CN204651410U - The pressing claw mechanism of laminating machine - Google Patents

Abstract

The utility model discloses a kind of pressing claw mechanism of laminating machine, comprise a pedestal, base and at least one paw, pedestal is provided with a cylinder, the cylinder rod of cylinder is connected with skewback, skewback abuts to pan frontward end, base left and right portion forms ladder, base left part has convex slot to make way, on the right side of convex slot to make way, cell wall has resigning hole, base right part empties formation inner chamber, inner chamber is arranged with spring and guide vane end stop, and guide vane end stop left part has the surface groove coordinated with skewback, base bottom is provided with limit base, and limit base is connected with pedestal by a gag lever post.The utility model can assist barrier film to realize positive and negative plate lamination, air cylinder driven skewback realizes the movement of base in glidepath, and drive paw generation to finely tune upwards, upwards, finely tune downward, downward action, barrier film is facilitated to carry out lamination to positive and negative plate, prevent barrier film to tear in extraction, greatly save material, improve production quality and lamination efficiency.

Description

The pressing claw mechanism of laminating machine

Technical field

The utility model relates to laminating machine, relates to a kind of pressing claw mechanism of laminating machine in more detail.

Background technology

Chinese Patent Application No.: 201120539578.6, disclose a kind of hold-down mechanism, its paw structure comprises the first paw and the second paw, and the resistance surface of the first paw is contrary with the resistance surface of the second paw arranges, driving mechanism drives paw structure with choice for use first paw or the second paw, therefore, when carrying out lamination to positive plate, utilize the first paw or the second paw to compress positive plate, when anticathode sheet carries out lamination, driving mechanism drives the upset of paw structure.

Chinese Patent Application No.: 201220422121.1, disclose a kind of lamination stacking table device alternately compressed, comprise the four groups of pressing claw mechanisms being distributed in lamination stacking table two ends, every two groups of mutual alternating actions of pressing claw mechanism are in one end of lamination stacking table panel, often group pressing claw mechanism comprises two paws for compressing pole piece two jiaos, drive the paw cylinder that paw moves up and down, the Mobile base that paw cylinder is connected with paw and with travel mechanism is installed.Described device also comprises each drive of two covers two groups of pressing claw mechanisms alternately close to or away from the travel mechanism of lamination stacking table.Travel mechanism comprises the horizontal slide rail for installing pressing claw mechanism of lamination stacking table lower panels, connects the tooth bar of pressing claw mechanism, drives the gear shaft that tooth bar moves horizontally, the servomotor that driven gear axle rotates.This device also comprises the cover mechanism for filling up lamination stacking table panel jaw position groove, and cover mechanism comprises the cover plate close with groove area and promotes the cover cylinder of cover plate.

Above-mentioned utility model creates complex structure, and product fraction defective is higher, and the life-span is short.

Utility model content

The purpose of this utility model is, overcome the above-mentioned defect of prior art, a kind of compact conformation is provided, can by means of only can also produce while an air cylinder driven paw forward-reverse fine setting upwards, upwards, fine setting downwards, the pressing claw mechanism of the laminating machine of action downwards.

For achieving the above object, the technical scheme that the utility model provides is as follows: a kind of pressing claw mechanism of laminating machine, comprise a pedestal, base and at least one paw, pedestal is provided with a cylinder, the cylinder rod of cylinder is connected with skewback, skewback abuts to pan frontward end, base left and right portion forms ladder, base left part has convex slot to make way, the right side cell wall of convex slot to make way has resigning hole, base right part empties formation inner chamber, inner chamber is arranged with spring and guide vane end stop, guide vane end stop left part has the surface groove coordinated with skewback, base bottom is provided with limit base, limit base is connected with pedestal by a gag lever post.

Skewback is located at the bottom slotted eye of convex slot to make way, and skewback front end is connected with cylinder rod, rear end is inclined-plane, and skewback is inserted through resigning hole and extends in the surface groove of guide vane end stop from convex slot to make way, and the inclined-plane of skewback abuts with the inclined-plane of surface groove.

Base left part upper end is provided with fine setting guide vane end stop, and fine setting guide vane end stop is decussate texture, and fine setting guide vane end stop bottom is provided with position-limited wheel, and the top slotted eye of convex slot to make way is inserted in fine setting guide vane end stop bottom, and position-limited wheel drops down onto skewback top and abuts in skewback.

