CN210294732U - Liquid crystal glue filling full-laminating device for negative-pressure capillary tube - Google Patents

Abstract

The utility model relates to a liquid crystal encapsulating device of laminating entirely for negative pressure capillary, including the touch-sensitive screen part by the laminating. Because the input end of the touch screen component is provided with the glue filling structure. The output end of the touch screen component is provided with a glue pumping structure and a capillary tube. During the laminating, earlier through encapsulating structure with the LOCA optical cement pour into inside the inside LOCA optical cement that forms of touch-sensitive screen part fill the cavity inside, take out the glued structure again and fill the inside gas of cavity or LOCA optical cement under the drive effect of negative pressure condition with the LOCA optical cement, make the LOCA optical cement flow in the inside assigned position of touch-sensitive screen part, the size because of the touch-sensitive screen among the prior art has been avoided, the restriction of structure leads to producing the excessive phenomenon of gluing, the emergence of the inhomogeneous phenomenon of insufficient glue phenomenon and viscose thickness, thereby reach not only can not receive the size of touch-sensitive screen, the restriction of structure, and can also solve the excessive glue, the inhomogeneous phenomenon of insufficient glue and viscose thickness takes place.

Description

Liquid crystal glue filling full-laminating device for negative-pressure capillary tube

[ technical field ] A method for producing a semiconductor device

The utility model relates to a liquid crystal encapsulating device for negative pressure capillary for in aspect of screen packaging technology.

[ background of the invention ]

With the continuous development and progress of the society and the continuous development of computer and multimedia application technologies, the touch screen is widely used as a transparent medium attached to the surface of a display, and has the advantages of easy use, firmness, durability, rapid response, space saving and the like, so that the touch screen is widely used in media tools such as computers or mobile phones and the like. By utilizing the touch screen technology, the operation of media such as a computer or a mobile phone can be realized by touching the interface in the display screen with fingers, so that the input and application programs are greatly simplified, and the zero-distance interactive operation is really realized. However, most touch screens on existing devices are configured by using liquid crystal touch screens. The liquid crystal touch screen adopts an OCA full-lamination adhesive mode which is mainly used for gluing adhesives of transparent optical elements. The liquid crystal screen comprises an LCD screen arranged below and a touch screen arranged on the LCD screen. And gully-shaped capillary tubes are formed around the LCD screen and the touch screen. Because the flowing performance of the viscose in the OCA full-gluing mode is poor, the bonding glue is difficult to fill in a capillary in a gully shape formed by the LCD screen and the touch screen, and bubbles are easy to generate in the capillary. And because the bonding performance of the bonding colloid is not strong, the risk of bounce is generated between the LCD liquid crystal screen and the touch screen inside the bonded touch screen. In addition, OCA full laminating glue mode is to the full subsides of large-size for production efficiency is low, and the cost of labor is high. In order to solve the above-mentioned existing technical problems, a conventional LOAC full-lamination liquid optically clear adhesive has appeared later, which mainly uses a special adhesive for adhering a transparent optical element. The liquid optical transparent adhesive is colorless and transparent, has the light transmittance of more than 98 percent and good bonding strength, can be cured at normal temperature or medium temperature, and has the characteristics of small curing shrinkage rate, yellowing resistance and the like. The liquid optical transparent adhesive is mainly suitable for laminating a large-size touch screen. But the following defects exist in the touch screen which is attached to the curved surface or the complex structure of the touch screen, the touch screen part with higher ink thickness and the touch screen with the attached uneven surface: 1. the LOCA optical cement in the local area is too much, and the LOCA optical cement overflows out of the bonding area and even permeates into the sheet of the backlight source, so that spot-shaped stains are caused on the display picture of the liquid crystal screen, namely the glue overflow phenomenon. 2. The LOCA optical cement is not filled enough, the whole binding surface is not completely covered, and a cavity with air exists in the part of the touch screen which is not changed, and the cavity can enter a display area, so that local picture color abnormity can be caused, namely the phenomenon of glue shortage is avoided. 3. The procedure of the laminating process is relatively complex, the processes of figure dispensing, pre-curing and curing are required, the product needs to be transported to different stations for three times or four times, the labor cost of production is high, and the operation procedure is relatively complex. 4. When the adhesive is dispensed, bubbles are easy to generate in the leveling process, namely the bubble generation phenomenon is generated. 5. In the process of easily generating leveling, the thickness of the leveled glue per unit area is different, namely the glue thickness is not uniform.

[ Utility model ] content

In view of this, the utility model aims to solve the technical problem that a liquid crystal encapsulating full laminating device for negative pressure capillary that not only can not receive the size of touch-sensitive screen, the restriction of structure, but also can solve overflow glue, the phenomenon that starves and viscose thickness is inhomogeneous takes place is provided.

