CN216914869U - A equipment for attached shading mylar - Google Patents

Abstract

The utility model discloses a device for attaching shading mylar, which comprises: base, tool, actuating mechanism and attached mechanism all set up on the base, be formed with a plurality of storage tanks that are used for placing the product on the tool, actuating mechanism includes a plurality of adsorption and positioning piece, adsorption and positioning piece corresponds the storage tank sets up, form an adsorption plane on the adsorption and positioning piece, the adsorption plane is close to the storage tank sets up, be formed with a plurality of suction holes on the adsorption plane, actuating mechanism with attached mechanism links to each other, actuating mechanism is used for the drive adsorption and positioning piece motion. According to the utility model, by adopting the equipment attachment mode, the attachment efficiency is greatly improved, the attachment effect can be improved, and the improvement of the yield and the reduction of the cost are facilitated.

Description

A equipment for attached shading mylar

Technical Field

The utility model relates to the technical field of display modules, in particular to a device for attaching shading mylar.

Background

When the shading mylar of prior art to the attached side of display module, generally all adopt the manual mode of attaching of workman, this kind of attached mode is not only inefficiency, and attached degree of accuracy and effect are also not good moreover, and the cost is also than higher.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a device for attaching a shading mylar.

The technical scheme of the utility model is as follows: an apparatus for affixing a light-blocking mylar, comprising: base, tool, actuating mechanism and attached mechanism all set up on the base, be formed with a plurality of storage tanks that are used for placing the product on the tool, actuating mechanism includes a plurality of adsorption and positioning piece, adsorption and positioning piece corresponds the storage tank sets up, form an adsorption plane on the adsorption and positioning piece, the adsorption plane is close to the storage tank sets up, be formed with a plurality of suction holes on the adsorption plane, actuating mechanism with attached mechanism links to each other, actuating mechanism is used for the drive adsorption and positioning piece motion.

Further, the attaching mechanism further comprises: the rotary positioning device comprises a connecting block and a pressing block fixing plate, wherein the connecting block is connected with the driving mechanism, the pressing block fixing plate is fixed to the connecting block, the adsorption positioning block is fixed to the pressing block fixing plate, a plurality of sliding rails are formed on the base, and the pressing block fixing plate is arranged on the sliding rails through sliding blocks.

Further, the driving mechanism is a pneumatic driving device.

Further, the equipment also comprises a buffering limiting device, and the buffering limiting device is arranged at the accommodating groove.

Further, buffering stop device includes: stopper and spring shim.

Furthermore, the buffering and limiting device is arranged on the bottom surface of the base, a through hole is formed in the accommodating groove, and the limiting block extends out of the through hole.

Further, the equipment also comprises a plurality of buffer mechanisms, the buffer mechanisms are arranged on the base, and the buffer mechanisms are used for playing a buffer role when the adsorption positioning blocks move towards the accommodating groove.

Further, the driving mechanism is arranged on the bottom surface of the base.

Further, the number of storage tanks is 2, and the number of adsorption positioning blocks is 2.

Furthermore, a plurality of first positioning holes are formed on the adsorption positioning surface, and a plurality of second positioning holes are formed on the shading mylar corresponding to the first positioning holes.

By adopting the scheme, the utility model has the beneficial effects that: the mode that adopts equipment to be attached has greatly promoted attached efficiency, also can promote attached effect, helps promoting yields and reduce cost.

Drawings

Fig. 1 is a first structural diagram of an apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a device according to an embodiment of the present invention.

Fig. 4 is a fourth schematic structural diagram of an apparatus according to an embodiment of the present invention.

Detailed Description

The utility model is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 4, in the present embodiment, the present invention provides an apparatus for attaching a light-shielding mylar 5, including: base 1, tool 2, actuating mechanism 3 and attached mechanism 4 all set up on the base 1, be formed with a plurality of storage tanks 24 that are used for placing the product on the tool 2, actuating mechanism 3 includes a plurality of adsorption positioning piece 41, adsorption positioning piece 41 corresponds storage tank 24 sets up, form an adsorption plane on the adsorption positioning piece 41, the adsorption plane is close to storage tank 24 sets up, be formed with a plurality of suction holes 411 on the adsorption plane, actuating mechanism 3 with attached mechanism 4 links to each other, actuating mechanism 3 is used for the drive adsorption positioning piece 41 moves.

Further, the attaching mechanism 2 further includes: connecting block 43 and briquetting fixed plate 42, connecting block 43 with actuating mechanism 3 links to each other, briquetting fixed plate 42 with connecting block 43 is fixed mutually, adsorption positioning piece 41 is fixed on briquetting fixed plate 42, be formed with a plurality of slide rails 45 on the base 1, briquetting fixed plate 42 passes through slider 44 and sets up on the slide rail 45. In this embodiment, the driving mechanism 3 drives the adsorption positioning block 41 to reciprocate along the slide rail 45, so as to attach the light-shielding mylar 5 to the module.

Further, the driving mechanism 3 is a pneumatic driving device.

