CN220641644U - Full-automatic laminating device is used in production of capacitive touch screen - Google Patents

Abstract

The utility model relates to the technical field of capacitive touch screen production, and discloses a full-automatic laminating device for capacitive touch screen production, which comprises a base, a laminating mechanism and a dust collection mechanism; the laminating mechanism comprises a bracket, a screw rod, a motor, a moving plate, a hydraulic rod, a main plate, a vacuum chuck, a conveying belt body, a clamp, a positioning rod, a limiting rod and a miniature vacuum pump. This full-automatic laminating device is used in capacitive touch screen production drives the lead screw through the motor and is driving movable plate, hydraulic stem and mainboard and vacuum chuck and controlling and remove, and the hydraulic stem drives mainboard and vacuum chuck downwardly moving, and vacuum chuck adsorbs capacitive touch screen, and the hydraulic stem withdraws, and the movable plate is to the conveyer belt body top, and the conveyer belt body drives anchor clamps inner and outer shell and removes, and the hydraulic stem drives capacitive touch screen downwardly moving, laminates capacitive touch screen in the shell top, reaches and can carry out continuous processing laminating to capacitive touch screen, improves production efficiency's effect.

Description

Full-automatic laminating device is used in production of capacitive touch screen

Technical Field

The utility model relates to the technical field of capacitive touch screen production, in particular to a full-automatic laminating device for capacitive touch screen production.

Background

Capacitive touch screen technology works by using the current induction of the human body. The capacitive touch screen is a four-layer composite glass screen, the inner surface of the glass screen and the interlayer are respectively coated with a layer of ITO, the outermost layer is a thin-layer silica glass protective layer, the interlayer ITO coating is used as a working surface, four electrodes are led out from four corners, and the inner layer ITO is used as a shielding layer to ensure a good working environment. When a finger touches the metal layer, a coupling capacitance is formed between the user and the touch screen surface due to the human body electric field, and the capacitance is a direct conductor for high-frequency current, so that the finger draws a small current from the contact point. The current flows from the electrodes at the four corners of the touch screen respectively, and the current flowing through the four electrodes is proportional to the distance from the finger to the four corners, and the controller obtains the position of the touch point through accurate calculation of the ratio of the four currents. The capacitive touch screen is required to be attached in the production of the capacitive touch screen;

according to the full-automatic laminating device for capacitive touch screen production disclosed in Chinese patent publication No. CN215512745U, through a base, a top seat and a laminating frame, the middle parts of two sides of the periphery of the base are fixedly connected with mounting seats through bolts; according to the utility model, the bonding process can be effectively implemented on the capacitive touch screen by means of the bonding plates arranged between the adjacent surfaces of the top seat and the base, and meanwhile, the mounting seat on the periphery of the base is connected and positioned by the electric hydraulic push rod by means of the connecting seat on the periphery of the top seat, so that the bonding degree between the two bonding plates can be effectively adjusted when the two electric hydraulic push rods are synchronously driven, and simultaneously, the positions of the bonding plates on the bonding frame are adjusted by matching with the synchronously rotating screw rods, thereby effectively meeting the bonding requirements of the capacitive touch screens with different sizes, further improving the bonding assembly flexibility of each capacitive touch screen and meeting the bonding processing requirements of the capacitive touch screens with various sizes;

however, the device has the problems that continuous processing cannot be performed on the capacitive touch screen and the production efficiency is low.

Disclosure of Invention

The utility model aims to provide a full-automatic laminating device for capacitive touch screen production, which aims to solve the problems in the background technology.

In order to solve the technical problems, the utility model provides the following technical scheme: the full-automatic laminating device for capacitive touch screen production comprises a base, wherein a laminating mechanism is fixedly connected above the base, and a dust collection mechanism is arranged on the right side of the laminating mechanism;

the laminating mechanism comprises a support, inner wall rotation is connected with the lead screw about the support, lead screw right side fixedly connected with motor, lead screw surface threaded connection has the movable plate, movable plate below fixedly connected with hydraulic pressure pole, hydraulic pressure pole below fixedly connected with mainboard, mainboard below fixedly connected with vacuum chuck, the support below is provided with the conveyer belt body, conveyer belt body surface fixedly connected with anchor clamps, anchor clamps top fixedly connected with locating lever, conveyer belt body left side is provided with the gag lever post, vacuum chuck below is connected with miniature vacuum pump.

Preferably, the left side of base top fixedly connected with gag lever post, the fixed transmission band body in base top right side, base top fixed connection support below.

Preferably, the motor is connected to the right side of the bracket through screws, and the micro vacuum pump is fixedly connected above the base.

Preferably, the limiting hole is formed in the upper portion of the main board, and the positioning rod and the limiting rod are mutually matched with the limiting hole formed in the upper portion of the main board.

