CN217945651U - A high-efficient transfer device for pad pasting shifts - Google Patents

Abstract

The utility model provides a high-efficient transfer device for pad pasting shifts, its includes frame, drive mechanism, pad pasting mould, moves material mechanism. The traction mechanism comprises a pull rod slide rail and a traction pull rod. One end of the traction pull rod is arranged on the pull rod slide rail, and the other end of the traction pull rod is connected with the film sticking die, so that the die slide rail is transferred to the adsorption position of the material moving mechanism conveniently from the position of cutting the film sticking. The film sticking mould comprises a mould slide rail and a mould so as to place the cut film sticking. The material moving mechanism comprises an adsorption mechanism. The adsorption mechanism comprises a support frame and a vacuum chuck. The vacuum chuck is fixed on the support frame and faces the film pasting mold, and after the film pasting mold is adsorbed by the vacuum chuck, the film pasting mold is dragged by the moving mechanism to move the film pasting mold to a specified place. The traction mechanism and the material moving mechanism are automatically operated, so that the labor is reduced, the working efficiency is improved, the film sticking precision is improved, and the film sticking yield is effectively improved.

Description

A high-efficient transfer device for pad pasting shifts

Technical Field

The utility model relates to a move material equipment technical field, in particular to a high-efficient transfer device for pad pasting shifts.

Background

The film is a cold mounting film which can be used for mounting the surface of the body of the mobile phone, the screen and other tangible objects, and has various types, and the film is not limited to mounting the mobile phone, and can also be used for mounting MP3, MP4, computer screens, mice, sound boxes and any solid objects which need to be protected. The mobile phone film is widely used for beauty of mobile phones at first, so that the mobile phone film is named as the mobile phone film, and the mobile phone mounted by the mobile phone film can be refreshed, bright and attractive, so that the effect of refreshing an old machine can be achieved, and the mobile phone film can be waterproof, prevent dust from entering a keyboard and a screen and achieve the protection effect. As the demand for the adhesive film increases, how to rapidly move the cut adhesive film is an important part of achieving the efficiency improvement.

For example, a film cutting and feeding device of chinese patent with patent number CN201520896552.5, comprises a base as a bearing structure; the film fixing device is arranged on the base and used for fixing the whole film to be cut; the cutting device is arranged corresponding to the film sticking fixing device and can be used as a reference to separate the film sticking daughter from the film sticking; the film pasting and material moving device is installed on the base and used for driving the film pasting fixing device fixed with the film pasting daughter to move to a product to be pasted, and the film pasting daughter is pasted with the product after being released by the film pasting fixing device. The method is mainly used for directly pasting the film on the surface of the product when the product leaves a factory, and is not suitable for manufacturing the mobile phone film.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a can solve the high-efficient transfer device that is used for pad pasting to shift of above-mentioned problem.

A high-efficiency transfer device for film transfer comprises a rack, a traction mechanism arranged on the rack, a film sticking die connected with the traction mechanism, and a material transfer mechanism arranged on the rack. The rack comprises a horizontally arranged working table, an equipment base laid in the center of the working table, an equipment support arranged on the equipment base, and a conduction support erected on the working table. The traction mechanism comprises a pull rod slide rail arranged on the rack and a traction pull rod arranged on the pull rod slide rail. One end of the traction pull rod is arranged on the pull rod slide rail and reciprocates on the pull rod slide rail, and the other end of the traction pull rod is connected with the film sticking die. The film pasting die comprises two die slide rails and a die, wherein the die slide rails are arranged on one side, away from the pull rod slide rail, of the equipment support, and the die is arranged on the die slide rails. The arrangement directions of the two die slide rails are consistent with those of the pull rod slide rails and are arranged at intervals. The material moving mechanism comprises an adsorption mechanism close to the film sticking die and a moving mechanism for transferring the adsorption mechanism. The adsorption mechanism comprises a support frame arranged on the moving mechanism and two vacuum chucks arranged on the support frame. The vacuum chuck is fixed on the support frame and faces the film sticking mould.

Further, the worktable is located at the topmost part of the rack, and the equipment base is connected with the worktable through a fastener.

Further, the conduction bracket is erected on the working table and comprises two pillars and a beam, and the beam is positioned above one end of the equipment base.

Furthermore, the pull rod slide rail is arranged on the equipment base and is positioned below the equipment support.