Skewback top is provided with ladder, and the joint face of ladder is cambered surface.

Guide vane end stop top is provided with slide rail, and upper slide rail is connected with paw.

Limit base bottom is provided with slide block, and slide block is connected with glidepath.

Operation principle: promote skewback by cylinder and move right, skewback band movable slider moves on glidepath, thus the base on slide block is moved, meanwhile, the inclined-plane of skewback bear against the inclined-plane of the surface groove of guide vane end stop, and move toward top gradually from the bottom on stopper slot inclined-plane, two inclined-planes coordinate to compress makes guide vane end stop and paw to bottom offset, the impact that the position-limited wheel of finely tuning guide vane end stop moves right by skewback, relatively move to the lower curtate of skewback upper end ladder, now, barrier film compresses by paw, carries out lamination to positive plate, negative plate.

After barrier film lamination completes, cylinder is moved to the left reset, skewback is moved to the left under the elastic force effect of spring, the impact that position-limited wheel is moved to the left by skewback, relatively be moved to the higher part of skewback upper end ladder to the right, position-limited wheel is spacing by fine setting guide vane end stop, react on skewback, skewback is moved downward relative to guide vane end stop, the inclined-plane of skewback moves downward the stopper slot relative upward movement causing coordinating with it, realize paw upwards to finely tune relative to battery pole piece, thus reduce the frictional force of paw and barrier film; When cylinder is moved to the left reset further, skewback is moved to the left further, and guide vane end stop compresses power by skewback and reduces further, and the elastic force of spring makes guide vane end stop reset gradually, makes paw increase, until paw and barrier film depart from completely.

Usefulness of the present utility model is: auxiliary barrier film realizes positive plate, negative plate lamination, air cylinder driven skewback realizes the movement of base in glidepath, and drive paw generation to finely tune upwards, upwards, finely tune downward, downward action, conveniently lamination is carried out to positive plate, negative plate, prevent barrier film tearing in paw extraction, greatly save material and mechanism, improve production quality and lamination efficiency.

Accompanying drawing explanation

Fig. 1 is the pressing claw mechanism stereogram of the utility model laminating machine;

Fig. 2 is the pressing claw mechanism explosive view of the utility model laminating machine.

Embodiment

Be further described with regard to the technical solution of the utility model below in conjunction with accompanying drawing and preferred embodiment.

As Figure 1-Figure 2, the pressing claw mechanism of a kind of laminating machine described in the utility model, comprise a pedestal 1, base 2 and paw 3, pedestal 1 is provided with a cylinder 4, the cylinder rod 41 of cylinder 4 is connected with skewback 5, skewback 5 abuts to base 2 front end, base about 2 portion forms ladder, base 2 left part has convex slot to make way 20, on the right side of convex slot to make way 20, cell wall has resigning hole (accompanying drawing does not show), base 2 right part is emptied and is formed inner chamber 21, this inner chamber 21 is communicated with resigning hole, inner chamber 21 is arranged with spring 22 and guide vane end stop 6, guide vane end stop 6 left part has the surface groove 60 coordinated with skewback 5, base 2 bottom is provided with limit base 7, limit base 7 is connected with pedestal 1 by a gag lever post 71.

Further, skewback 5 is located at the bottom slotted eye of convex slot to make way 20, skewback 5 front end is connected with cylinder rod 41, rear end is inclined-plane 50, and skewback 5 is inserted through resigning hole and extends in the surface groove 60 of guide vane end stop 6 from convex slot to make way 20, and the inclined-plane 50 of skewback 5 abuts with the inclined-plane 61 of surface groove 60.

Further, base 2 left part upper end is provided with fine setting guide vane end stop 8, and fine setting guide vane end stop 8 is decussate texture, and fine setting guide vane end stop 8 bottom is provided with position-limited wheel 80.

Skewback 5 top is provided with ladder 90, and the joint face of ladder 90 is cambered surface.

The top slotted eye of convex slot to make way 20 is inserted in fine setting guide vane end stop 8 bottom, and position-limited wheel 80 drops down onto skewback 5 top and abuts in skewback 5, and skewback makes position-limited wheel moving up and down on ladder 90 in the push pull maneuver of cylinder rod.

