JPH04147217A - Device for pressurizing liquid crystal display element cell - Google Patents

Abstract

PURPOSE:To pressurize both surfaces of the liquid crystal display element uniformly without adhering and to eliminate variance among gaps and the staining of a display area surface by clamping the liquid crystal display element cell between an upper and a lower pressing base and supplying air to a recessed part for pressure application. CONSTITUTION:A cassette 40 which contains the liquid crystal display element cell 41 is mounted on an elevation table 2 and when a motor is put in operation, the table 2 is elevated to put a pusher 11 in operation, thereby mounting the cell 41 on a lower pressing base 18 by a suction device 35. Then an upper pressing base 25 is moved down by an air cylinder 16 to clamp the cell 41 between the upper and lower pressurizing base by the air cylinder 24 and while pressurized air is supplied to the recessed part between both the bases by pressurized air hoses 21 and 27 to press the cell, sealing operation is carried out by a sealing agent coating device 38. Then the air is discharged to put the moving base 15 back and the cell 41 is placed on a cell receiver 31 by the device 35; and the pusher 30 is put in operation to store the cell in the cassette 40 on a cassette elevation device 29.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a pressurizing device for a liquid crystal display element cell, which applies pressure to both sides of the liquid crystal display element cell when sealing the filling hole of the liquid crystal display element cell. be.

[Prior Art] In a conventional pressurizing device for a liquid crystal display element cell, pressurizing spacers made of rubber are directly applied to both sides of the liquid crystal display element cell, as described in Japanese Patent Laid-Open No. 86-13406. The liquid crystal display element cell is pressurized.

[Problem to be solved by the invention]

In such a pressurizing device for a liquid crystal display element cell, variations in the hardness and thickness of the pressure spacer cause variations in the gap of the liquid crystal display element cell, and dirt on the pressure spacer may cover the entire surface of the liquid crystal display element cell. It adheres and stains the surface of the display area of the liquid crystal display element cell.

This invention has been made in order to solve the above-mentioned problems, and is a liquid crystal display element cell that does not cause variations in the gap of the liquid crystal display element cell and does not cause the surface of the display area of the liquid crystal display element cell to become dirty. The purpose is to provide a pressurizing device.

[Means for Solving the Problem] In order to achieve this object, the present invention provides a method for applying pressure to both sides of the liquid crystal display element cell when sealing the filling hole of the liquid crystal display element cell. The pressure device includes a lower pressure space having a recess, a lower pressure base having a recess, and a pressure air hose connected to the recesses of the lower pressure base and the maxillary pressure base.

[Function] In this pressurizing device for a liquid crystal display element cell, if pressurized air is supplied to the recess through a pressurized air hose while the liquid crystal display element cell is held between the mandibular pressure base and the maxillary pressure base, , both sides of the liquid crystal display element cell can be pressurized.

[Example] FIG. 3 is a schematic plan view showing a sealing device having a pressurizing device for a liquid crystal display element cell according to the present invention, and FIG.
-A sectional view, FIG. 2 is a partially detailed view of FIG. 1, and FIG. 4 is a BB sectional view of FIG. 3.

In the figure, ] is a base, 2 is a lifting table attached to the base 1 so that it can be raised and lowered, 3 is a positioning member provided on the lifting table 2, 4 is a female screw member attached to the base 1, and 5 is a female screw member attached to the base 1. It is a fiber threaded member screwed into the female threaded member 4, and the upper end of the male threaded member 5 is in contact with the lower surface of the lifting table 2. Reference numeral 6 indicates a belt pulley attached to the lower part of the drilled screw member 5, 7 indicates a motor attached to the base 1, 8 indicates a belt pulley attached to the output shaft of the motor 7, and 9 indicates a belt pulley 6 and a belt pulley 8. A cassette lifting device 10 is constituted by a lifting table 2, a female screw member 4, a female screw member 5, a motor 7, and the like. 11
1 is a button attached to the base 1, 12 is a cell receiver device that is attached to the base 1 and has a roller, 12a is a stopper attached to the end of the cell receiver M12,
Cassette lifting device 10, pusher 11, cell receiver device 1
2 constitutes a loader device 13. 14 is a rail attached to the base; 15 is a moving base movably supported by the rail 14; ]6 is an air cylinder attached to the base 1; 17 is a bracket attached to the moving base 15; The tip of the piston rod of the air cylinder 16 is attached to a bracket 17. 18 is a mandibular pressure base attached to the movable base 15, and the mandibular pressure base 18 has a recess. 19 is mandibular pressure base 1
O-ring provided around 8, 20 is O-ring 19
Teflon tape 21 covers the mandibular pressure base 18 at one end.
The other end of the pressurized air hose 21 is connected to a pressurized air supply bag N (not shown). 22 is a support plate attached to the base l; 23 is an elevating base attached to the support plate 22 so as to be able to rise and fall; 2
4 is an air cylinder attached to the support plate 22, and the tip of the piston rod of the air cylinder 24 is connected to the lifting base 23.
is attached to. Reference numeral 25 denotes a maxillary pressure base attached to the elevating base 23, and the maxillary pressure base 25 has a recess. Reference numeral 26 denotes an O-ring provided around the maxillary pressure base 25, and the O-ring 26 is covered with a Teflon tape 2o.

A pressurized air hose 27 has one end connected to a recess in the mandibular pressure base 25, and the other end of the pressurized air hose 27 is connected to the pressurized air hose 21. And moving base 15,
A pressurizing device 28 is composed of an air cylinder 16, a mandibular pressure base 18, a pressurized air hose 21, a lifting base 23, an air cylinder 24, an maxillary pressure base 25, a pressurized air hose 27, and the like.