Preferably, the dust collection mechanism comprises a fan, a dust collection pipe is fixedly connected to the left side of the fan, a filter plate is fixedly connected to the inner wall of the dust collection pipe, and a branch pipe is fixedly connected to the left side of the dust collection pipe.

Preferably, the fan is fixedly connected to the left side of the bracket, and the inner wall of the left side of the bracket is fixedly connected with the dust collection pipe.

Preferably, a plurality of groups of dust collection holes are formed in the left side of the branch pipe, and the plurality of groups of dust collection holes formed in the left side of the branch pipe are formed in the right side of the conveying belt body.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the base is used for placing the device, the attaching mechanism is fixed through the support, the capacitive touch screen is placed in the limiting rod, then the motor drives the screw rod to rotate, the screw rod rotates to drive the movable plate to move left and right, then the movable plate drives the hydraulic rod, the main board and the vacuum chuck to move left and right, the movable plate reaches the upper part of the capacitive touch screen, then the hydraulic rod drives the main board and the vacuum chuck to move downwards, the micro vacuum pump works to enable the vacuum chuck to absorb the capacitive touch screen, the limiting hole formed in the upper part of the main board is penetrated by the limiting rod to prevent the capacitive touch screen from shifting, then the hydraulic rod is retracted, then the movable plate moves to the upper part of the conveying belt body, the clamp is driven to rotate through the conveying belt body, the clamp is fastened in the clamp through the shell, then the hydraulic rod drives the capacitive touch screen to move downwards, the capacitive touch screen is attached to the upper part of the shell, the capacitive touch screen is positioned through the limiting hole formed in the upper part of the main board by the positioning rod, the capacitive touch screen is prevented from shifting, and then the capacitive touch screen is attached, so that the capacitive touch screen can be continuously processed and attached, and the effect of improving the production efficiency is achieved.

Secondly, the dust collection pipe is driven by the fan, then the branch pipe is driven, the dust in the shell positioned in the clamp on the surface of the conveying belt body is adsorbed by the plurality of groups of dust collection holes formed in the left side of the branch pipe and the right side of the conveying belt body, and then the filter plate fixedly connected with the inner wall of the dust collection pipe is used for filtering, so that the effect of preventing the dust in the shell from affecting the attaching quality is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a partial perspective structure of a bonding mechanism according to the present utility model;

FIG. 3 is a schematic view of the overall planing surface structure of the present utility model;

fig. 4 is a schematic view of the overall side planing surface structure of the present utility model.

Wherein: 1. a base; 2. a bonding mechanism; 21. a bracket; 22. a screw rod; 23. a motor; 24. a moving plate; 25. a hydraulic rod; 26. a main board; 27. a vacuum chuck; 28. a conveyor belt body; 29. a clamp; 210. a positioning rod; 211. a limit rod; 212. a micro vacuum pump; 3. a dust collection mechanism; 31. a blower; 32. a dust collection pipe; 33. a filter plate; 34. and (5) separating pipes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides the following technical scheme:

example 1

Referring to fig. 1-4, a full-automatic laminating device for capacitive touch screen production comprises a base 1, wherein a laminating mechanism 2 is fixedly connected above the base 1, and a dust collection mechanism 3 is arranged on the right side of the laminating mechanism 2;

laminating mechanism 2 includes support 21, and inner wall rotation is connected with lead screw 22 about the support 21, and lead screw 22 right side fixedly connected with motor 23, lead screw 22 surface threaded connection has movable plate 24, and movable plate 24 below fixedly connected with hydraulic rod 25, hydraulic rod 25 below fixedly connected with mainboard 26, mainboard 26 below fixedly connected with vacuum chuck 27, support 21 below is provided with conveyer belt body 28, conveyer belt body 28 surface fixedly connected with anchor clamps 29, anchor clamps 29 top fixedly connected with locating lever 210, conveyer belt body 28 left side is provided with gag lever post 211, and vacuum chuck 27 below is connected with miniature vacuum pump 212.

Specifically, a limit rod 211 is fixedly connected to the left side above the base 1, a conveying belt body 28 is fixedly connected to the right side above the base 1, and the lower part of the connecting support 21 is fixedly connected to the upper side above the base 1.

Specifically, the motor 23 is screwed to the right side of the bracket 21, and the micro vacuum pump 212 is fixedly connected to the upper part of the base 1.

Specifically, a limiting hole is formed above the main board 26, and the positioning rod 210 and the limiting rod 211 are mutually matched with the limiting hole formed above the main board 26.

