CN215834567U - Steel shell cylinder battery sealing machine device - Google Patents

Abstract

The utility model relates to a steel shell cylindrical battery sealing machine device which comprises a die carrier, wherein a press plate driven by a lifting mechanism to lift is arranged on the die carrier, a pair of modules are connected to a bottom plate of the die carrier in a sliding manner, a positioning structure for clamping a steel shell cylindrical battery after the pair of modules move in opposite directions is arranged on each module, a linkage structure which is matched with the modules to realize the opposite movement of the pair of modules when the press plate moves downwards is arranged on the press plate, and a press column is fixed on the lower side of the press plate. The device is conveniently used for steel-shell cylindrical batteries to seal.

Description

Steel shell cylinder battery sealing machine device

Technical Field

The utility model relates to a steel shell cylindrical battery sealing machine device.

Background

The common sealing equipment for steel shell cylindrical batteries is a pull-down sealing machine, an upper die is fixed on the same template, and a motor drives a crankshaft to drive. The disadvantages are that: the motor drives the crankshaft to drive, and the precision of the equipment is deteriorated after the crankshaft is abraded. Meanwhile, the precision of the equipment is deteriorated when the four guide columns are abraded, and the consistency of the high height and the total height of the seal is directly influenced. Meanwhile, the upper die is fixed on the same die plate, the sizes of multiple stations are mutually influenced, the force of pressing down is inconsistent when one or more stations possibly have no battery in the production process, and the critical size of the seal is directly influenced.

Disclosure of Invention

The utility model aims to provide a steel-shell cylindrical battery sealing machine device which is convenient to seal a steel-shell cylindrical battery.

The technical scheme of the utility model is as follows: the utility model provides a steel-shell cylinder battery capper device, includes the die carrier, be provided with the clamp plate that is gone up and down by elevating system drive on the die carrier, sliding connection has a pair of module on the bottom plate of die carrier, be provided with the location structure of the tight steel-shell cylinder battery of a pair of module looks after moving in opposite directions on the module, be provided with on the clamp plate and cooperate the linkage structure that realizes a pair of module motion in opposite directions when the clamp plate is down with the module, the downside of clamp plate is fixed with the compression leg.

Furthermore, the lifting mechanism comprises an upper template fixed at the upper end of the die carrier, an electric cylinder is vertically fixed on the upper template, and a telescopic rod of the electric cylinder penetrates through the upper template and is fixedly connected with the pressing plate; the periphery of the pressing plate is in sliding fit with the stand columns of the die carrier respectively.

Furthermore, a pair of sliding blocks is fixed on the bottom plate, and the lower parts of the modules are respectively in sliding fit with the corresponding sliding blocks.

Further, location structure is including setting up respectively in inboard upper portion of module and inside bellied lug, be provided with the semicircular recess that sinks on the up end of lug, sink and install the locating splint in the recess, the inboard of locating splint is provided with the arc breach, the lug is located the downside of locating splint and still is provided with the arc and dodges the breach.

Further, the linkage structure comprises pressure rods vertically arranged on two sides of the pressing block, the lower ends of the pressure rods are fixed with pushing blocks through connecting blocks, the pushing blocks are in sliding fit with guide rails located on the outer sides of the pushing blocks, and inclined planes on the inner sides of the pushing blocks are matched with inclined grooves formed in the outer side portions of the modules.

Furthermore, the upper part of the pressure rod penetrates through the pressure plate and is in sliding fit with a guide sleeve arranged on the pressure plate, and a spring sleeved on the pressure rod is arranged between the connecting block and the pressure plate.

Furthermore, a pressing rod avoiding through hole is further formed in the upper template of the die frame.

Compared with the prior art, the utility model has the following advantages: realize after decomposing each step through with the capper, effectively overcome the defect that exists in the current capper, the precision of the product of assurance avoids influencing each other between the size of each work, conveniently is used for steel-shelled cylindrical battery to seal work.

The device compact structure changes servo motor and pushes down from the upper end, decomposes through each step with the capper for the mould separately in three independent station, has effectively overcome the defect that exists in the current capper, and the precision of the product of assurance avoids influencing each other between the size of each work. The product size consistency of the steel shell cylindrical battery is better, and the operation and the die maintenance are simpler.

