CN203046419U - Touch screen vacuum adhering device - Google Patents

Abstract

The embodiment of the utility model provides a touch screen vacuum adhering device. The device is simple in structure and wide in application range, and can greatly lower the probability of generation of air bubbles by means of vacuum adhering. The device provided by the embodiment of the utility model comprises an upper vacuum cavity module, a lower vacuum cavity module, a moving module, an electric module, a vacuum module and a frame. The touch screen vacuum adhering device disclosed by the embodiment of the utility model can adhere a touch screen in a vacuum environment, and thus, the probability of the generation of the air bubbles is lowered greatly, and meanwhile, the touch screen vacuum adhering device is simple in structure and wide in application range.

Description

A kind of touch-screen vacuum abutted equipment

Technical field

The utility model embodiment relates to the touch screen technology field, is specifically related to a kind of touch-screen vacuum abutted equipment.

Background technology

Touch-screen is the transparent absolute positioning system of a cover, forms by touching detection part and touch screen controller; Touch detection part and be installed in the indicator screen front, for detection of sending touch screen controller to receive touch information after the user touch location, and convert thereof into contact coordinate, give central processing unit again, can receive simultaneously the order that central processing unit sends and carried out, realize man-machine interaction.Touch-screen extensive use at present is fields such as the inquiry, Industry Control, military commanding, electronic game, multimedia teaching of public information.

Existing touch-screen can be divided into resistance-type, condenser type, infrared-type, surface acoustic wave type etc.Capacitive touch screen is compared with other touch-screen, have durability good, not fragile, advantage such as can use for a long time, simultaneously, along with the maturation of capacitive touch screen control chip technology and the decline of production cost, the application of capacitive touch screen is more and more widely.

Existing touch-screen generally comprises upper substrate and infrabasal plate, and upper substrate and infrabasal plate fit together by binding agent; Binding agent commonly used at present is the solid state optics double faced adhesive tape, when making touch-screen, the solid state optics double faced adhesive tape is placed between upper substrate and the infrabasal plate, and then upper substrate, optics double faced adhesive tape and infrabasal plate three pressed together, like this, upper substrate and infrabasal plate just can and fit together by optics double faced adhesive tape bonding.

Yet in the process of upper substrate, optics double faced adhesive tape and infrabasal plate three pressing, be easy to produce bubble between upper substrate and the infrabasal plate, these bubbles can make the medium between upper substrate and infrabasal plate change, be that misoperation in use appears in touch-screen easily, thereby have a strong impact on the stability of touch-screen.

Summary of the invention

The utility model embodiment provides a kind of touch-screen vacuum abutted equipment, and this device structure is simple, and applied range utilizes the vacuum abutted probability that bubble produces that reduced significantly.

The touch-screen vacuum abutted equipment that the utility model embodiment provides comprises:

Vacuum epicoele module, vacuum cavity of resorption module, mobile module, electrical module, vacuum module and frame;

Described vacuum epicoele module comprises vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part;

Described vacuum epicoele module upper cavity part is deformable vacuum upper cavity part;

Described vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body;

Described vacuum cavity of resorption module comprises vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part;

Described vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body;

Described vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, forms cavity body with the cavity of resorption tool;

Described mobile module is used for mobile described vacuum epicoele module;

Described electrical module is used for providing power to described equipment;

Described vacuum module is used for providing the service of vacuumizing to described equipment;

Described frame is used for supporting described equipment.

Alternatively, described vacuum epicoele comprises:

Top cover, intake interface, buckle device, pellosil, sealing ring and base plate;

Described top cover and described pellosil form cavity body;

Described intake interface is placed on the described top cover, is used for vacuumizing and importing compressed air;

Described buckle device is installed on the described base plate, is used for fastening described vacuum epicoele module and vacuum cavity of resorption module;

Described pellosil is used for pressure is being provided when described intake interface charges into compressed air in described vacuum epicoele inside modules;

Described sealing ring places on the sealing ring guide groove of base plate, is used for strengthening the sealing of described cavity;

Described base plate is provided with the sealing ring guide groove, is used with described sealing ring.

Alternatively, described top cover is poly (methyl methacrylate) plate;

Described base plate is steel plate.

Alternatively, described mobile module comprises:

Upper and lower air cylinders, Rodless cylinder and motion guide rail;

Described upper and lower air cylinders is used for described vacuum epicoele module is moved up and down;

Described Rodless cylinder is used for making described vacuum epicoele module reciprocating along described motion guide rail.

