KR100837442B1 - Wet-type glass etching device - Google Patents

Abstract

A wet-type glass etching device is provided to facilitate a lubricant injection process by arranging a gear driver to be apart from a liquid condition. Plural rollers(200) include concave grooves, to which a glass to be etched is inserted, when the rollers are arranged in an upright direction. Plural driving axes(204) are axis-coupled with the rollers and elongated outside a chamber through plural through-holes, which are formed at one side of the chamber. Each of helical gears(206) has first and second sides. The first side is axis-coupled with an end portion of an elongated portion, which is extended to outside the chamber through the through-holes. The second side is axis-coupled with a gear driving motor. Plural bearings are arranged in the through-hole of the chamber. The driving axis is inserted through the bearing. A leakage shielding portion(220) includes the through-hole, a separation film, and a bushing. The separation film covers an inner side surface of the chamber. The bushing is arranged between the separation films.

Description

Wet-type glass etching device

The present invention relates to glass etching equipment and in particular to wet glass etching equipment.

The conventional wet glass etching apparatus has a structure in which the glass to be etched is loaded in a horizontal state lying on a conveyor belt or the like and moved in a state lying down even in the etching chamber. 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). Referring to FIG. 1, the conventional wet glass etching apparatus is advanced by the roller 100 when the glass G to be etched is loaded into the etching chamber, and the gear driver 102 driving the roller 100 is inside the chamber. It is located at. However, since the inside of the chamber is sprayed with etching liquid, the gear contact surface is operated without lubricating oil, and the wear of the gear is severe. There is a problem that a failure may occur.

The present invention has been invented to solve the above problems, the technical problem to be achieved by the present invention is to solve the problem that the maintenance of the gear drive in the environment in which the etching liquid is sprayed and the failure may be caused by the sludge from the etching process One wet glass etching apparatus is provided.

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

A plurality of rollers having grooves into which the glass to be etched in an upright position is fitted;

A plurality of driving shafts axially coupled with the respective rollers and extending to the outside of the chamber through a through hole provided at one side of the chamber,

Each of the plurality of helical gears are axially coupled to the end of the portion extending to the outside of the chamber through each through hole and the other side is axially coupled to the gear drive motor,

A plurality of bearings each of which is located in a through hole of the chamber and to which the driving shaft is fitted;

It characterized in that it comprises a leakage shield made of a spacer provided between the spacer and the spacer is installed so as to cover the through-hole and the chamber inner surface of each bearing.

Here, the spacer is,

A first cutout provided at a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one, and a first leakage blocking step at a side facing the first cutout; A first spacer having a first fixing hole for fixing to the chamber by a screw or the like, and

A second cutout provided at a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one, and a second leak blocking step on the side opposite to the second cutout; The jaw portion includes a second spacer having a second fixing hole for fixing to the chamber by a screw or the like,

The height of the second leakage blocking step may be smaller than the height of the first leakage blocking step so that the second cutout is located between the bottom of the first cutout and the inside of the chamber when the second leakage blocking step is fixed to the chamber.

According to the present invention, the gear driving unit is spaced apart from the liquid environment, and not only maintenance, such as dispensing lubricating oil, is easy, and it is possible to prevent a problem in which the driving unit is worn or malfunctioned due to sludge from the etching process.

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

2 schematically shows a structure of a wet glass etching apparatus according to an embodiment of the present invention. Referring to Figure 2, the wet glass etching apparatus according to the present invention,

A plurality of rollers 200 having grooves into which the glass to be etched in a vertical position is fitted, and each of the plurality of driving shafts is axially coupled to each of the rollers 200 and extends to the outside of the chamber C. 204, a plurality of helical gears 206 axially coupled to one end of the portion extending to the outside of the chamber C and the other side axially coupled to a gear drive motor, and the plurality of helical gears 206. And a leakage shield 220 for shielding leakage between the chamber C and the chamber C.

3 is an enlarged view of the main part of FIG. 2. 3, the wet etching apparatus according to the present invention,

A plurality of rollers 300 having grooves into which the glass to be etched in a vertical position is inserted,

Each of the plurality of drive shafts 304, which are axially coupled to the rollers 300 and extends to the outside of the chamber C through a through hole 302 provided at one side of the chamber,

Each of the plurality of helical gears 306 are axially coupled to the end of the portion extending to the outside of the chamber C through the through holes 302 and the other side is axially coupled to the gear drive motor,

A plurality of bearings 308 each of which is located in the through hole 302 of the chamber C, and into which the driving shaft 304 is fitted;

With bushings 312 provided between the separation membrane 310 and the separation membrane 310 installed to cover the through-hole 302 into which the respective bearings 308 are inserted and the inner surface of the chamber C. The leakage shielding part 320 is formed.

