KR20140132594A - Autoclave device that can be distributed to the pressing force that is passed to the pressurized sent - Google Patents

Abstract

The present invention relates to an autoclave device that can distribute a pressing force transferred to a pressurizing transfer part. More particularly, the present invention relates to an autoclave device that can distribute a pressing force transferred to a pressurizing transfer part to solve a problem that a transfer unit is broken. An autoclave device that can distribute a pressing force transferred to a pressurizing transfer part according to an embodiment of the present invention includes: multiple rollers (201) which are transferred along a rail (203) in a lower part of a pressurizing transfer part (400); and a support part (202) which is formed in a space part (600) between the pressurizing transfer part (400) and a lower plate (200) and supports the pressurizing transfer part (400).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an autoclave device capable of distributing a pressing force transmitted from a pressurizing-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an autoclave device capable of dispersing a pressing force to be transmitted to a pressurized feeder, and more particularly, to an autoclave device in which a pressurized feeder bearing a workpiece to be pressurized in the configuration of an autoclave device enters a space portion of an autoclave device The present invention relates to an autoclave device for preventing a pressurized transfer part from being stuck due to a pressure which is applied when a pressurization is performed inside, and at the same time preventing breakage of the pressurized transfer part in advance.

In general, a liquid crystal display (LCD) is characterized by attaching a polarizing film.

Normally, after the polarizing film is attached, a work for removing the air bubbles generated between the polarizing film and the substrate is performed, and the air bubbles are removed by an apparatus called an autoclave.

In this case, in order to process a large number of LCD substrates having a polarizing film at one time, an LCD substrate is laminated on a base plate to enter a pressure portion having a closed structure to maintain a high temperature and a high pressure for a predetermined time, It is mainly using the method of removing.

As for the conventional techniques for the above-mentioned autoclave,

Open No. 10-2004-0079595 relates to an 'autoclave apparatus and method', which comprises a main body, first and second opening and closing means provided on both sides of the main body for opening and closing the main body accommodating space, A tray accommodated in the accommodation space of the main body and gripped by the first and second stoppers and provided so as to be movable in a predetermined direction; A heater provided to raise the temperature of the accommodation space of the main body to a predetermined temperature; first and second air circulation means for circulating air in the accommodation space of the main body; And at least two pressing means provided on both ends of the main body.

Registration No. 10-0771006 relates to an 'autoclave device'

At least a pair of rollers and a plurality of rollers which are pressed while passing through the substrate heated by the substrate heating unit so that the bubbles remaining between the polarizing plate and the substrate can be substantially eliminated, And a buffer part capable of positioning the substrate of the substrate and sequentially supplying the substrate to the at least one pair of rollers.

Registration No. 10-0600413 relates to an 'autoclave device'

A front and rear door slidable in the upper and lower sides or left and right directions of the pressure vessel so as to open and close the inlet and outlet of the pressure vessel; Closing means for opening and closing the inlet and outlet of the pressure vessel, air pressure supply means for supplying air pressure for interlocking with the inside of the pressure vessel to pressurize the workpiece, An air pressure discharge means which communicates with the interior of the pressure vessel and discharges the air pressure inside the pressure vessel to the outside when the workpiece is processed by the air pressure supply means and the heating means, And the pressure vessel is continuously installed inside the pressure vessel, And a transfer means for transferring the processed workpiece to the outside of the pressure vessel together with the inlet.

In the above-mentioned conventional devices, when the substrate or the conveying means on which the workpiece is placed is pressed against the substrate or the workpiece after being drawn into the space in the main body, the conveying means is stuck due to the pressure to which the pressure is applied. The cylinder is generally constructed so as to prevent the conveying means from being lowered by the operation of the cylinder. However, due to an excessive force which is weakened due to the force of the pressurized pressure or transmitted to the conveying means, There was a problem that it was broken.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a pressurized- A plurality of supporting portions are formed at the lower portion of the pressurized conveyance portion so that the pressure force transmitted to the pressurized conveyance portion can be dispersed when the pressurized portion introduced into the space portion is pressurized by the conveyance portion, The present invention provides an autoclave device capable of dispersing a pressing force transmitted to a pressurized conveyance part having grooves of a predetermined depth on a rail in order to prevent breakage of the roller when the pressure is applied at a constant interval due to pressing force. .