Alternatively, described equipment comprises:

The laminar flow hood unit is used for filtered air.

Alternatively, described equipment comprises:

Safe grating sends alarm when being used in object enters described equipment.

Alternatively, described equipment comprises:

Human-computer interface module is used for providing human-computer interaction interface.

Among the utility model embodiment, the touch-screen vacuum abutted equipment comprises vacuum epicoele module, vacuum cavity of resorption module, mobile module, electrical module, vacuum module and frame; Described vacuum epicoele module comprises vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part; Described vacuum epicoele module upper cavity part is deformable vacuum upper cavity part; Described vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body; Described vacuum cavity of resorption module comprises vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part; Described vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body; Described vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, and puts into tool and forms cavity body; Described mobile module is used for mobile described vacuum epicoele module; Described electrical module is used for providing power to described equipment; Described vacuum module is used for providing the service of vacuumizing to described equipment; Described frame is used for supporting described equipment.Because this equipment can allow touch-screen fit in the environment of vacuum, therefore reduced the probability that bubble produces significantly, this device structure is simple simultaneously, applied range.

Description of drawings

Fig. 1 is touch-screen vacuum abutted equipment example structure figure in the embodiment of the invention;

Fig. 2 is the vacuum epicoele module base arrangement figure of touch-screen vacuum abutted equipment in the embodiment of the invention.

The specific embodiment

The utility model embodiment provides a kind of touch-screen vacuum abutted equipment, and this device structure is simple, and applied range utilizes the vacuum abutted probability that bubble produces that reduced significantly.

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is known and detailed description obviously, described embodiment only is a part of embodiment of the present utility model, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making all other embodiment that obtain under the creative work prerequisite, all belong to the scope of the utility model protection.See also Fig. 1 and Fig. 2, the touch-screen vacuum abutted equipment comprises among the utility model embodiment:

Vacuum epicoele module 101, vacuum cavity of resorption module 102, mobile module 103, electrical module, vacuum module and frame;

Described vacuum epicoele module 101 comprises vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part;

Described vacuum epicoele module upper cavity part is deformable vacuum upper cavity part;

Described vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body;

Described vacuum cavity of resorption module 102 comprises vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part;

Described vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body;

Described vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, forms cavity body with the cavity of resorption tool;

Described mobile module 103 is used for mobile described vacuum epicoele module;

Described electrical module is used for providing power to described equipment;

Described vacuum module is used for providing the service of vacuumizing to described equipment;

Described frame is used for supporting described equipment.

Described vacuum epicoele module 101 comprises:

Top cover 1011, intake interface 1012, buckle device 1013, pellosil 1014, sealing ring 1015 and base plate 1016;

Described top cover 1011 forms cavity with described pellosil 1014;

Described intake interface 1012 is placed on the described top cover 1011, is used for vacuumizing and importing compressed air;

Described buckle device 1014 is installed on the described base plate 1016, is used for 101 of the described vacuum epicoele of fastening moulds and vacuum cavity of resorption module 102;

Described pellosil 1014 is used for pressure is being provided when described intake interface 1012 charges into compressed air in described vacuum epicoele inside modules;

Described sealing ring 1015 places on the sealing ring guide groove of base plate 1016, is used for strengthening the sealing of described cavity;

Described base plate 1016 is provided with the sealing ring guide groove, is used with described sealing ring 1015.

Described mobile module 103 comprises:

Upper and lower air cylinders 1031, Rodless cylinder 1032 and motion guide rail 1033;

Described upper and lower air cylinders 1031 is used for described vacuum epicoele module 101 is moved up and down;

Described Rodless cylinder 1032 is used for making described vacuum epicoele module 101 reciprocating along described motion guide rail 1033.

Touch-screen vacuum abutted equipment in the present embodiment may further include:

The laminar flow hood unit is used for filtered air;

Safe grating sends alarm when being used in object enters described equipment;

Human-computer interface module is used for providing human-computer interaction interface.

Alternatively, described top cover 1011 is poly (methyl methacrylate) plate;

Described base plate 1016 is steel plate.