Further, the equipment also comprises a buffering limiting device 6, wherein the buffering limiting device 6 is arranged at the accommodating groove 24.

Further, the buffering and limiting device 6 comprises: stopper 61 and spring shim, stopper 61 is located on guide pin 62, guide pin 62 is fixed on guide pin fixed block 63, the spring shim is located stopper 61 with between the guide pin fixed block 63, work as when adsorbing 41 work of locating piece touches the extrusion module, stopper 61 is used for playing spacing and buffering effect to the module.

Preferably, the buffering and limiting device 6 is arranged on the bottom surface of the base 1, the accommodating groove 24 is provided with a through hole 22, and the limiting block 61 extends out of the through hole 22. Adopt and locate buffering stop device 6 the mode of 1 bottom surface of base can be saved the space of top surface on 1 base helps equipment to reduce the volume, and in the same way, in this scheme, actuating mechanism 3 also locates the bottom surface of 1 base.

Further, the equipment further comprises a plurality of buffer mechanisms 7, the buffer mechanisms 7 are arranged on the bottom surface of the base 1, each buffer mechanism 7 comprises a buffer fixing plate 72 and a buffer 71 fixed on the buffer fixing plate 72, and the buffer mechanisms 7 are used for playing a buffering role when the adsorption positioning block 41 moves towards the accommodating groove 24.

Further, the quantity of storage tank 24 is 2, the quantity of adsorption positioning piece 41 is 2, can be attached to two modules simultaneously, greatly promotes attached efficiency.

Furthermore, a plurality of first positioning holes 412 are formed on the adsorption positioning surface, and a plurality of second positioning holes 51 are formed on the shading mylar 5 corresponding to the first positioning holes 412, so that the shading mylar 5 can be conveniently aligned when being loaded.

Furthermore, the openings 21 are formed in the two sides of the accommodating groove 24, so that the module can be taken conveniently, and the air holes 23 are formed in the bottom of the accommodating groove 24 and can be adsorbed on the accommodating groove 24 when the module is placed on the accommodating groove 24.

With reference to fig. 1 and 4, in the present solution, during operation, a module is placed in the accommodating groove 24, the light-shielding mylar 5 is loaded to the adsorption surface, the driving mechanism 3 operates to drive the adsorption positioning block 41 to move toward the module, the light-shielding mylar 5 is attached to the module, and then when the driving mechanism 3 drives the adsorption positioning block 41 to operate as the module, the adsorption positioning block 41 can separate the release film on the light-shielding mylar 5 from the light-shielding mylar 5, thereby completing one-step attachment. This scheme adopts the attached mode of equipment, has greatly promoted attached efficiency, also can promote attached effect, helps promoting yields and reduce cost.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An apparatus for attaching a light-shielding mylar, comprising: base, tool, actuating mechanism and attached mechanism all set up on the base, be formed with a plurality of storage tanks that are used for placing the product on the tool, actuating mechanism includes a plurality of adsorption and positioning piece, adsorption and positioning piece corresponds the storage tank sets up, form an adsorption plane on the adsorption and positioning piece, the adsorption plane is close to the storage tank sets up, be formed with a plurality of suction holes on the adsorption plane, actuating mechanism with attached mechanism links to each other, actuating mechanism is used for the drive adsorption and positioning piece motion.

2. The apparatus for affixing a shade mylar of claim 1, wherein the affixing mechanism further comprises: the rotary positioning device comprises a connecting block and a pressing block fixing plate, wherein the connecting block is connected with the driving mechanism, the pressing block fixing plate is fixed to the connecting block, the adsorption positioning block is fixed to the pressing block fixing plate, a plurality of sliding rails are formed on the base, and the pressing block fixing plate is arranged on the sliding rails through sliding blocks.

3. The apparatus for applying a shade mylar as defined by claim 1, wherein the drive mechanism is a pneumatic drive.

4. The apparatus for attaching a shade mylar as defined in claim 1, further comprising a buffer stop means disposed at the receiving slot.

5. The apparatus of claim 4, wherein the buffer stop comprises: stopper and spring shim.

6. The apparatus of claim 5, wherein the buffer stop device is disposed on a bottom surface of the base, the receiving groove is provided with a through hole, and the stop block extends from the through hole.

7. The apparatus for attaching a shading mylar as claimed in claim 1, further comprising a plurality of buffer mechanisms, wherein the buffer mechanisms are disposed on the base, and the buffer mechanisms are configured to buffer the adsorptive positioning block when the adsorptive positioning block moves toward the accommodating groove.

8. The apparatus of any one of claims 1-7, wherein the drive mechanism is disposed on a bottom surface of the base.

9. The apparatus of any one of claims 1 to 7, wherein the number of the receiving grooves is 2, and the number of the adsorption positioning blocks is 2.

10. The apparatus of any one of claims 1 to 7, wherein a plurality of first positioning holes are formed on the absorption positioning surface, and a plurality of second positioning holes are formed on the light-shielding mylar corresponding to the first positioning holes.

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