4 and 5 are perspective views for explaining the operation and effect of the wet glass etching apparatus according to the present invention. Referring to FIG. 4, in the glass G fitted perpendicular to the roller 400, the driving shaft 401 is moved by the driving of the helical gear 404. Even if lubricant is applied to the helical gear 404 in this process, the lubricant does not contaminate the glass G.

5 illustrates the advantages of the structure of the glass etching apparatus according to the invention, particularly in the etching chamber. Referring to FIG. 5, the driving shaft 501 is rotated by the helical gear 504 while the glass G to be etched perpendicularly to the roller 500 moves in a direction perpendicular to the driving shaft 501 to form the inside of the chamber. It is etched by the etching liquid supply part 510 provided in the. The glass etching apparatus of the present invention includes a plurality of rollers 500 having grooves into which the glass to be etched is mounted in a vertically standing state, and each of the plurality of drive shafts 501 is formed with each of the rollers 500. It is axially coupled and extends to the outside of the chamber through a through hole provided at one side of the chamber. The description of the bearing and the leak shield is omitted. In the glass etching apparatus according to the present invention as described above, the outside of the chamber is spaced apart from the liquid environment, so that it is not only possible to maintain and maintain the lubricant, such as dispensing the gear driving part, and the driving part is worn by the sludge etc. from the etching process. Can be prevented or problems caused by failure.

The glass etching apparatus according to the present invention operates in a state in which the etching liquid is injected inside the chamber in the conventional glass etching apparatus as described with reference to FIG. 1 without applying lubricant to the gear contact surface. The sludge coming out of the process will be caught between the helical gears and will cause equipment failure in the long term.

FIG. 6 is a cross-sectional view showing an example of a structure for isolating the gear drive unit outside the wet chamber in the wet glass etching apparatus according to the present invention, and FIG. 7 shows the gear drive unit outside the wet chamber in the wet glass etching apparatus according to the present invention. An example of a diaphragm structure sandwiched between bushings when isolated is shown. 6 and 7, the spacer described above is

The first cutout 702 provided with a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one, and the stepped portion 704 for blocking the first leakage on the side opposite to the first cutout 702. And first spacers 612 and 712 having a first fixing hole 706 for fixing to the chamber by screws or the like, in the first leakage blocking step 704.

The second cut-off portion 702 'and the second cut-off portion 702' provided on a side opposite to the second cut-out portion 702 'provided with a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one. ') And second separation membranes (612', 712 ') having second fixing holes (706') for fixing to the chamber by screws or the like. Including,

The height of the second leakage blocking step 704 ′ is the first leak when the second cutout 702 ′ is positioned between the bottom of the first cutout 702 and the inside of the chamber when the height of the second cutoff step 704 ′ is fixed to the chamber. It is smaller than the height of the blocking stepped part 704.

1 is a view showing the structure of a conventional wet glass etching apparatus,

2 is a view schematically showing the structure of a wet glass etching apparatus according to an embodiment of the present invention;

3 is an enlarged view of a main part of FIG. 2;

4 and 5 are a perspective view for explaining the operation and effect of the wet glass etching apparatus according to the present invention,

6 is a cross-sectional view showing an example of a structure for isolating the gear drive to the outside of the wet chamber in the wet glass etching apparatus according to the present invention, and

7 is a view showing an example of a spacer structure that is sandwiched between bushings when the gear drive unit is isolated out of the wet chamber in the wet glass etching apparatus according to the present invention.

Claims (2)

A plurality of rollers having grooves into which the glass to be etched in an upright position is fitted; Each of the plurality of drive shafts axially coupled to the rollers and extending to the outside of the chamber through a through hole provided at one side of the chamber; Each of the plurality of helical gears are axially coupled to the end of the portion extending to the outside of the chamber through the through holes and the other side is axially coupled to the gear drive motor; A plurality of bearings each of which is located in a through hole of the chamber and to which the driving shaft is fitted; And Wet glass etching apparatus comprising a; water leakage shield consisting of a spacer provided between the spacer and the through hole and the chamber inner surface is fitted between the bearing and the spacer. The method of claim 1, wherein the separation membrane, A first cutout provided at a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one, and a first leakage blocking step at a side facing the first cutout; The jaw portion has a first spacer having a first fixing hole for fixing to the chamber by a screw or the like; And A second cutout having a predetermined distance so that all the drive shafts provided in one chamber are fitted one by one, and a second leak blocking step on the side opposite to the second cutout; The jaw portion includes a second spacer having a second fixing hole for fixing to the chamber by a screw or the like; Wet glass etching, characterized in that the height of the second leakage blocking step portion is smaller than the height of the first leakage blocking step portion is positioned between the bottom of the first cut portion and the inside of the chamber when fixed to the chamber. Device.

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