CN214563717U - Energy storage device presses down seal equipment - Google Patents

Abstract

An energy storage device stamping device comprises a rack, and a stamping mechanism and a pressing mechanism which are arranged on the rack; the transfer printing mechanism is fixed with a printing rubber head, the pressing mechanism comprises a transmission rod, a pressing manipulator is arranged above the transmission rod and is positioned above the printing rubber head, and the pressing mechanism drives the pressing manipulator to do lifting action through the transmission rod; the pressing manipulator is a scissor-shaped manipulator comprising two horizontal cross arms, the angle between the two horizontal cross arms is adjustable, each horizontal cross arm is provided with a pressing ejector rod, and the pressing ejector rods are of a height-adjustable screw rod structure; different from the traditional mode that satisfies the difference and press down the seal demand through the adjustment glues black station height position, this equipment can control printing head through pushing down the manipulator and move down the stroke, and is simple and convenient, the effectual serious problem of ink scraper loss of having avoided because of adjusting many times and gluing the black station height position and causing.

Description

Energy storage device presses down seal equipment

Technical Field

The utility model relates to an energy storage device production field specifically is an energy storage device presses down seal equipment.

Background

The printing device that presses down is essential production facility in the winding type energy storage device production process, and its effect is pressed down the seal with the outward appearance sign to the product, at the naked article printing process of pressing down, often need adjust printing rubber head and glue the china ink station, the difference in height between the printing station that presses down according to product specification and different outward appearance demands of pressing down.

The stroke is pressed down to the mechanism that pushes down of seal equipment is fixed to the tradition, directly leads to the printing to glue the head move down the stroke fixed, when the face is to the product that the specification is different and the difference seal outward appearance demand, can only adjust to gluing black station and the height of pressing down the seal station, and glue the high frequent adjustment of black station and can make printing ink scraper loss serious, and the adjustment action is loaded down with trivial details, changes the machine inefficiency, very big increase equipment use cost, seriously influence energy storage device production efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an energy storage device presses down seal equipment.

An energy storage device stamping device comprises a rack, and a stamping mechanism and a pressing mechanism which are arranged on the rack; the transfer printing mechanism is fixed with a printing rubber head, the pressing mechanism comprises a transmission rod, a pressing manipulator is arranged above the transmission rod and positioned above the printing rubber head, and the pressing mechanism drives the pressing manipulator to do lifting action through the transmission rod;

the down-pressing manipulator is a scissors-shaped manipulator comprising two horizontal cross arms, the angle between the two horizontal cross arms is adjustable, each horizontal cross arm is provided with a down-pressing ejector rod, the down-pressing ejector rods are of screw rod structures with adjustable extension lengths, and the down-pressing ejector rods are matched with the lifting action of the down-pressing manipulator to push the printing rubber head to move down to realize ink sticking and printing pressing actions.

This equipment pushes down the manipulator angle that opens and shuts and the extension length of pushing down the ejector pin through the adjustment, can satisfy the different demands of stamping, simple structure, and the adjustment is convenient, need not to carry out the altitude mixture control to the printing ink station, has avoided the loss of printing ink scraper, and the effectual machine efficiency that changes that has improved is convenient for the production of actual energy storage device product more.

As the utility model provides a pair of seal equipment is pressed down to energy storage device's an embodiment, horizontal xarm still matches and pushes down the ejector pin and has seted up the spacing groove, it runs through to push down the ejector pin the spacing groove sets up, the spacing groove is the strip groove, it can to push down the ejector pin spacing inslot adjustment fixed position prevents to push down the manipulator and opens and shuts and push down the ejector pin position change behind the angular adjustment, and the printing of unable alignment below is glued the head.

As the utility model provides a pair of an embodiment of seal equipment is pressed down to energy storage device, the printing is glued the head below and is provided with and glues black station and press down the seal station, the mechanism of reprinting can drive the printing and glue the head and glue black station, press down seal station top horizontal reciprocating motion.

