KR100867775B1 - Wet glass etching device - Google Patents

Abstract

A wet glass etching device is provided to etch freely glass having various heights and lengths by ascending and descending a guide roller of the adaptive supporting part if the height of the glass is determined and to improve a poor quality conspicuously because a dead space where an etchant is unable to reach is few and an area of the roller contacted with the glass is few. A wet glass etching device comprises a drive motor, gear-boxes(50,54) and an adaptive supporting part. The drive motor is installed at a roof of a chamber. The driving shaft(500) is rotated according to an operation command. An outside of a cylindrical worm wheel is wrapped up by the worm wheel combined with a worm of the driving shaft. The drive motor fixes a worm including a plurality spiral wires. A screw thread is formed inside the cylindrical worm wheel. A gear-box comprises an elevating shaft(502).

Description

Wet glass etching device

FIELD OF THE INVENTION The present invention relates to glass etching apparatus, and more particularly, to wet etching glass etching apparatus.

Various glass etching apparatuses are used in the industrial field. Glass etching refers to the formation of fine irregularities on the glass surface, which may be used for the purpose of decorating the glass surface, and an etching process is also used for liquid crystals, semiconductor substrates, and the like in the electronic field. The etching apparatus includes a wet etching apparatus using a liquid and a dry etching apparatus using no liquid.

1 schematically shows a block diagram of a general glass etching apparatus. Referring to FIG. 1, a general glass etching apparatus is loaded by the loader portion 10, buffered by the buffer portion 12, and then etched by the etching portion 14. In addition, it is cleaned by the cleaning unit 16 as necessary, and discharged through the unloader unit 18.

2 shows an example of a structure in which a glass to be etched in a conventional wet etching apparatus is moved while lying horizontally on a conveyor belt. In the conventional wet glass etching apparatus 2 as shown in FIG. 2, the glass to be etched is introduced into the etching chamber 20 through the buffer portion 12, loaded and etched while lying horizontally on the conveyor belt 22 or the like. In the chamber 20 was also made of a structure that is moved in a lying state. Thus, in the state in which the glass was laid horizontally, there was a problem that the etching solution was not smoothly discharged and stains remained in the glass.

Another conventional wet etching apparatus for solving this problem is disclosed in Republic of Korea Patent Publication No. 10-2005-0087446 (August 31, 2005). FIG. 3 shows a structure in which the glass to be etched is loaded and processed in a vertical position in another conventional wet etching apparatus disclosed in the above-mentioned patent. Referring to FIG. 3, the conventional wet glass etching apparatus disclosed in the above-described patent is advanced by the roller 30 when the glass G to be etched is loaded into the etching chamber, wherein the glass G to be etched is a roof in the chamber. The support shaft is installed in the support shaft extends to the bottom and a plurality of guide rollers 320 are installed along the axis. However, the conventional wet glass etching apparatus as described above shows an enlarged structure for supporting the glass in the conventional wet etching apparatus shown in FIG. Referring to FIG. 4, a series of support shafts are fixed to the roof side by a pair of left and right, and a plurality of guide rollers 320 are installed on the support shafts. Therefore, etching can be performed irrespective of the height of glass. This structure is the same in other processes, such as a washing part or a drying part.

However, in the conventional wet etching apparatus as described above, even when the glass loading structure described above is applied to the etching chamber, a blind spot where the etching solution does not reach is generated so that the etching is not even and the glass is etched with low height. The etching liquid flows out from the guide rollers, which may cause defects.In addition, even when applied to the cleaning part or the drying part, the guide rollers covering the glass surface form a blind spot where the cleaning solution is not evenly sprayed. There is a problem that can cause. In addition, there is a problem that many defects caused by unnecessary contact with the glass by the guide rollers.

SUMMARY OF THE INVENTION The present invention has been invented to solve the above problems, and a technical problem to be achieved by the present invention is to provide a wet glass etching apparatus which is adaptively controlled to the height of the glass vertically injected.

The wet glass etching apparatus according to the present invention for achieving the above technical problem,

Wet glass which has a groove for vertically fitting the glass to be etched to support the lower side of the glass and moves the glass to the front and rear of the chamber so that the glass is etched while supporting the lower portion of the glass vertically. In the etching apparatus,

A drive motor installed on the roof of the chamber to rotate the drive shaft according to a drive command from an external control device, the drive shaft having a worm fixed to the drive shaft including a plurality of threads;

The outer side is wrapped with a worm wheel coupled with the worm of the drive shaft and the inside is a cylindrical worm wheel and a screw thread formed therein, and the screw thread formed in the cylindrical worm wheel in combination with the rotation of the worm wheel is moved up and down A gearbox including a lifting shaft, and

It is characterized in that it comprises an adaptive support that is fixed to the lifting plate fixed to the end of the lifting shaft and a pair of guide rollers are supported in a row between the glass is supported between the lifting plate.

In addition, the guide roller preferably further includes a cushioning rubber fitted to the outer circumferential surface thereof.

According to the present invention, the guide roller is lifted according to the height of the glass to be etched to freely etch glass of various heights and lengths, and there is no blind spot in which the etching liquid remains, so that poor quality is remarkably improved.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

5 is a perspective view illustrating a glass support structure in a glass loading part outside the etching chamber in the wet glass etching apparatus according to the embodiment of the present invention. Referring to FIG. 5, the wet glass etching apparatus according to the present invention includes a groove having a recess into which the glass to be etched is vertically fitted to support a lower portion of the glass, and to move the glass to the front and rear of the chamber so as to be installed at the bottom side of the chamber. A wet glass etching apparatus for etching in a state of supporting a lower portion of glass vertically,

A drive motor (not shown) installed on the roof of the chamber to rotate the drive shaft 500 according to a drive command from an external control device (not shown), and to which the worm including a plurality of threads is fixed to the drive shaft 500. ,

Gear boxes 50 and 54 configured to convert the driving force of the drive shaft 500 into a vertical lifting motion to move the lifting shaft 502 up and down;

The lifting plate 506 fixed to the end of the lifting shaft 502 and the pair of guide rollers 514 that are supported by the glass are fixed in a row by being fixed to the bottom surface of the lifting plate 506. It characterized in that it comprises an adaptive support that is made.