Drawings

FIG. 1 is a schematic structural diagram of a cylindrical battery with a steel shell before sealing;

FIG. 2 is a schematic view of the sealing machine device of the present invention;

FIG. 3 is a schematic cross-sectional view of a capper apparatus of the present invention;

FIG. 4 is an enlarged view of area A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic diagram of a sealed cylindrical battery with a steel case according to the present invention;

FIG. 6 is a schematic diagram of a second sealed structure of the cylindrical steel-shelled battery of the present invention;

FIG. 7 is a schematic structural diagram of a steel-shelled cylindrical battery of the present invention after three seals;

in the figure: 1-pressing plate 2-bottom plate 3-module 4-pressing column 5-upper die plate 6-electric cylinder 7-sliding block 8-avoiding through hole 10-positioning structure 11-projection 12-sink groove 13-positioning clamping plate 14-arc notch 15-arc avoiding notch 20-steel shell cylindrical battery 21-annular concave part 31-pressing rod 32-pushing block 33-guide rail 34-oblique channel 35-guide sleeve 36-spring 37-connecting block.

Detailed Description

In order to make the aforementioned features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below, but the present invention is not limited thereto.

Refer to fig. 2 to 7

The utility model provides a steel-shell cylinder battery capper device, includes the die carrier, be provided with the clamp plate 1 that is gone up and down by the elevating system drive on the die carrier, sliding connection has a pair of module 3 on the bottom plate 2 of die carrier, be provided with the location structure 10 of the tight steel-shell cylinder battery of a pair of module looks back clamp on the module, be provided with on the clamp plate and cooperate the linkage structure who realizes a pair of module looks motion when the clamp plate is down with the module, the downside of clamp plate is fixed with the compression leg 4 that is located the top between a pair of module to the last port through the compression leg is with steel-shell cylinder battery pushes down.

In this embodiment, in order to drive the platen to go up and down, elevating system is including fixing upper die plate 5 in the die carrier upper end, the vertical electricity jar 6 that is fixed with on the upper die plate, the electricity jar is servo motor driven electricity jar. The telescopic rod of the electric cylinder penetrates through the upper template and is fixedly connected with the pressing plate, so that the pressing plate is driven to lift through the telescopic rod of the electric cylinder. The periphery of the pressing plate is in sliding fit with the stand columns of the die carrier respectively so as to facilitate the lifting of the pressing plate.

In this embodiment, in order to realize the sliding of the module, a pair of sliders 7 is fixed on the bottom plate at the lower side of the module, and the lower portions of the modules are respectively provided with a guide rail in sliding fit with the corresponding sliders.

In this embodiment, location structure is including setting up respectively in inboard upper portion of module and inside bellied lug 11, be provided with semicircular recess 12 that sinks on the up end of lug, sink and install locating splint 13 in the recess, locating splint's inboard is provided with arc breach 14 to the annular concave part 21 department of steel-shelled cylindrical battery 20 is cliied in the cooperation of the arc breach through a pair of locating splint, accomplishes the location of steel-shelled cylindrical battery. The downside that the lug is located the locating clip board still is provided with the arc and dodges breach 15 to a pair of arc is dodged the breach and is dodged the shaft of box hat cylinder battery, thereby pushes down through the upper end box hat of compression leg to the box hat cylinder battery after pressing from both sides tight box hat cylinder battery.

In this embodiment, the linkage structure includes the depression bar 31 of vertical setting in the briquetting both sides, the lower extreme of depression bar is fixed with ejector pad 32 through connecting block 37, ejector pad and the guide rail 33 sliding fit who is located its outside, the inboard inclined plane of ejector pad cooperatees with the slant channel 34 that sets up in the module outside portion to make the module inwards move when the ejector pad is down, let a pair of module press from both sides tight steel-shelled cylindrical battery.

In this embodiment, the upper portion of the pressing rod passes through the pressing plate and is in sliding fit with a guide sleeve 35 arranged on the pressing plate, and a spring 36 sleeved on the pressing rod is arranged between the connecting block and the pressing plate so as to push the pushing block to move downwards in advance and assist the pressing plate to reset.

In this embodiment, the friction force between the inclined surface of the inner side of the push block and the inclined channel is smaller than the sliding fit friction force between the press rod and the press plate, so that when the press plate moves downwards, the pair of modules can be pushed in advance to clamp the steel shell cylindrical battery. And after the module clamps the cylindrical battery with the steel shell, the pressing plate continues to descend to enable the pressing column to finish the sealing action of the cylindrical battery with the steel shell.