Further, the traction pull rod is driven by a cylinder, a motor or other driving means.

Further, the two vacuum chucks are positioned on the same plane.

Furthermore, the moving mechanism comprises a transverse slide rail positioned on the cross beam, a vertical slide rail arranged perpendicular to the transverse slide rail, a transverse slide block arranged on the transverse slide rail, and a vertical slide block arranged on the vertical slide rail.

Further, the transverse sliding block and the vertical sliding block are driven by a cylinder, a motor or other driving devices.

Furthermore, the transverse sliding block is connected with the vertical sliding rail, and the vertical sliding block is connected with the supporting frame.

Compared with the prior art, the utility model provides a high-efficient transfer device for pad pasting shifts is through setting up one the pad pasting mould is placed the pad pasting after cutting, and leads to one drive mechanism will the pad pasting mould passes through the mould slide rail shifts to the convenience from cutting the pad pasting department move material mechanism absorption department. After the material moving mechanism adsorbs the film through the vacuum chuck, the moving mechanism moves the adsorption mechanism to move the film to a specified place. The traction mechanism and the material moving mechanism are automatically operated, so that the labor is reduced, the working efficiency is improved, the film sticking precision is improved, and the film sticking yield is effectively improved.

Drawings

Fig. 1 is a schematic view of a product structure of a high-efficiency transfer device for transferring a film.

Fig. 2 is a schematic structural view of the high-efficiency transfer device for transfer of a film of fig. 1.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

As shown in fig. 1 to fig. 2, it is a schematic structural diagram of a high-efficiency transfer device for transferring a film according to the present invention. The high-efficiency transfer device for film transfer comprises a frame 10, a traction mechanism 20 arranged on the frame, a film sticking die 30 connected with the traction mechanism 20, and a material transfer mechanism 40 arranged on the frame. It is conceivable that the efficient transfer device for transferring the film further includes other functional modules, such as an automatic control system, a power supply system, etc., which are well known to those skilled in the art and will not be described herein.

The rack 10 includes a horizontally disposed work surface 11, an equipment base 12 disposed at the center of the work surface 11, an equipment support 13 disposed on the equipment base 12, and a conductive support 14 disposed on the work surface 11. The work table 11 is located at the top of the frame 10 to facilitate the worker to take the material. The equipment base 12 is connected with the working table 11 by fasteners, so that each piece of equipment is fixed on the working table 11. The equipment support 13 is arranged at one end of the equipment base 12 to facilitate the placement of the traction mechanism 20 and the film sticking mould 30. The conductive support 14 is mounted on the work surface 11 and includes two posts 141 and a cross member 142. The cross beam 142 is located above one end of the equipment base 12, so that the fixed material moving mechanism 40 can be located right above the equipment support 13. Accordingly, the frame 10 should also include a bottom plate, a side plate, and other parts for enclosing the inside of the frame, which are not described herein.

The traction mechanism 20 includes a pull rod slide rail 21 disposed on the device base 12, and a traction pull rod 22 disposed on the pull rod slide rail 21. The pull rod slide rail 21 is arranged on the equipment base 12 and is positioned below the equipment support 13. One end of the traction pull rod 22 is arranged on the pull rod slide rail 21 and can reciprocate on the pull rod slide rail 21 under the drive of a driving device such as a cylinder or a motor; the other end of the traction rod 22 is connected with the film sticking mould 30, so that the traction rod drives the film sticking mould 30 to move when sliding on the pull rod slide rail 21, and the cut film sticking can be conveniently moved to the adsorbed position from the cutting position.

The film sticking mould 30 comprises two mould slide rails 31 arranged on one side of the equipment support 13 far away from the pull rod slide rail 21, and a mould 32 arranged on the mould slide rails 31. The arrangement direction of the two die slide rails 31 is consistent with that of the pull rod slide bar 21, and the two die slide rails 31 are arranged at intervals, so that two ends of the die 32 are respectively located on the die slide rails 31 and can freely slide. The die 32 is located on the die slide rail 31 and used for placing the cut adhesive film according to the size.