Therefore, the technical problem is solved, the utility model provides a technical scheme provides a liquid crystal encapsulating full laminating device for negative pressure capillary, and it includes the touch-sensitive screen part by the laminating, touch-sensitive screen part input department is provided with and is used for liquid transparent adhesive to pour into the inside encapsulating structure of touch-sensitive screen part into, touch-sensitive screen part output department be provided with and be used for extracting the inside glue pumping structure of touch-sensitive screen part to and be used for with the encapsulating structure with glue pumping structural connection's capillary together.

Further inject, the encapsulating structure is including storing the optical cement storage cylinder of LOCA optical cement, connecting in the first transparent hose of optical cement storage cylinder below, set up the choke valve on first transparent hose, the input capillary of being connected with first transparent hose output to and set up in touch-sensitive screen part outlying be used for the preliminary frame of touch-sensitive screen part to paste the tool entirely.

Further, the glue pumping structure comprises an output end capillary at the output end of the touch screen component, a second transparent hose connected with the output end capillary, a vacuum pump connected to the other end of the second transparent hose, and a UV (ultraviolet) machine connected with the other end of the vacuum pump and used for curing the LCOUV curing film in the touch screen component and the LOCA optical cement together.

Further limit, the touch screen component comprises an LCD liquid crystal screen arranged on the full-pasting jig and a touch screen pasted on the LCD liquid crystal screen.

Further limiting, a LOCA optical cement filled cavity connected with the input end capillary and the output end capillary is formed at the intersection between the upper surface of the LCD screen and the lower surface of the touch screen.

The utility model has the advantages of: because the input end of the touch screen component is provided with a glue filling structure for filling liquid transparent glue into the interior of the touch screen component, the output end of the touch screen component is provided with a glue drawing structure for drawing the interior of the touch screen component, and a capillary tube for connecting the glue filling structure with the glue drawing structure. During the laminating, earlier through encapsulating structure with the LOCA optical cement pour into inside the inside LOCA optical cement that forms of touch-sensitive screen part fill the cavity inside, take out the glued structure again and fill the inside gas of cavity or LOCA optical cement under the drive effect of negative pressure condition with the LOCA optical cement, make the LOCA optical cement flow in the inside assigned position of touch-sensitive screen part, the size because of the touch-sensitive screen among the prior art has been avoided, the restriction of structure leads to producing the excessive phenomenon of gluing, the emergence of the inhomogeneous phenomenon of insufficient glue phenomenon and viscose thickness, thereby reach not only can not receive the size of touch-sensitive screen, the restriction of structure, and can also solve the excessive glue, the inhomogeneous phenomenon of insufficient glue and viscose thickness takes place.

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and embodiments.

[ description of the drawings ]

Fig. 1 is a schematic structural view of a liquid crystal glue filling full-lamination device for a negative pressure capillary of the present invention;

[ detailed description ] embodiments

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention clearer and more obvious, the following description of the present invention with reference to the accompanying drawings and embodiments is provided for further details. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1, a liquid crystal glue filling full-lamination device for a negative pressure capillary is described below with reference to an embodiment, which includes a touch screen component to be laminated, a glue filling structure disposed at an input end of the touch screen component, a glue drawing structure disposed at an output end of the touch screen component, and a capillary for connecting the glue filling structure and the glue drawing structure together.

The encapsulating structure is including storing the optical cement storage cylinder 1 of LOCA optical cement, connecting in optical cement storage cylinder 1 below first transparent flexible pipe 2, set up choke valve 3 on first transparent flexible pipe 2, with the input capillary 4 that 2 output of first transparent flexible pipe are connected to and set up in touch-sensitive screen part outlying be used for the preliminary frame of touch-sensitive screen part to paste the tool entirely.

The glue pumping structure comprises an output end capillary 5 at the output end of the touch screen component, a second transparent hose 6 connected with the output end capillary 5, a vacuum pump 7 connected to the other end of the second transparent hose 6, and a UV machine connected with the other end of the vacuum pump 7 and used for curing an LCOUV curing film inside the touch screen component and LOCA optical cement together.

The touch screen component comprises an LCD (liquid crystal display) screen 8 arranged on the full-pasting jig and a touch screen 9 pasted on the LCD screen 8. And a LOCA optical cement filled cavity 10 connected with the input end capillary 4 and the output end capillary 5 is formed at the intersection between the upper surface of the LCD 8 and the lower surface of the touch screen 9.