According to an aspect of the present invention, there is provided an upper plate and a lower plate, wherein side plates are formed on opposite sides of the upper and lower plates to form a space portion therein, A pressurized fluid transferring unit for drawing and drawing fluid into and out of the space for pressurizing a workpiece is provided and a cylinder for raising and lowering the pressurized transferring unit is provided at a lower portion of the pressurized fluid transferring unit, A lower plate is provided with a supporting portion for supporting the pressurized conveyance portion between the pressurized conveyance portion and the lower plate due to pressure in the space portion, The rail is provided with a reference groove having a predetermined depth so that the roller can be seated when the pressurization- Providing an autoclave device, which the pressing force is pressed is transmitted to the sending can be dispersed, it characterized in that the predetermined depth in the longitudinal direction of the roller is formed by the flow grooves are formed and in order to solve the problem.

According to the autoclave device capable of distributing the pressing force to be transmitted to the pressurizing conveyance section according to the present invention, the force of the pressure to which the pressurized conveyance section is introduced into the space portion of the autoclave apparatus and is transmitted to the pressurizing- The roller can be dispersed in the lower part of the conveying part by a plurality of support parts, and the pressing part is formed at the lower part of the conveying part, A groove having a predetermined depth is formed in the rail at the portion where the roller is positioned after the pressurizing conveyance portion is pressed, so that breakage of the roller is prevented beforehand, so that the pressurization portion of the conveyance portion is minimized, And the structure of the rollers facilitates the flow of the pressurized fluid during the pulling-in and pulling-out of the feeding portion, and a groove having a certain depth is formed in the rail Will as a breakthrough invention, such as to prevent damage to the roller groups in advance.

1 is a plan view showing an autoclave device to which the present invention is applied;
Fig. 2 is a front sectional view showing A-A in Fig. 1
Fig. 3 is a side sectional view showing B-B in Fig. 1
4 is a side sectional view showing a reference groove and a flow groove formed in a rail in the structure of the present invention

Referring to FIGS. 1 to 4, an autoclave device capable of dispersing a pressing force to be transmitted to a pressurized feeder according to the present invention will be described.

First, the configuration of the autoclave device 10 capable of dispersing the pressing force transmitted to the pressurized gas transfer part 400 of the present invention will be described.

The upper plate 100 and the lower plate 200 are formed and the side plates 300 are formed on opposite sides of the upper and lower plates 100 and 200 to form a space 600 therein, And a pressurization transfer unit 400 configured to receive a workpiece and to be drawn into and drawn out of the space 600 for pressurizing the workpiece 400. The pressurization transfer unit 400 includes a pressurization transfer unit 400 A plurality of rollers 201 are mounted on the lower portion of the pressurizing conveyance unit 400 and conveyed by rails 203, A support portion 202 for supporting the pressurization transfer portion 400 that is struck by the pressure in the space portion 600 due to pressure during the pressurization transfer portion 400 and the lower plate 200 is formed in the lower plate 200, When the pressurization transfer part 400 is inserted into the space part 600, the roller 203 1, a reference groove 204 having a predetermined depth and a flow groove 205 having a predetermined depth in the longitudinal direction of the roller 201 are formed.

One or more support portions 202 may be formed, and one or more reference grooves 204 and flow grooves 205 may be formed according to the number of the rollers 201.

[0030] The above-described configuration of the present invention will be described in more detail.

Generally, the autoclave device 10 includes an upper plate 100 and a lower plate 200, and a side plate 300 is formed on opposite sides of the upper and lower plates 100 and 200, Thereby forming a part 600.

