CN216037545U - Stroke limiting mechanism of under-film adsorption carrier plate - Google Patents

Abstract

The utility model relates to a stroke limiting mechanism of an under-film adsorption carrier plate. It has solved the technical problem of current removal support plate removal stroke control. This absorption support plate stroke stop gear under membrane, including a carriage, absorption support plate stroke stop gear under membrane still includes: the fixed carrier plate is fixedly arranged on the conveying frame and is used for primary bearing of materials; the movable carrier plate is arranged on one side of the fixed carrier plate, is horizontally connected with the conveying frame in a sliding manner, and is used for conveying, flatly laying and fixing materials; and the stroke limiting structure is provided with a front limiting block and a rear limiting block, and the front limiting block and the rear limiting block are respectively arranged on the conveying frame at intervals and are positioned at two ends of the translation direction of the movable carrier plate for limiting the movement interval of the movable carrier plate. The utility model is characterized in that: this adsorb support plate stroke stop gear under membrane further increases from the dynamic planarization of type membrane material transportation in-process, avoids striking the deformation when can quick travel.

Description

Stroke limiting mechanism of under-film adsorption carrier plate

Technical Field

The utility model belongs to the field of film tearing testing machines, and relates to a stroke limiting mechanism of an under-film adsorption carrier plate.

Background

When the film tearing machine is limited on a flat plate by tiling the release film, an adsorption mechanism is generally adopted to adsorb and peel off the upper end face of the release film, and the existing adsorption structure and the adsorption mode have higher requirements on adsorption force control in use.

For example, chinese patent literature discloses a film peeling apparatus and a film peeling method [201911303901.7], including a first frame, a second frame, a first rail assembly, a second rail assembly, a lower vacuum suction, a jacking cylinder, a first lock shaft assembly, a second lock shaft assembly, an upper bracket, an upper vacuum suction, a descending cylinder, a second cylinder and a cutter device, a jacking cylinder base is fixedly installed between the first frame and the second frame, a jacking cylinder is fixedly installed at the top of the jacking cylinder base, a lower vacuum suction is fixedly installed on a piston rod of the jacking cylinder, a first rail assembly is fixedly installed at the top of the first frame, although the utility model increases the peeling success rate, the release film is fixed by the lock shaft, the damage when the release film is peeled off is prevented, but only the static state can be realized to tile the release film, and the continuous automatic conveying cannot be realized.

Disclosure of Invention

The utility model aims to provide a stroke limiting mechanism of an under-film adsorption carrier plate, aiming at the problems in the prior art.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides an adsorb carrier plate stroke stop gear under membrane, includes a carriage, adsorb carrier plate stroke stop gear still includes under the membrane:

the fixed carrier plate is fixedly arranged on the conveying frame and is used for primary bearing of materials;

the movable carrier plate is arranged on one side of the fixed carrier plate, is horizontally connected with the conveying frame in a sliding manner, and is used for conveying, flatly laying and fixing materials;

the stroke limiting structure is provided with a front limiting block and a rear limiting block, is arranged on the conveying frame at intervals respectively, is positioned at two ends of the translation direction of the movable carrier plate, and is used for limiting the movement interval of the movable carrier plate;

and the driving mechanism drives the movable carrier plate to move between the stroke limiting structures along the translation guide mechanism.

Furthermore, two guide rails arranged along the length direction of the conveying frame are arranged in two sides of the conveying frame, two connecting plates are arranged at the bottoms of two sides of the movable carrier plate, and at least one sliding block capable of axially moving along the guide rails is arranged on each connecting plate.

Further, the stroke limit structure includes:

the two front stop blocks are symmetrically arranged on the conveying frame;

and the rear stop blocks are symmetrically arranged on two sides of the conveying frame and are positioned on one side of the connecting plate, which is far away from the anti-collision block.

And the buffer blocks are respectively arranged on the front stop block and the rear stop block and used for buffering the movement between the movable carrier plate and the front stop block and the rear stop block respectively.

Furthermore, movable pressing plates are arranged on the fixed carrier plate and the movable carrier plate.

Further, the driving mechanism is a driving rod arranged on one side of the movable carrier plate.

Further, the upper end of the conveying frame is provided with a supporting frame for preventing the driving rod from excessively moving.

Further, two connecting plates are provided with a synchronous connecting rod.

Furthermore, at least one reinforcing limiting rod is arranged between the two front stop blocks.

Compared with the prior art, this absorption support plate stroke stop gear under membrane can remove to meeting the stability of guaranteeing the tectorial membrane with fixed support plate axial through removing the support plate, guarantees simultaneously that the removal support plate removes the effect that forms tensile tiling among the in-process, further increases the dynamic planarization from type membrane material transportation process, avoids peeling off the process and appears the fold damage and has the buffering of targetting in place when removing the support plate and returning to fixed support plate one side, avoids the striking to warp when can quick travel.