The throttle valve 3 is mainly used for controlling LOCA optical cement to enter a LOCA optical cement filling cavity 10 between the touch screen 8 and the LCD 9. The capillary tube is used for vacuum extraction and LOCA optical cement conveying functions. The LOCA optical cement is used for full lamination of the touch screen 8 and the LCD 9. The ICOUV curing film is used for sealing the LCD liquid crystal screen 9 and adhering the LCD liquid crystal screen 9 and the touch screen 8. The vacuum pump 7 is used for pumping air in the cavity after the LCD 9 and the touch screen frame are attached. The UV machine is used for curing the LCOUV curing film and the LOCA optical cement. The full-pasting jig is used for primarily pasting the touch screen 8 and the LCD 9. The transparent hose is used for connecting and communicating all parts, and comprises a first transparent hose 2 and a second transparent hose 6.

During operation, the LOCA optical cement enters the LOCA optical cement filling cavity 10 formed in the touch screen 8 and the LCD 9 through the first capillary tube 4 from the bottom end of the optical cement storage cylinder 1, the second transparent hose 2 and the throttle valve 3. At the output end of touch-sensitive screen 8 and LCD 9, under the effect of vacuum pump 7, order about the inside negative pressure state of LOCA optical cement filling cavity 10, take out the inside gas of LOCA optical cement filling cavity 10, can make LOCA optical cement fill cavity 10 inside moreover, even slow inflow to the inside assigned position of LOCA optical cement filling cavity 10. The size of having avoided among the prior art because of the touch-sensitive screen, the restriction of structure leads to producing the overflow phenomenon of gluing, the emergence of the inhomogeneous phenomenon of starving and viscose thickness to reach not only can not receive the size of touch-sensitive screen, the restriction of structure, but also can solve overflow and glue, starving and the inhomogeneous phenomenon of viscose thickness take place.

In summary, the input end of the touch screen component is provided with the glue filling structure for filling the liquid transparent glue into the touch screen component, and the output end of the touch screen component is provided with the glue pumping structure for pumping the inside of the touch screen component and the capillary tube for connecting the glue filling structure and the glue pumping structure together. During the laminating, earlier through encapsulating structure with LOCA optical cement pour into touch-sensitive screen part inside formed LOCA optical cement fill cavity 10 inside take out the glued structure again and fill cavity 10 inside gas or LOCA optical cement under the drive effect of negative pressure condition with LOCA optical cement, make LOCA optical cement flow in the inside assigned position of touch-sensitive screen part, because of the size of touch-sensitive screen among the prior art has been avoided, the restriction of structure leads to producing the excessive gluey phenomenon, the emergence of the inhomogeneous phenomenon of insufficient gluey phenomenon and viscose thickness, thereby reach not only can not receive the size of touch-sensitive screen, the restriction of structure, and can also solve the excessive gluey, the inhomogeneous phenomenon of insufficient gluey and viscose thickness takes place.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, without thereby limiting the scope of the invention. Any modification, equivalent replacement and improvement made by those skilled in the art without departing from the scope and spirit of the present invention should be within the scope of the claims of the present invention.

Claims (5)

1. The utility model provides a liquid crystal encapsulating device of laminating entirely for negative pressure capillary, its includes the touch-sensitive screen part by the laminating, its characterized in that: the touch-sensitive screen part input end department is provided with and is used for liquid transparent adhesive tape to pour into the inside encapsulating structure of touch-sensitive screen part into, touch-sensitive screen part output end department be provided with and be used for extracting the inside gluey structure of taking out of touch-sensitive screen part to and be used for pouring into the gluey structure and take out the capillary that gluey structure links together.

2. The liquid crystal glue filling full-lamination device for the negative pressure capillary tube as claimed in claim 1, characterized in that: the encapsulating structure is including storing the optical cement storage cylinder of LOCA optical cement, connecting in the first transparent hose of optical cement storage cylinder below, setting up the choke valve on first transparent hose, the input capillary of being connected with first transparent hose output to and set up in touch-sensitive screen part outlying be used for the preliminary frame of touch-sensitive screen part to paste the tool entirely.

3. The liquid crystal glue filling full-lamination device for the negative pressure capillary tube as claimed in claim 1, characterized in that: the glue pumping structure comprises an output end capillary at the output end of the touch screen component, a second transparent hose connected with the output end capillary, a vacuum pump connected to the other end of the second transparent hose, and a UV machine connected with the other end of the vacuum pump and used for curing an LCOUV curing film inside the touch screen component and LOCA optical cement together.

4. The liquid crystal glue filling full-lamination device for the negative pressure capillary tube as claimed in claim 1, characterized in that: the touch screen component comprises an LCD (liquid crystal display) screen arranged on the full-pasting jig and a touch screen pasted on the LCD screen.

5. The liquid crystal glue filling full-lamination device for the negative pressure capillary tube as claimed in claim 4, characterized in that: and an LOCA optical cement filled cavity connected with the input end capillary and the output end capillary is formed at the intersection between the upper surface of the LCD screen and the lower surface of the touch screen.

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