The structure shown in FIG. 5 is designed to fit the glass loading part. The adaptive support part has a lifting plate 506 fixed to an end of the lifting shaft 502, and a height correction shaft 508 is disposed at the bottom of the lifting plate 506. ) And the roller fixing plate 510 is fixed to an end of the height correction shaft 508. On the bottom of the roller fixing plate 510, a pair of guide rollers 514, in which glass is supported, is arranged in a row. The outer peripheral surface of the guide rollers 514 may be fitted with a cushioning rubber 516 to prevent damage to the glass when moving.

According to such a structure, when the height of the glass to be etched is input, the adaptive support part formed by arranging the pair of guide rollers 514 in a row by the rotation of the drive shaft 500 is lifted according to the input glass height value. The top can be supported against glass of various heights.

6 is a perspective view of a glass support structure inside the etching chamber in the wet glass etching apparatus according to the embodiment of the present invention. Referring to FIG. 6, the lifting plate 506 is lifted by the lifting action of the lifting shaft 502, and the guide rollers installed at the bottom of the lifting plate 506 are lifted to fit the height of the glass to be etched. Can be. As a result, a roller 620 having a recess into which the glass G to be etched is vertically fitted to support the lower portion of the glass is installed at the bottom of the chamber, and is rotated by the rotating shaft 622 driving the roller 620. The glass G is moved back and forth of the chamber. Here, the upper surface of the elevating plate 506 is more preferably made of an inclined structure so that the etching liquid can flow down.

The wet glass etching apparatus according to the present invention as described with reference to FIGS. 5 and 6 inputs a glass height value determined by an external control device (not shown) when the height of the glass to be etched is determined. The driving motor (not shown) installed on the outside of the roof of the chamber is rotated at a predetermined rotation speed according to the input glass height value.

Figure 7 shows in detail the structure of the gear box in a wet glass etching apparatus according to an embodiment of the present invention. Referring to FIG. 7, the gearbox described with reference to FIG. 5 is surrounded by a worm wheel 704 coupled to a worm of a drive shaft 500 and a cylindrical worm wheel 708 having a thread 706 formed therein. And, the thread formed in the cylindrical worm wheel 708 and the screw coupling 710 is linked to the rotation of the cylindrical worm wheel 708 and the lifting shaft 502 is moved up and down. That is, the lifting shaft 502 is moved up and down by converting the rotational driving force of the drive shaft into a vertical lifting movement by the gear box.

In the case of the structure in which the technical feature according to the present invention is applied to the loading unit, the adaptive support is lifted to fit the height at the bottom and the top of the glass so that the bottom and the top of the glass are fitted to support the various heights. The glass can be processed. In this process, it is a problem of the prior art wet etching apparatus, which can prevent the unnecessary contact of the guide rollers with the glass, and when applied to the etching chamber or the like, the guide rollers are blocked when the etching liquid is injected to prevent the etching solution from reaching. There is no blind spot becoming.

Therefore, according to the present invention, when the height of the glass is determined, the guide roller of the adaptive support is lifted to freely etch the glass of various heights and lengths, and the area of the roller contacting the glass is small. This decrease in quality is significantly improved. Technical features according to the present invention as described above may be applied to the cleaning unit and the drying unit as well as the loading unit and the etching chamber.

The above embodiments have been described to aid the understanding of the present invention, and may be appropriately modified or modified by those skilled in the art within the scope of the claims defined by the appended claims.

1 is a block diagram schematically showing the structure of a typical glass etching apparatus;

2 is a view showing an example of a structure in which the glass to be etched in the conventional wet etching apparatus is moved in a state lying horizontally on the conveyor belt,

3 and 4 are views showing an example of a structure in which the glass to be etched in another conventional wet etching apparatus is loaded and processed while standing vertically;

5 is a perspective view illustrating a glass support structure in a glass loading part outside the etching chamber in the wet glass etching apparatus according to the embodiment of the present invention;

6 is a perspective view showing a glass support structure inside the etching chamber in the wet glass etching apparatus according to the embodiment of the present invention, and

Figure 7 is a cross-sectional view showing in detail the structure of the gear box in the wet glass etching apparatus according to an embodiment of the present invention.

Claims (2)

Wet glass which has a groove for vertically fitting the glass to be etched to support the lower side of the glass and moves the glass to the front and rear of the chamber so that the glass is etched while supporting the lower portion of the glass vertically. In the etching apparatus, A drive motor installed on the roof of the chamber to rotate the drive shaft according to a drive command from an external control device, wherein the drive shaft is fixed with a worm including a plurality of threads; The outer side is wrapped with a worm wheel coupled with the worm of the drive shaft and the inside is a cylindrical worm wheel and a screw thread formed therein, and the screw thread formed in the cylindrical worm wheel in combination with the rotation of the worm wheel is moved up and down A gear box including a lifting shaft; And And an adaptive support having a pair of guide rollers fixed in a lifting plate fixed to an end of the lifting shaft and a lower surface of the lifting plate and having a glass support therebetween arranged in a row. Glass etching apparatus. The method of claim 1, wherein the guide roller, A wet glass etching apparatus further comprising a cushioning rubber fitted to the outer circumferential surface thereof.

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