Guide vane end stop 6 top is provided with slide rail 61, and upper slide rail 61 is connected with paw 3.

Limit base 7 bottom is provided with slide block 72, and slide block 72 is connected with glidepath 73.

During utility model works, start laminating machine, pressing claw mechanism is started working, first, cylinder promotes skewback by cylinder rod and moves right, skewback band movable slider moves on glidepath, thus the base on slide block is moved, meanwhile, the inclined-plane of skewback bear against the inclined-plane of the surface groove of guide vane end stop, and move toward top gradually from the bottom on stopper slot inclined-plane, two inclined-planes coordinate to compress makes guide vane end stop and paw to bottom offset, the impact that the position-limited wheel of finely tuning guide vane end stop moves right by skewback, relatively move to the comparatively lower curtate of skewback upper end ladder, now, barrier film compresses by paw, to positive plate, negative plate carries out lamination.

After barrier film lamination completes, cylinder is moved to the left reset, skewback is moved to the left under the elastic force effect of spring, the impact that position-limited wheel is moved to the left by skewback, relatively be moved to the higher part of skewback upper end ladder to the right, position-limited wheel is spacing by fine setting guide vane end stop, react on skewback, skewback is moved downward relative to guide vane end stop, the inclined-plane of skewback moves downward the stopper slot relative upward movement causing coordinating with it, realize paw upwards to finely tune relative to battery pole piece, thus reduce the frictional force of paw and barrier film; When cylinder is moved to the left reset further, skewback is moved to the left further, and guide vane end stop compresses power by skewback and reduces further, and the elastic force of spring makes guide vane end stop reset gradually, makes paw increase, until paw and barrier film depart from completely.

So move in circles namely realize pressing claw mechanism assist barrier film realize to positive plate, negative plate lamination, air cylinder driven skewback realizes the movement of base in glidepath, and drive paw generation to finely tune upwards, upwards, finely tune downward, downward action, conveniently lamination is carried out to positive plate, negative plate, prevent barrier film tearing in paw extraction, greatly save material and mechanism, improve product quality and production efficiency.

Above-described is only principle of the present utility model and preferred embodiment.It should be pointed out that to those skilled in the art, under the prerequisite not departing from the utility model principle, some modification and improvement can also be made, also should be considered as belonging to protection range of the present utility model.

Claims (6)

1. the pressing claw mechanism of a laminating machine, comprise a pedestal, base and at least one paw, it is characterized in that: described pedestal is provided with a cylinder, the cylinder rod of cylinder is connected with skewback, skewback abuts to pan frontward end, base left and right portion forms ladder, base left part has convex slot to make way, on the right side of convex slot to make way, cell wall has resigning hole, base right part empties formation inner chamber, inner chamber is arranged with spring and guide vane end stop, and guide vane end stop left part has the surface groove coordinated with skewback, base bottom is provided with limit base, and limit base is connected with pedestal by a gag lever post.

2. the pressing claw mechanism of laminating machine according to claim 1, it is characterized in that: described skewback is located at the bottom slotted eye of convex slot to make way, skewback front end is connected with cylinder rod, rear end is inclined-plane, skewback is inserted through resigning hole and extends in the surface groove of guide vane end stop from convex slot to make way, and the inclined-plane of skewback abuts with the inclined-plane of surface groove.

3. the pressing claw mechanism of laminating machine according to claim 1, it is characterized in that: described base left part upper end is provided with fine setting guide vane end stop, fine setting guide vane end stop is decussate texture, fine setting guide vane end stop bottom is provided with position-limited wheel, the top slotted eye of convex slot to make way is inserted in fine setting guide vane end stop bottom, and position-limited wheel drops down onto skewback top and abuts in skewback.

4. the pressing claw mechanism of laminating machine according to claim 1, is characterized in that: described skewback top is provided with ladder, and the joint face of ladder is cambered surface.

5. the pressing claw mechanism of laminating machine according to claim 1, is characterized in that: described guide vane end stop top is provided with slide rail, and upper slide rail is connected with paw.

6. the pressing claw mechanism of laminating machine according to claim 1, is characterized in that: described limit base bottom is provided with slide block, and slide block is connected with glidepath.