A pressurized gas transfer unit 400 is formed to extend or retract into the space 600. At this time, a workpiece may be seated on the pressurized gas transfer unit 400, A groove having a predetermined depth is formed so that the pressing can be performed.

A cylinder 500 is formed in the lower portion of the pressurization transfer unit 400 to move the pressurization transfer unit 400 up and down when the pressurization transfer unit 400 is retracted into the space unit 600.

In the autoclave device 10, the pressurized gas transfer unit 400 flows into the space 600 while riding on the rail 203 when it is drawn. In the present invention, therefore, The roller 201 is configured to be able to flow on the rail 203.

The roller 201 is formed in a circular shape so as to flow through the rail 203 and is connected to an extension shaft extending from the bottom surface of the pressurization transfer part 400 and a connection The shafts are connected to each other so that the roller 201 rotates with respect to the connection shaft and the roller 201 is drawn into the space 600 through the rail 203.

The rollers 201 may be constructed in accordance with the quantity of the rails 203. In the present invention, the pressurizing conveyance unit 400 is formed on both sides of the lower portion of the conveyance unit 400, 10 so as to be able to be drawn into and drawn out from the inside of the space portion 600 of the main body 10.

A reference groove 204 and a flow groove 205 having a predetermined depth are formed in the rail 203 of the pressurizing transfer unit 400. The reference groove 204 and the flow groove 205 are formed in the roller 201, .

The reference groove 204 is formed at a depth at which the roller 201 can be seated and the flow groove 205 is formed at a depth such that the roller 201 can be seated like the reference groove 204 And is formed to have a predetermined length in the longitudinal direction. The formation of the flow grooves 205 in the longitudinal direction is performed in such a manner that when the pressurization transfer part 400 is located inside the space part 600, 205 are formed so as to have a certain depth and a predetermined length so that the rollers 201 seated on the rollers 205 can flow.

A plurality of reference grooves 204 and flow grooves 205 may be formed in accordance with the number of rollers 201 constituting the pressurizing unit 400.

A plurality of support portions 202 are formed in the lower portion of the pressurized gas transfer portion 400. The support portion 202 is elongated in the longitudinal direction in which the pressurization transfer portion 400 flows, .

The supporting portion 202 connected to the rail 203 among the plurality of supporting portions 202 may be formed as a rail 203 such that the supporting portion 202 can support the extended portion of the rail 203 Can be extended.

The support portions 202 described above may be extended in a plurality of configurations, but they are not limited to extension as they can extend according to their respective configurations.

The operation method of the autoclave device 1 capable of dispersing the pressing force of the present invention will be described in more detail with reference to FIGS. 1 to 4. FIG.

The upper plate 100 and the lower plate 200 are spaced apart from each other by a predetermined distance and the side plate 300 is formed on both sides of the spaced apart portions of the upper and lower plates 100 and 200, And the space part 600 is provided with an autoclave device 10 having one or more cylinders 500.

A pressurized gas transfer unit 400 is provided to the space unit 600 in the autoclave apparatus 10. The pressurized gas transfer unit 400 includes a rail And a roller 201 for flowing the pressurized fluid through the transfer unit 400.

In addition, one or more support portions 202 formed on the lower plate 200 higher than the cylinder 500 are provided.

[0051] A method of loading and unloading the pressurization transfer unit 400 after the workpiece to be pressurized is placed in the above-described autoclave apparatus 10 will be described in detail.

First, in a state in which the pressurizing transfer unit 400 is drawn out to the outside of the autoclave apparatus 10, the workpiece is placed in the groove having a certain depth in the upper portion of the pressurization transfer unit 400.

When the workpiece is seated in the above, the pressurizing transfer part 400 is drawn into the internal space part 600 of the autoclave device 10. At this time, the roller 201 formed on the lower portion of the pressurizing conveyance unit 400 is pulled on the rail 203, and the roller 201 for conveying the pressurized conveyance unit 400 is moved to the reference groove 204 and the flow grooves 205, respectively.