As a pair of the utility model provides an embodiment of seal equipment is pressed down to energy storage device, it is provided with the ink horn to glue black station, the top of ink horn is provided with the printing ink scraper, the printing ink scraper stretches into the interior setting of ink horn to it is stained with to produce clear printing ink typeface and supply printing rubber head to get.

The utility model provides a pair of an embodiment of seal equipment is pressed down to energy storage device, press down the seal station for being provided with the bat printing dish, the bat printing dish is located the place ahead of ink horn, the printing is glued the head and is in horizontal reciprocating motion above ink horn, the bat printing dish can shift energy storage device product to the printing and glue under the head, and the cooperation press down the manipulator and accomplish and glue the china ink, press down the seal operation.

As the utility model provides a pair of an embodiment of seal equipment is pressed down to energy storage device, bat printing mechanism is including horizontal drive device, horizontal drive device's drive end is provided with the slider and the slide rail that match each other, the vertical setting of slide rail, the slider can the action of falling on the slide rail is fixed.

As the utility model provides a pair of energy storage device presses down an embodiment of seal equipment, horizontal drive arrangement's drive end still is provided with the printing and glues the first dead lever, the printing glues the first dead lever and runs through the slider sets up, the printing glue the first dead lever with slider sliding fit sets up, the printing glue the head set up in first dead lever lower extreme is glued in the printing, the printing glues the first dead lever and can drive the printing and glue first oscilaltion action.

As a pair of the utility model provides an embodiment of seal equipment is pressed down to energy storage device, the printing rubber head dead lever is provided with return spring, return spring one end is fixed with the printing rubber head dead lever, and the other end is fixed in on the slider for the printing rubber head moves down and accomplishes the china ink that glues, presses down to seal automatic re-setting after the operation.

Advantageous effects

The seal equipment is pressed down to energy storage device that describes above, be different from traditional mode that satisfies the different demands of pressing down the seal through adjustment ink horn height position, this equipment pushes down the angle of opening and shutting of manipulator and the extension length of pushing down the push rod through the adjustment and can control printing rubber head and move down the stroke and push down the position, and is simple and convenient, effectually avoided gluing the serious problem of printing ink scraper loss that the ink station height position caused because of adjustment many times, make the seal equipment of pressing down be applicable to multiple specification size, the seal is pressed down to the energy storage device product of multiple printing down demand, very big improvement the application scope of this equipment, the use cost of equipment has been saved, the change efficiency of equipment has been improved, adapt to the actual demand of pressing down more.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention:

FIG. 1 is a schematic view of the overall structure of the preferred embodiment of the present invention;

FIG. 2 is a front view of the structure of the preferred embodiment of the present invention;

FIG. 3 is a schematic view of the assembly structure of the pad printing mechanism 300 and the ink sticking station 400;

wherein:

a frame-100;

a pressing mechanism-200; a transmission rod-210; pressing down the mechanical arm-220; a horizontal cross arm-221; the mandril-222 is pressed down; a limiting groove-223;

a pad printing mechanism-300; a printing rubber head 310; horizontal drive-320; a printing rubber head fixing rod-330; a return spring 340; a slide block-321; a slide rail-322;

ink sticking station-400; ink cartridge-410; ink blade-420;

printing station-500; pad printing plate-510; prime clip-520.

Detailed Description

The following description of the preferred embodiments of the present invention will enable one skilled in the art to make and use the present invention as described below, and will more fully understand the innovative features and attendant advantages of the present invention.

As shown in fig. 1 and fig. 2, the energy storage device printing device comprises a frame 100, a pressing mechanism 200 and a transfer printing mechanism 300, wherein the pressing mechanism 200 and the transfer printing mechanism 300 are arranged on the frame 100, the transfer printing mechanism 300 is provided with a printing rubber head 310, and an ink sticking station 400 and a printing station 500 are arranged below the printing rubber head 310.