Drawings

Fig. 1 is a schematic structural view of a stroke limiting mechanism of an under-film adsorption carrier plate provided by the utility model.

Fig. 2 is a schematic view of a stroke control mechanism of the travel limiting mechanism of the under-film adsorption carrier plate of fig. 1.

Fig. 3 is a schematic structural view of a front stopper of the under-film adsorption carrier plate stroke limiting mechanism in fig. 1.

Fig. 4 is a schematic structural diagram of a rear stopper of the travel limiting mechanism of the under-film adsorption carrier plate of fig. 1.

In the figure, 10, a carriage; 11. a guide rail; 12. a slider; 13. a support frame; 20. fixing the carrier plate; 30. moving the carrier plate; 31. a connecting plate; 32. a movable pressing plate; 33. a synchronous connecting rod; 40. a stroke limiting structure; 41. a front stop block; 42. a rear stop block; 43. a buffer block; 44. reinforcing the limiting rod; 50. a drive mechanism.

Detailed Description

Example one

Fig. 1 to fig. 4 are schematic structural views of a travel limiting mechanism of an under-film adsorption carrier plate according to the present invention. The utility model provides an adsorb carrier plate stroke stop gear under membrane, includes a carriage 10, the fixed setting is in fixed carrier plate 20 on the carriage 10, set up one side of fixed carrier plate 20 and with carriage 10 horizontal sliding connection's removal carrier plate 30, the interval sets up respectively on the carriage 10 and be located remove the both ends stroke limit structure 40 of carrier plate 30 translation direction, drive remove carrier plate 30 along the actuating mechanism 50 of translation guiding mechanism between stroke limit structure 40. It is understood that the under-film adsorption carrier plate stroke limiting mechanism further includes other functional components and specific structures, such as electrical connection components, mounting structures, sealing structures, etc., which are well known to those skilled in the art, and therefore, they will not be described in detail herein.

The carriage 10 serves as a mounting carrier for the structural mounting arrangement. In this embodiment, the carriage 10 has a bottom plate, and support plates are disposed on two sides of the bottom plate. The bottom plate and the support plate are U-shaped.

The fixed carrier plate 20 is disposed at one end of the conveyor 10, the movable carrier plate 30 is disposed at one side of the fixed carrier plate 20, the fixed carrier plate 20 and the movable carrier plate 30 have the same height, and the upper end surfaces of the fixed carrier plate 20 and the movable carrier plate 30 are both provided with corresponding movable press plates 32. In this embodiment, the movable pressing plate 32 is of a hinge structure, one end of the movable pressing plate is fixed on the fixed carrier plate 20 and the movable carrier plate 30, and the other end of the movable pressing plate 32 can rotate and press two side edges of the material disposed on the fixed carrier plate 20 and the movable carrier plate 30, so as to ensure that the material can be primarily tiled on the fixed carrier plate 20 and the movable carrier plate 30, and meanwhile, the material has a certain horizontal movement capability. Conceivably, fixing seats may be disposed at two ends of the fixed carrier plate 20 and the movable carrier plate 30, a spring is disposed on the fixing seat, an elastic plate is disposed at one end of the spring away from the fixing seat, and the elastic plate is pressed down to limit the position of the material, so that the same technical effect as that achieved by the movable pressing plate 32 of the hinge structure can be achieved.

The two sides of the conveying frame 10 are internally provided with two guide rails 11 arranged along the length direction of the conveying frame 10, the bottoms of the two sides of the movable carrier plate 30 are provided with two connecting plates 31, each connecting plate 31 is provided with at least one sliding block 12 capable of axially moving along the guide rails 11, the sliding blocks 12 adopt the movable carrier plate 30 to reciprocate along the length direction of the conveying frame 10, the sliding structure adopting the underneath type ensures the stability of the translation guide of the movable carrier plate 30, simultaneously ensures the installation height of the movable carrier plate 30, and avoids the interference between the movable carrier plate 30 and the fixed carrier plate 20 and the conveying frame 10 in the moving process.

The stroke limiting structure 40 limits the horizontal position of the movable carrier plate 30 on the conveying frame 10 through two front stoppers 41 symmetrically arranged on the conveying frame 10 and two rear stoppers 42 symmetrically arranged on two sides of the conveying frame 10 and located on one side of the connecting plate 31 far away from the anti-collision block. When the connecting plate 31 abuts against the rear stopper 42, the movable carrier plate 30 moves to one side of the fixed carrier plate 20, and it is conceivable that the movable carrier plate 30 can move to be axially connected with the fixed carrier plate 20, so that the structure ensures the stability of the film coating when the movable carrier plate 30 reciprocates, and simultaneously ensures that the movable carrier plate 30 forms a stretching and tiling effect in the moving process, increases the dynamic smoothness in the release film material conveying process, and avoids the fold damage in the peeling process.

