on the mounting frame and is coaxially connected with the driving wheel, the driving wheel is connected with the driven wheel through the synchronous belt, the second lifting cylinder is fixed on the sliding support, the sliding support is connected with the synchronous belt and is slidably connected with the mounting frame, and the pushing block is connected to the movable end of the second lifting cylinder.

5. The battery feeding mechanism as claimed in claim 4, wherein the feeder trough assembly comprises a feeding trough, a second conveying platform, a second conveyor belt, a second driving part and a material blocking plate, the second conveyor belt is arranged on the second conveying platform and is coupled with the second driving part, the feeding trough is arranged at the battery input end of the second conveying platform, and the material blocking plate is arranged at two sides of the second conveying platform.

6. The battery feeding mechanism according to claim 2, wherein the heating blocks have arc-shaped heating grooves on opposite sides thereof.

7. The battery feeding mechanism as claimed in claim 6, wherein the platform has a recessed platform for mounting the heating block.

8. The battery feeding mechanism according to claim 5, wherein the inner side of the material blocking plate is provided with a limiting block for blocking the battery pack, and the two material blocking plates are provided with notches for the shifting block to pass through.

9. The battery feeding mechanism of claim 3, wherein the first conveyor belt has a plurality of positioning ribs.

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