Touch-screen vacuum abutted equipment applied range in the present embodiment, CG and SENSOR can fit, TP and LCM for ease of understanding, are described with the detailed process of TP and the LCM applying process to each the parts co-ordination of touch-screen vacuum abutted equipment in the present embodiment below:

In the present embodiment, electrical module provides power for equipment, and the user can operate equipment by the human-computer interaction interface that human-computer interface module provides.Before the full applying of carrying out touch-screen and display screen, at first display screen is placed the cavity of resorption tool, specifically can display screen be placed the cavity of resorption tool by inhaling pen.After display screen is placed the cavity of resorption tool, can carry out dyestripping operation to display screen, above-mentioned display screen is carried out the dyestripping operation can be manual dyestripping, also can be mechanical dyestripping.After display screen being carried out the dyestripping operation, touch-screen can be placed the cavity of resorption tool, specifically can touch-screen be placed the cavity of resorption tool by inhaling pen, above-mentioned cavity of resorption tool designs according to the size of touch-screen to be produced and the specification of vacuum cavity of resorption module 102, on the pore that matches with vacuum cavity of resorption module lower cavity part is arranged, can form cavity body with vacuum cavity of resorption module lower cavity part, in actual the applying, by the mode that above-mentioned cavity body is vacuumized display screen be fixed.

After touch-screen is placed the cavity of resorption tool, directly over Rodless cylinder 1032 can move to vacuum cavity of resorption module 102 along motion guide rail 1033 with vacuum epicoele module 101, then upper and lower air cylinders 1031 made vacuum epicoele module 101 press to vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part formation cavity body; Vacuum epicoele module 101 in the embodiment of the invention can comprise two parts, be respectively vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part, wherein vacuum epicoele module upper cavity part is deformable vacuum upper cavity part, and vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body; Vacuum cavity of resorption module 102 can comprise two parts, be respectively vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part, wherein vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body, vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, forms cavity body with the cavity of resorption tool.Concrete above-mentioned vacuum epicoele module 101 can comprise top cover 1011, intake interface 1012, buckle device 1014, pellosil 1014, sealing ring 1015 and base plate 1016; Wherein top cover 1011 forms cavity body with described silica gel mould 1014, that is above-mentioned vacuum epicoele module upper cavity part.

At upper and lower air cylinders 1031 vacuum epicoele module 101 is pressed to after vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body, buckle device 1013 can make 101 of above-mentioned vacuum epicoele moulds and 102 fastenings of vacuum cavity of resorption module to vacuum epicoele module 101 and vacuum cavity of resorption module 102 padlocks; 1013 pairs of vacuum epicoeles of above-mentioned buckle device module 101 and vacuum cavity of resorption module 102 padlocks are specifically as follows: vacuum epicoele module 101 and vacuum cavity of resorption module 102 have the shutoff device that matches, after vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part formation cavity body, buckle device 1013 can strengthen the sealing of above-mentioned cavity body by the mode of locking; Need to prove, the mode of the sealing of above-mentioned enhancing cavity be not limited to describe in the present embodiment to vacuum epicoele 101 padlocks, also can be the mode of exerting pressure by to vacuum epicoele module 101 and vacuum cavity of resorption module 102, do not do restriction herein.

Buckle device 1013 is finished after the operation of the padlock of vacuum epicoele module 101 and vacuum cavity of resorption module 102, and vacuum module can vacuumize cavity body.Equipment in the embodiment of the invention can form three cavity body, comprise vacuum epicoele module upper cavity part cavity body, the tool cavity body that the top and the bottom cavity body that vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form and vacuum cavity of resorption module lower cavity part and cavity of resorption tool form, at first vacuum module vacuumizes above-mentioned tool cavity body, display screen is fixed, simultaneously above-mentioned upper cavity part cavity body and top and the bottom cavity body are vacuumized then, after the vacuum values of upper cavity part cavity body and top and the bottom cavity body reaches specified vacuum values, can let out vacuum to the upper cavity part cavity body, feed the compressed air that filters through the laminar flow hood unit to epicoele cavities body by intake interface 1012 simultaneously, the silica gel mould 1014 of upper cavity part cavity body bottom is because of pressure of compressed air and to diffusion all around, produce downward pressure simultaneously, make touch-screen and display screen fit.After finishing said process, can keep the fit-state some time of touch-screen and display screen, that is postpone the default time, the concrete time that postpones can require according to the operation of streamline and the ability of equipment is set, and for example can be 3 seconds.