Reference numeral 29 denotes a cassette lifting device, and the cassette lifting device 29 has the same structure as the cassette lifting device 10. 30 is a button attached to the base 1, 31 is a cell receiver attached to the base 1 and has rollers, and the cassette lifting device 29, the button 30, and the cell receiver 31 constitute an unloader device 32. There is. 33 is a moving table, 34 is a moving device for moving the moving table 33, 35 is a suction device attached to the moving table 33, and 36 is a lifting device for raising and lowering the suction device 35, which includes the moving table 33, the moving bag ff134, and the suction bag. M
35 and a lifting device 36 constitute a conveying device 37. 3
8 is a sealant coating device, 39 is a moving device for moving the sealant coating device 38, 4o is a cassette, and 41 is a liquid crystal display element cell housed in the cassette 40.

The operation of this liquid crystal display element cell sealing device will be explained. First, as shown by the two-dot chain line in FIG. 4, the cassette 40 containing the liquid crystal display element cell 41 is placed on the lifting platform 2. In this case, the cassette 40 is positioned by the positioning member 3. Next, by operating the motor 7 and rotating the male screw member 5, the lifting platform 2 is raised and lowered to match the height of the button 1 with the height of the liquid crystal display element cell 41. Next, the cassette 4 is
The cell receiver pushes out the liquid crystal display element cell 41 onto the device 12 from within the device 12 . Next, the suction device 35 is lowered by the lifting device 36, and after the cell receiver sucks the liquid crystal display element cell 41 on the device 12 by the suction device 35, the suction device 35 is raised by the lifting device 36. Next, the moving table 33 is moved by the moving device 34, and the suction device 35 is moved to the lower pressurizing base 1.
Position it above 8. Next, after lowering the suction device 35 using the lifting device 36, the suction device 35 is stopped.
The liquid crystal display element cell 41 is placed on the lower pressure base 18. Next, the moving base 15 is moved to below the lower pressurizing base 25 by the air cylinder 16. Next, the elevating base 23 is lowered by the air cylinder 24 to the state shown in FIG. 5. Next, if pressurized air is supplied to the recesses of the lower pressurizing base 18 and the lower pressurizing base 25 via the pressurized air hoses 21 and 27, the liquid crystal display element cell 4
Both sides of 1 are pressurized. In this state, the sealant coating device 3
8 performs the sealing work.

Next, the elevating base 23 is raised by the air cylinder 24, and the movable base 15 is returned to the position shown in FIG. 3 by the air cylinder 16. Next, the suction device 35 is lowered by the elevating device 36, and after the suction device 35 adsorbs the liquid crystal display element cell 41 on the lower pressure base 18, the elevating device 36
The suction device 35 is raised. Next, the moving device 34
The movable stage 33 is moved to position the suction device 35 above the cell receiver 31. Next, after the suction device 35 is lowered by the lifting device 36, the suction device 35 is stopped and the liquid crystal display element cell 41 is placed on the cell receiver device 31. Next, the cassette lifting device 29 and the pusher 30
is operated to house the liquid crystal display element cell 41 in the cassette 40 placed on the cassette lifting device 29.

In such a pressurizing device for a liquid crystal display element cell, both sides of the liquid crystal display element cell 41 are pressurized by pressurized air, so both sides of the liquid crystal display element cell 41 can be uniformly pressurized. Variations in the gaps of the cells 41 do not occur. In addition, the liquid crystal display element cell 41
Since nothing other than pressurized air comes into contact with the display area of the liquid crystal display element cell 41, the surface of the display area of the liquid crystal display element cell 41 is not contaminated.

Furthermore, since the O-ring 19.26 is covered with Teflon tape 20, the O-ring 19.26 does not come into close contact with the surface of the liquid crystal display element cell 41, and if the Teflon tape 20 is replaced regularly, the liquid crystal display It is also possible to prevent surfaces other than the display area of the display element cell 41 from becoming dirty.

In the above embodiment, two pressurizing devices 28 are provided, but one or three or more pressurizing devices 28 may be provided.

〔Effect of the invention〕

As explained above, in the pressurizing device for a liquid crystal display element cell according to the present invention, since both sides of the liquid crystal display element cell are pressurized with pressurized air, both sides of the liquid crystal display element cell can be uniformly pressurized. Therefore, variations in the gap between the liquid crystal display element cells do not occur. Further, since nothing other than pressurized air comes into contact with the display area of the liquid crystal display element cell, the surface of the display area of the liquid crystal display element cell is not contaminated.As described above, the effects of the present invention are remarkable.

[Brief explanation of the drawing]

FIG. 1 is a sectional view taken along the line A-A in FIG. 3, FIG. 2 is a partially detailed view of FIG. 1, and FIG. 3 shows a sealing device having a pressurizing device for a liquid crystal display element cell according to the present invention. FIG. 4 is a schematic plan view, FIG. 4 is a sectional view taken along line BB in FIG. 3, and FIG. 5 is an explanatory diagram of the operation of the pressurizing device for the liquid crystal display element cell shown in FIG. 1 and the like. 18...Lower pressure base 21...Pressure air hose 25...Lower pressure base 27...Pressure air hose 41...Liquid crystal display element cell Fig. 1 Fig. 2 18-□ka. 1-yu

Claims (1)

[Claims] 1. A pressurizing device for a liquid crystal display element cell that applies pressure to both sides of the liquid crystal display element cell when sealing the filling hole of the liquid crystal display element cell, which includes a lower pressure base having a recess and an upper pressure base having a recess. A pressurizing device for a liquid crystal display element cell, comprising: a pressurizing base; and a pressurizing air hose connected to the recesses of the lower pressurizing base and the upper pressurizing base.