The pressing mechanism 200 comprises a vertically arranged transmission rod 210, a scissor-shaped pressing manipulator 220 is arranged at the top of the transmission rod 210, the pressing manipulator 220 is perpendicular to the transmission rod 210, the pressing manipulator 220 is located above the printing rubber head 310, and the pressing mechanism 200 drives the pressing manipulator 220 to do lifting action through the transmission rod 210.

Specifically, the pressing manipulator 220 comprises two horizontal cross arms 221, the angle between the two horizontal cross arms 221 is adjustable, each horizontal cross arm 221 is provided with a pressing mandril 222, and the distance between the two pressing mandrils 222 can be adjusted by adjusting the opening and closing angles of the two horizontal cross arms 221 so as to adapt to different pressing and printing requirements.

Further, the horizontal cross arm 221 is further matched with a pressing ejector rod 222 to be provided with a limiting groove 223, the pressing ejector rod 222 penetrates through the limiting groove 223, the limiting groove 223 is a strip-shaped groove, the pressing ejector rod 222 can be adjusted and fixed in the limiting groove 223, and the situation that the position of the pressing ejector rod 222 changes after the opening and closing angle of the pressing manipulator 220 is adjusted and cannot be aligned with the printing glue head 310 below is avoided.

The lower push rods 222 are respectively arranged corresponding to the ink sticking station 400 and the printing station 500, the transfer mechanism 300 can drive the printing rubber head 310 to reciprocate below the two lower push rods 222, and the lower push rods 222 are matched with the lifting action of the lower manipulator 220 to push the printing rubber head 310 below the lower push rods to move downwards to realize ink sticking and printing operation.

Further, the pressing ejector rod 222 is a screw rod structure with an adjustable extension length, but is not limited to the screw rod structure, so that the extension length of the pressing ejector rod 222 can be adjusted according to actual requirements, and the downward moving stroke of the printing rubber head 310 is effectively controlled to meet different printing requirements.

Referring to fig. 1 and 3, the transfer mechanism 300 includes a horizontal driving device 320, the horizontal driving device 320 is preferably, but not limited to, a cylinder, the transfer mechanism 300 can drive the printing head 310 to horizontally reciprocate above the inking station 400 and the printing station 500, specifically, when the transfer mechanism 300 drives the printing head 310 to move above the inking station 400, the pressing rod 222 pushes the printing head 310 to move downwards for inking, and when the transfer mechanism 300 drives the printing head 310 to move above the printing station 500, the pressing rod 222 pushes the printing head 310 to move downwards for printing.

As shown in fig. 3, specifically, the driving end of the horizontal driving device 320 is provided with a sliding block 321 and a sliding rail 322 which are matched with each other, the sliding rail 322 is vertically arranged, and the sliding block 321 can move up and down on the sliding rail 322 and is fixed.

The driving end of the horizontal driving device 320 is further provided with a printing rubber head fixing rod 330, the printing rubber head fixing rod 330 penetrates through the sliding block 321, the printing rubber head fixing rod 330 is arranged in sliding fit with the sliding block 321, the printing rubber head 310 is arranged at the lower end of the printing rubber head fixing rod 330, and the printing rubber head fixing rod 330 can drive the printing rubber head 310 to move up and down under the pushing of the pushing rod 222.

The printing rubber head fixing rod 330 is further sleeved with a return spring 340, one end of the return spring 340 is fixed with the printing rubber head fixing rod 330, and the other end of the return spring 340 is fixed on the sliding block 321, so that the printing rubber head 310 moves downwards to be automatically reset by the elastic force of the return spring 340 after ink sticking and printing operations are completed.

The ink sticking station 400 is provided with an ink box 410, an ink scraper 420 is arranged above the ink box 410, the ink scraper 420 extends into the ink box 410 to be arranged so as to generate clear ink characters for the lettering rubber head 310 to pick up, and a notch is further arranged at the position of the ink box 410 corresponding to the pad printing plate 510 so as to facilitate the lettering rubber head 310 to glue ink and press down for printing operation.