Through the above technical scheme, this motor 23 and the inside prior art that is of hydraulic pressure pole 25, this micro vacuum pump 212 is inside, through placing the device with base 1, fix laminating mechanism 2 through support 21, capacitive touch screen places inside gag lever post 211, then drive lead screw 22 through motor 23 and rotate, lead screw 22 rotates and drives movable plate 24 and move about, then movable plate 24 drives hydraulic stem 25 and mainboard 26 and vacuum chuck 27 and moves about, then be connected with micro vacuum pump 212 through vacuum chuck 27, this gas circuit is connected for prior art, reach capacitive touch screen top through movable plate 24, then hydraulic stem 25 drives mainboard 26 and vacuum chuck 27 and moves down, micro vacuum pump 212 work makes vacuum chuck 27 adsorb capacitive touch screen, through the spacing hole that gag lever post 211 alternates in mainboard 26 top and prevent capacitive touch screen skew, then withdraw hydraulic stem 25, then movable plate 24 moves to the transmission band body 28 top, this transmission band body 28 is prior art, drive anchor clamps 29 through transmission band body 28 and rotate about, then be connected with micro vacuum chuck 212 through the shell block 29, then drive the capacitive touch screen is carried out to the capacitive touch screen in the inside anchor clamps 29, then the capacitive touch screen is driven down in the mode of electric pressure stem 25, the laminating effect is realized in order to position the touch screen, then the capacitive touch screen is processed, the effect is realized in the laminating of the side of the touch screen, the touch screen is realized in the mode.

Example two

Referring to fig. 1-4, and based on the first embodiment, further obtain: the dust collection mechanism 3 comprises a fan 31, a dust collection pipe 32 is fixedly connected to the left side of the fan 31, a filter plate 33 is fixedly connected to the inner wall of the dust collection pipe 32, and a branch pipe 34 is fixedly connected to the left side of the dust collection pipe 32.

Specifically, the fan 31 is fixedly connected to the left side of the bracket 21, and the inner wall of the left side of the bracket 21 is fixedly connected to the dust suction pipe 32.

Specifically, a plurality of groups of dust collection holes are formed in the left side of the branch pipe 34, and a plurality of groups of dust collection holes formed in the left side of the branch pipe 34 are formed in the right side of the conveying belt body 28.

Through the above technical scheme, this fan 31 is prior art, drives dust absorption pipe 32 through fan 31, then drives the branch pipe 34, through the multiunit dust absorption hole that sets up branch pipe 34 left side, then the multiunit dust absorption hole that sets up in branch pipe 34 left side is located the right side of conveyer belt body 28, adsorbs the dust that will be located in the inside shell of conveyer belt body 28 surface clamp 29, then filters through dust absorption pipe 32 inner wall fixed connection's filter 33, reaches and prevents that the inside dust that carries out of shell, influences the effect of laminating quality.

Although particular embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit thereof, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a full-automatic laminating device is used in production of capacitive touch screen, includes base (1), its characterized in that: a laminating mechanism (2) is fixedly connected above the base (1), and a dust collection mechanism (3) is arranged on the right side of the laminating mechanism (2);

laminating mechanism (2) are including support (21), inner wall rotation is connected with lead screw (22) about support (21), lead screw (22) right side fixedly connected with motor (23), lead screw (22) surface threaded connection has movable plate (24), movable plate (24) below fixedly connected with hydraulic rod (25), hydraulic rod (25) below fixedly connected with mainboard (26), mainboard (26) below fixedly connected with vacuum chuck (27), support (21) below is provided with transmission band body (28), transmission band body (28) surface fixedly connected with anchor clamps (29), anchor clamps (29) top fixedly connected with locating lever (210), transmission band body (28) left side is provided with gag lever post (211), vacuum chuck (27) below is connected with miniature vacuum pump (212).

2. The full-automatic laminating device for capacitive touch screen production according to claim 1, wherein: the left side of base (1) top fixedly connected with gag lever post (211), base (1) top right side fixed transmission band body (28), base (1) top fixed connection support (21) below.

3. The full-automatic laminating device for capacitive touch screen production according to claim 1, wherein: the motor (23) is connected to the right side of the bracket (21) through screws, and the micro vacuum pump (212) is fixedly connected above the base (1).

4. The full-automatic laminating device for capacitive touch screen production according to claim 1, wherein: limiting holes are formed in the upper portion of the main board (26), and the locating rods (210) and the limiting rods (211) are mutually matched with the limiting holes formed in the upper portion of the main board (26).

5. The full-automatic laminating device for capacitive touch screen production according to claim 1, wherein: the dust collection mechanism (3) comprises a fan (31), a dust collection pipe (32) is fixedly connected to the left side of the fan (31), a filter plate (33) is fixedly connected to the inner wall of the dust collection pipe (32), and a branch pipe (34) is fixedly connected to the left side of the dust collection pipe (32).

6. The full-automatic laminating device for capacitive touch screen production according to claim 5, wherein: the fan (31) is fixedly connected to the left side of the bracket (21), and the inner wall of the left side of the bracket (21) is fixedly connected with the dust collection pipe (32).

7. The full-automatic laminating device for capacitive touch screen production according to claim 5, wherein: a plurality of groups of dust collection holes are formed in the left side of the branch pipe (34), and a plurality of groups of dust collection holes formed in the left side of the branch pipe (34) are formed in the right side of the conveying belt body (28).