And buffer blocks 43 respectively disposed on the front block 41 and the rear block 42 for buffering the movement between the moving carrier plate 30 and the front block 41 and the rear block 42. In this embodiment, the anti-collision blocks are vertically spaced at a side of the front block 41 close to the connecting plate 31, and are used for moving the connecting plate 31 on the carrier plate 30 to move to the movement buffer at the front block 41 and stop to the set position. More optimally, a positioning device can be arranged between the anti-collision block and the connecting block, the connecting block and the anti-collision block are connected to form a whole under the action of no external force, the positioning device such as a magnetic attraction positioning device and a buckle connecting device can be realized, and the specific structure is not described in detail herein.

The dampers are symmetrically arranged on both sides of the rear stopper 42, the function of the dampers is similar to that of the crash block, the dampers and the crash block can be replaced with each other in the embodiment, and the movable carrier 30 has a buffer function when returning to one side of the fixed carrier 20, so that the movable carrier can move quickly and avoid impact deformation.

The driving mechanism 50 is a driving rod disposed at one side of the movable carrier 30.

The upper end of the conveying frame 10 is provided with a support frame 13 for preventing the driving rod from moving excessively, and whether the moving carrier plate 30 moves in place can be known through comparing the positions of the driving rod and the support frame 13.

Two connecting plates 31 are symmetrically arranged and are connected with each other by arranging a synchronous connecting rod 33, so that the moving reliability of the moving carrier is enhanced and the moving synchronization effect is ensured.

The two front stop blocks 41 are symmetrically arranged and connected through at least one reinforcing limiting rod 44, and the reinforcing limiting rod 44 further enhances the reliability of the front stop blocks 41.

Example two

The structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the only difference lies in that: two conveying chains arranged along the length direction of the conveying frame 10 are arranged in two sides of the conveying frame 10, the conveying chains are connected with servo motors, the bottom of the movable carrier plate 30 is connected to the conveying chains, the movable carrier plate 30 is driven to reciprocate through the conveying chains, and the automatic effect of the embodiment is better.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (8)

1. The utility model provides an adsorb carrier plate stroke stop gear under membrane, includes a carriage, its characterized in that, adsorb carrier plate stroke stop gear under membrane still includes:

the fixed carrier plate is fixedly arranged on the conveying frame and is used for primary bearing of materials;

the movable carrier plate is arranged on one side of the fixed carrier plate, is horizontally connected with the conveying frame in a sliding manner, and is used for conveying, flatly laying and fixing materials;

the stroke limiting structures are provided with front limiting points and rear limiting points, are respectively arranged on the conveying frame at intervals and are positioned at two ends of the translation direction of the movable carrier plate, and are used for limiting the movement interval of the movable carrier plate;

and the driving mechanism drives the movable carrier plate to move between the stroke limiting structures along the translation guide mechanism.

2. The mechanism for limiting the travel of a carrier plate for adsorption under film according to claim 1, wherein two guide rails are disposed on two sides of the carrier frame along the length direction of the carrier frame, two connecting plates are disposed on the bottoms of two sides of the moving carrier plate, and the connecting plates are provided with at least one sliding block capable of moving along the axial direction of the guide rails.

3. The under-film adsorption carrier plate stroke limiting mechanism of claim 2, wherein the stroke limiting mechanism comprises:

the two front stop blocks are symmetrically arranged on the conveying frame;

the rear stop blocks are symmetrically arranged on two sides of the conveying frame and are positioned on one side of the connecting plate away from the anti-collision block;

and the buffer blocks are respectively arranged on the front stop block and the rear stop block and used for buffering the movement between the movable carrier plate and the front stop block and the rear stop block respectively.

4. The mechanism of claim 2, wherein the fixed carrier plate and the movable carrier plate are provided with movable pressing plates.

5. The mechanism for limiting the travel of a membrane-lower adsorption carrier plate according to claim 1, wherein the driving mechanism is a driving rod disposed at one side of the movable carrier plate.

6. The under-film adsorption carrier plate stroke limiting mechanism of claim 5, wherein the upper end of the conveying frame is provided with a support frame for preventing the driving rod from moving excessively.

7. The under-film adsorption carrier plate stroke limiting mechanism of claim 2, wherein two connecting plates are provided with a synchronous connecting rod.

8. The mechanism of claim 3, wherein at least one reinforcing and limiting rod is disposed between the two front stops.

Images