As shown in fig. 1, the printing plate 500 is provided with a pad plate 510, the pad plate 510 is located in front of the ink cartridge 410, and eight element clips 520 for holding energy storage device products are provided, but not limited thereto, the pad plate 510 can drive the element clips 520 to rotate to the position right in front of the ink sticking station 400, namely, right below the printing position of the printing head 310, so as to cooperate with the pressing operation of the pressing robot 220.

The seal equipment is pressed down to energy storage device that describes above, be different from traditional mode that satisfies the different demands of pressing down the seal through adjustment oil ink box 410 high low position, this equipment can control printing rubber head 310 through the adjustment angle of opening and shutting of manipulator 220 and the extension length of push rod down and move down the stroke and push down the position, and is simple and convenient, effectually avoided gluing the serious problem of the 420 losses of printing ink scraper that the high low position of black station 400 caused because of frequent adjustment, make the seal equipment be applicable to multiple specification size, the seal is pressed down to the energy storage device product of multiple printing down demand, very big improvement the application scope of this equipment, change quick-witted easy operation convenience, and the equipment use cost is practiced thrift, and the product production efficiency is improved, adapt to actual energy storage device more and press down the seal production demand.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the specific embodiments of the present invention be limited by these descriptions; to the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection.

Claims (8)

1. The utility model provides an energy storage device presses down seal equipment which characterized in that: comprises a frame, a pressing mechanism and a pad printing mechanism, wherein the pressing mechanism and the pad printing mechanism are arranged on the frame;

the transfer printing mechanism is fixed with a printing rubber head, the pressing mechanism comprises a transmission rod, a pressing manipulator is arranged above the transmission rod and positioned above the printing rubber head, and the pressing mechanism drives the pressing manipulator to do lifting action through the transmission rod;

the down-pressing manipulator is a scissor-shaped manipulator comprising two horizontal cross arms, the angle between the two horizontal cross arms is adjustable, each horizontal cross arm is provided with a down-pressing ejector rod, the down-pressing ejector rods are of a height-adjustable screw rod structure, and the down-pressing ejector rods are matched with the lifting action of the down-pressing manipulator to push the printing rubber head to move down to realize ink sticking and printing.

2. An energy storage device impact printing apparatus according to claim 1, characterized in that: the horizontal cross arm is further matched with a pressing ejector rod and provided with a limiting groove, the limiting groove is a strip-shaped groove, and the pressing ejector rod penetrates through the limiting groove.

3. An energy storage device impact printing apparatus according to claim 1, characterized in that: the printing machine is characterized in that an ink sticking station and a printing station are arranged below the printing rubber head, and the transfer mechanism is used for driving the printing rubber head to horizontally reciprocate above the ink sticking station and the printing station.

4. An energy storage device impact printing apparatus according to claim 3, characterized in that: the ink sticking station is provided with an ink box, an ink scraper is arranged above the ink box, and the ink scraper extends into the ink box.

5. An energy storage device impact printing apparatus according to claim 4, characterized in that: the printing rubber head horizontally reciprocates above the ink box and the pad printing plate and is matched with the pressing manipulator to finish the ink sticking and printing operation.

6. An energy storage device impact printing apparatus according to claim 1, characterized in that: specifically, the pad printing mechanism comprises a horizontal driving device, a sliding block and a sliding rail which are matched with each other are arranged at the driving end of the horizontal driving device, the sliding rail is vertically arranged, and the sliding block can ascend and descend on the sliding rail and is fixed.

7. An energy storage device impact printing apparatus according to claim 6, characterized in that: the driving end of the horizontal driving device is further provided with a printing rubber head fixing rod, the printing rubber head fixing rod penetrates through the sliding block, and the printing rubber head is arranged at the lower end of the printing rubber head fixing rod.

8. An energy storage device impact printing apparatus according to claim 7, characterized in that: the printing rubber head fixing rod is provided with a return spring, one end of the return spring is fixed with the printing rubber head fixing rod, and the other end of the return spring is fixed on the sliding block, so that the printing rubber head moves downwards to finish ink sticking and printing pressing operation and then automatically resets.

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