The material moving mechanism 40 includes an adsorption mechanism 41 close to the film sticking mold 30, and a moving mechanism 42 for transferring the adsorption mechanism 41. The suction mechanism 41 includes a support frame 411 disposed on the moving mechanism 42, and two vacuum chucks 412 disposed on the support frame 411. The vacuum suction cups 412 are fixed on the support frame 411 and face the film sticking mold 30, and the two vacuum suction cups 412 are located on the same plane for sucking the film on the film sticking mold 30. The moving mechanism 42 includes a horizontal sliding rail 421 located on the cross beam, a vertical sliding rail 422 disposed perpendicular to the horizontal sliding rail 421, a horizontal sliding block 423 disposed on the horizontal sliding rail 421, and a vertical sliding block 424 disposed on the vertical sliding rail 422. The transverse sliding block 423 and the vertical sliding block 424 can reciprocate on corresponding sliding rails under the driving of a cylinder or a motor or other driving devices, wherein the transverse sliding block 423 is connected with the vertical sliding rail 412, and the vertical sliding block 424 is connected with the supporting frame 411, so that the material moving mechanism 40 can move up, down, left and right, and the collected film on the film sticking die 30 can be conveniently moved.

Compared with the prior art, the utility model provides a high-efficient transfer device for pad pasting shifts is through setting up one pad pasting mould 30 places the pad pasting after cutting, and leads to one drive mechanism 20 will pad pasting mould 30 passes through mould slide rail 31 shifts to the convenience from cutting the pad pasting department move material mechanism 40 absorption department. After the material moving mechanism 40 adsorbs the film through the vacuum chuck 412, the moving mechanism 42 moves the adsorption mechanism 41 to move the film to a designated place. The traction mechanism 20 and the material moving mechanism 40 are automatically operated, so that the labor is reduced, the working efficiency is improved, the film sticking precision is improved, and the film sticking yield is effectively improved.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (9)

1. A high-efficient transfer device for pad pasting shifts which characterized in that: the efficient transfer device for pad pasting transfer comprises a frame, a traction mechanism arranged on the frame, a pad pasting mold connected with the traction mechanism, and a transfer mechanism arranged on the frame, wherein the frame comprises a workbench surface arranged horizontally, an equipment base arranged in the center of the workbench surface, an equipment support arranged on the equipment base, and a conduction support erected on the workbench surface, the traction mechanism comprises a pull rod slide rail arranged on the frame, and a traction pull rod arranged on the pull rod slide rail, one end of the traction pull rod is arranged on the pull rod slide rail and reciprocates on the pull rod slide rail, the other end of the traction pull rod is connected with the pad pasting mold, the pad pasting mold comprises two mold slide rails arranged on one side of the pull rod slide rail and two molds arranged on the mold slide rail, the arrangement directions of the mold slide rails are consistent with those of the pull rod slide rails and are arranged at intervals, the transfer mechanism comprises an adsorption mechanism close to the pad pasting mold and a moving mechanism for transferring the adsorption mechanism, the adsorption mechanism is arranged on the adsorption mechanism, and the vacuum chuck is arranged on the support frame and fixed on the vacuum chuck.

2. The efficient transfer device for transfer of a patch according to claim 1, wherein: the working table is located at the topmost part of the rack, and the equipment base is connected with the working table through a fastener.

3. The high efficiency transfer device for transfer of a patch according to claim 2, wherein: the conduction support is erected on the working table top and comprises two pillars and a cross beam, and the cross beam is located above one end of the equipment base.

4. The high efficiency transfer device for transfer of a patch according to claim 2, wherein: the pull rod slide rail is arranged on the equipment base and is positioned below the equipment support.

5. The efficient transfer device for transfer of a patch according to claim 1, wherein: the traction pull rod is driven by a cylinder, a motor or other driving devices.

6. The efficient transfer device for transfer of a patch according to claim 1, wherein: the two vacuum chucks are positioned on the same plane.

7. The high efficiency transfer device for transfer of a patch according to claim 3, wherein: the moving mechanism comprises a transverse slide rail positioned on the cross beam, a vertical slide rail perpendicular to the transverse slide rail, a transverse slide block arranged on the transverse slide rail, and a vertical slide block arranged on the vertical slide rail.

8. The efficient transfer device for transfer of a patch according to claim 7, wherein: the transverse sliding block and the vertical sliding block are driven by a cylinder, a motor or other driving devices.

9. The efficient transfer device for transfer of a patch according to claim 7, wherein: the horizontal sliding block is connected with the vertical sliding rail, and the vertical sliding block is connected with the supporting frame.

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