When the pressurized transfer unit 400 is drawn into the space 600,

After the pressurization transfer part 400 rises due to the upward movement of the cylinder 500, the pressurization is performed on the part where the workpiece is seated.

The pressurized fluid is pressurized by the pressure applied to the pressurized fluid transfer part 400. At this time, the pressurized fluid transfer part 400 supports the pressurized fluid transfer part 400 at the lower part thereof A plurality of support portions 202 may be provided to prevent stiction.

In addition, the roller 201 formed on the bottom surface of the pressurizing and pressurizing transfer unit 400 during the pressing operation of the pressurizing transfer unit 400 is also crushed. In order to prevent the roller 201 from being stuck and broken, And the flow grooves 205 are formed.

The pressurizing conveyance unit 400 is extended by a predetermined length due to the high temperature at which pressurization is transmitted to the conveyance unit 400 during pressurization. The roller 201, which is seated in the reference recess 204, So that the rollers 201 can be seated so as not to be transported. The flow grooves 205 are formed to have a certain length in the longitudinal direction of the rail 203 as they are deformed as they are stretched due to the high temperature, The portion provided with the roller 201 seated in the reference groove 204 does not flow as the pressing groove 204 is extended and the portion provided with the roller 201 seated in the flow groove 205 This distance is increased.

When the pressurization of the pressurization transfer part 400 is completed,

The cylinder 500 descends and the pressurization transfer unit 400 descends due to the descent of the cylinder 500 and the pressurization transfer unit 400 which has completed pressurization of the workpiece can be unloaded to the outside .

As described above, according to the present invention, the pressure force transmitted from the pressurizing conveyance unit 400 into the space 600 of the autoclave apparatus 10 and transmitted to the pressurizing conveyance unit 400 at the time of pressurization, Which is formed at the lower part of the conveying part 400 and which can be dispersed by a plurality of support parts 202 at the lower part of the conveying part 400, The grooves 204 and 205 having a predetermined depth are formed in the rail 203 at the position where the roller 201 is positioned after the pressurization transferring part 400 is pressed, Thereby preventing the roller 201 from being damaged. Thus, when the workpiece is pressed, the pressing force is increased by minimizing the pressing force of the pressing part 400 due to the supporting part 202, The flow of the pressurized gas transfer part 400 is facilitated when the pressurization transfer part 400 is pulled out and the groove 203 04, and 205 to prevent the roller 201 from being damaged.

10: Autoclave device
100: upper plate
200: lower plate 201: roller 202: support
203: rail 204: reference groove 205: flow groove
300: side plate
400: pressurized feeding part 500: cylinder 600:

Claims (3)

The upper plate 100 and the lower plate 200 are formed and the side plates 300 are formed on opposite sides of the upper and lower plates 100 and 200 to form a space 600 therein, A pressurization transfer unit 400 configured to receive a workpiece and to be drawn into and drawn out of the space 600 for pressurizing the workpiece and configured to allow the pressurization transfer unit 400 And a cylinder 500 for raising and lowering the cylinder 500. In the autoclave apparatus 10,
A plurality of rollers 201 to be conveyed by rails 203 are provided at a lower portion of the pressurizing conveyance unit 400,
A support portion 202 for supporting the pressurization transfer portion 400 that is struck due to pressure in the space portion 600 is formed between the pressurization transfer portion 400 and the lower plate 200 in the lower plate 200 ,
The rail 203 is provided with a reference groove 204 having a certain depth so that the roller 201 can be seated when the pressurizing transfer unit 400 is inserted into the space 600, And a flow groove (205) formed with a predetermined depth is formed on the upper surface of the flow channel (205). An autoclave device
3. The method of claim 1,
The supporting part (202) may be constituted by one or more than one supporting part (202). The supporting part (202)
3. The method of claim 1,
Wherein one or more reference grooves (204) and flow grooves (205) can be formed according to the number of the rollers (201). The autoclave device

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