In this embodiment, in order to avoid the pressure lever, a pressure lever avoiding through hole 8 is further formed in the upper template of the die carrier.

When the device is used, a semi-finished product of the steel shell cylindrical battery is placed on the seat plate, then the electric cylinder drives the pressing plate to move downwards, the pushing block pushes the modules to move oppositely to clamp, and the arc-shaped notch of the positioning clamping plate is matched with the annular concave part of the steel shell cylindrical battery 20 to complete clamping of the steel shell cylindrical battery. Then the pressing plate continues to move downwards, the steel shell cylindrical battery is subjected to primary sealing operation through the pressing column, and the structure of the steel shell cylindrical battery after primary sealing is shown in figure 5. And taking out the steel shell cylindrical battery after the first sealing, then putting the steel shell cylindrical battery into a sealing machine device of the next steel shell cylindrical battery, and performing secondary sealing action, wherein the structure of the steel shell cylindrical battery after the second sealing is shown in figure 6. Taking out the two-sealed rear-end steel shell cylindrical battery, then putting the two-sealed rear-end steel shell cylindrical battery into a sealing machine device of the next steel shell cylindrical battery, and performing three-sealing action; the structure of the steel-shell cylindrical battery after three seals is shown in figure 7. The positioning structure of the device for the three-seal of the steel shell cylindrical battery, the device for the first seal of the steel shell cylindrical battery and the device for the second seal of the steel shell cylindrical battery has slight deviation, namely the thickness of a positioning clamp plate of the device for the three-seal of the steel shell cylindrical battery is smaller than that of the positioning clamp plate in the device for the first seal and the second seal.

The device changes servo motor from the upper end and pushes down, decomposes through each step with the capper for the mould separately in three independent station, has effectively overcome the defect that exists in the current capper, and the precision of the product of assurance avoids influencing each other between the size of each work.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the present invention.

Claims (7)

1. The utility model provides a steel-shell cylinder battery capper device, includes the die carrier, its characterized in that, be provided with the clamp plate that is gone up and down by elevating system drive on the die carrier, sliding connection has a pair of module on the bottom plate of die carrier, be provided with the location structure of the tight steel-shell cylinder battery of a pair of module looks back clamp on the module relative motion, be provided with on the clamp plate with the module cooperate realize the clamp plate down the linkage structure of a pair of module looks relative motion, the downside of clamp plate is fixed with the compression leg.

2. The steel-shell cylindrical battery sealer device according to claim 1, wherein the lifting mechanism comprises an upper template fixed at the upper end of the die frame, an electric cylinder is vertically fixed on the upper template, and a telescopic rod of the electric cylinder penetrates through the upper template and is fixedly connected with the pressing plate; the periphery of the pressing plate is in sliding fit with the stand columns of the die carrier respectively.

3. The can cylindrical battery sealer apparatus of claim 1, wherein a pair of sliders are fixed to the base plate, and lower portions of the modules are slidably engaged with the respective sliders.

4. The steel-shell cylindrical battery sealer device according to claim 1, 2 or 3, wherein the positioning structure comprises a convex block which is arranged on the upper part of the inner side of the module and protrudes inwards, a semicircular sinking groove is arranged on the upper end surface of the convex block, a positioning clamping plate is installed in the sinking groove, an arc-shaped notch is arranged on the inner side of the positioning clamping plate, and an arc-shaped avoiding notch is further arranged on the lower side of the convex block, which is located on the positioning clamping plate.

5. The steel-shell cylindrical battery sealer device according to claim 1, 2 or 3, wherein the linkage structure comprises pressure rods vertically arranged at two sides of the pressing block, the lower ends of the pressure rods are fixed with pushing blocks through connecting blocks, the pushing blocks are in sliding fit with guide rails positioned at the outer sides of the pushing blocks, and inclined planes at the inner sides of the pushing blocks are matched with inclined channels arranged at the outer sides of the modules.

6. The can cylindrical battery sealer apparatus of claim 5, wherein the upper portion of the pressure rod passes through the pressure plate and is slidably engaged with a guide sleeve provided on the pressure plate, and a spring fitted around the pressure rod is provided between the connecting block and the pressure plate.

7. The steel-shell cylindrical battery capper apparatus of claim 6, wherein said upper mold plate of said mold frame is further provided with a pressure bar avoiding through hole.

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