Postpone after the default time, can obtain the product that the applying of touch-screen and display screen finishes.Can let out vacuumizing to the tool cavity body, this moment, the vacuum suction state of product was eliminated.Finish the tool cavity body is let out after the vacuum, upper and lower air cylinders 1031 can rise vacuum epicoele module, takes out the product of having finished touch-screen and the full bonding process of display screen.

Among the utility model embodiment, the touch-screen vacuum abutted equipment comprises vacuum epicoele module, vacuum cavity of resorption module, mobile module, electrical module, vacuum module and frame; Described vacuum epicoele module comprises vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part; Described vacuum epicoele module upper cavity part is deformable vacuum upper cavity part; Described vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body; Described vacuum cavity of resorption module comprises vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part; Described vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body; Described vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, and puts into tool and forms cavity body; Described mobile module is used for mobile described vacuum epicoele module; Described electrical module is used for providing power to described equipment; Described vacuum module is used for providing the service of vacuumizing to described equipment; Described frame is used for supporting described equipment.Owing to can allow touch-screen in the environment of vacuum, fit, therefore reduced the probability that bubble produces significantly, this device structure is simple simultaneously, applied range.

More than a kind of touch-screen vacuum abutted equipment provided by the utility model is described in detail, for one of ordinary skill in the art, thought according to the utility model embodiment, part in specific embodiments and applications all can change, in sum, this description should not be construed as restriction of the present utility model.

Claims (7)

1. a touch-screen vacuum abutted equipment is characterized in that, comprising:

Vacuum epicoele module, vacuum cavity of resorption module, mobile module, electrical module, vacuum module and frame;

Described vacuum epicoele module comprises vacuum epicoele module upper cavity part and vacuum epicoele module lower cavity part;

Described vacuum epicoele module upper cavity part is deformable vacuum upper cavity part;

Described vacuum epicoele module lower cavity part and vacuum cavity of resorption module upper cavity part form cavity body;

Described vacuum cavity of resorption module comprises vacuum cavity of resorption module upper cavity part and vacuum cavity of resorption module lower cavity part;

Described vacuum cavity of resorption module upper cavity part and described vacuum epicoele module lower cavity part form cavity body;

Described vacuum cavity of resorption module lower cavity part is the independent vacuum chamber, forms cavity body with the cavity of resorption tool;

Described mobile module is used for mobile described vacuum epicoele module;

Described electrical module is used for providing power to described equipment;

Described vacuum module is used for providing the service of vacuumizing to described equipment;

Described frame is used for supporting described equipment.

2. touch-screen vacuum abutted equipment according to claim 1 is characterized in that, described vacuum epicoele module comprises:

Top cover, intake interface, buckle device, pellosil, sealing ring and base plate;

Described top cover and described pellosil form cavity body;

Described intake interface is placed on the described top cover, is used for vacuumizing and importing compressed air;

Described buckle device is installed on the described base plate, is used for fastening described vacuum epicoele module and vacuum cavity of resorption module;

Described pellosil is used for pressure is being provided when described intake interface charges into compressed air in described vacuum epicoele inside modules;

Described sealing ring places on the sealing ring guide groove of base plate, is used for strengthening the sealing of described cavity;

Described base plate is provided with the sealing ring guide groove, is used with described sealing ring.

3. touch-screen vacuum abutted equipment according to claim 2 is characterized in that, described top cover is poly (methyl methacrylate) plate;

Described base plate is steel plate.

4. touch-screen vacuum abutted equipment according to claim 1 is characterized in that, described mobile module comprises:

Upper and lower air cylinders, Rodless cylinder and motion guide rail;

Described upper and lower air cylinders is used for described vacuum epicoele module is moved up and down;

Described Rodless cylinder is used for making described vacuum epicoele module reciprocating along described motion guide rail.

5. according to each described touch-screen vacuum abutted equipment in the claim 1 to 4, it is characterized in that described equipment comprises:

The laminar flow hood unit is used for filtered air.

6. according to each described touch-screen vacuum abutted equipment in the claim 1 to 4, it is characterized in that described equipment comprises:

Safe grating sends alarm when being used in object enters described equipment.

7. according to each described touch-screen vacuum abutted equipment in the claim 1 to 4, it is characterized in that described equipment comprises:

Human-computer interface module is used for providing human-computer interaction interface.

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