KR100952312B1 - An apparatus for decorated plate glass - Google Patents

Abstract

PURPOSE: A manufacture apparatus for a decorative plate glass is provided to facilitate a post processing of the plate glass by drying, pre-heating, heating, and annealing the plate glass using a vertically-movable partition. CONSTITUTION: A manufacture apparatus(100) for a decorative plate glass installed on a conveyor(200) comprises a dryer(1), a pre-heating unit(2), a first heating unit(3), a first annealing unit(4), a second heating unit(5), a second annealing unit(6), an over-heating prevention unit(7), and an inner heat circulator(8). A partition wall(10) which moves up and down is installed on both ends and the inside of the apparatus. A hot wire is arranged on the upper side. A damper and the inner heat circulator are installed in the upper center side of the apparatus.

Description

An apparatus for decorated plate glass

The present invention relates to a plate glass manufacturing apparatus, and more particularly, to a post-processing, and to an apparatus capable of producing a decorative plate glass in a continuous process.

In general, decorative or functional plate glass is prepared by adhering or applying a decorative composition or functional composition to the plate glass and then heat-treating, and thus there are many studies on the method for decorating or imparting the plate glass and the compositions used therein. come.

For example, Korean Patent Publication No. 1998-6135 discloses a lead-free glass frit composition containing SiO 2 as a main component, and another Patent Publication No. 1989-11797 discloses a fused glass composition for coloring plate glass. Although 1992-17966 discloses a similar thing, all of the prior arts are methods for heat treatment by tempered process, which may be used for fusion of the composition to tempered glass, but after the tempering and quench process, The problem is that you can't.

Another Patent Publication No. 1993-379 discloses a method of manufacturing a plate glass for building materials, but the plate glass is heated to 650 ~ 750 ℃ close to the softening point, there is a question of the implementation, a public patent that discloses a decorative plate glass manufacturing method No. 1996-34113 has a problem in that it is inconvenient to give a vibration to the plate glass and can not be a continuous process.

In addition, Patent Publication Nos. 1998-9157, 1998-1893, and 1999-46239 disclose methods for manufacturing glass marble, patterned glass, or plate glass, but all of them use tempered heat treatment. It has been.

Another Patent Publication No. 2000-31732 discloses a pattern forming method of plate glass using crystal ice, but the process is rather cumbersome and there is a problem that the continuous process is difficult because it uses a general firing furnace.

Patent No. 10-650289 discloses a method for manufacturing a functional plate glass as patented in the name of the present applicant, but this patent also has a problem that post-processing cannot be performed because it is a strengthening process.

In particular, in the case of the production using horizontal reinforcing furnace to give decoration or function in the prior art, the horizontal reinforcing furnace facility itself has a main purpose in the production of tempered safety glass. The heating time is 40 seconds (± 5 seconds) is a universal time worldwide, so in the case of 5mm glass 180 ~ 225 seconds is a common heating time.

When producing decorative glass etched according to the above production method, it is suitable for the production of tempered safety glass, but it is impossible to arbitrarily operate according to the amount or thickness of pigment applied during the production of decorative glass, and change the heating time and cooling time according to the degree of melting. impossible.

In addition, the glass produced by the above method is suitable for toughened safety glass standards, but if the user wants to be post-processed, cutting, chamfering, drilling, faceting is impossible. In addition, when producing decorative glass using tempering furnace, if the glass coated with pigment is first dried in the drying furnace and not put into the tempering furnace, the shape of the design is disturbed during the rapid introduction into the tempering furnace, and the pigment is scattered inside the furnace. There is a problem that can not be prevented.

In addition, when producing decorative glass by embossing using box-type disconnectors, there is little quantity that can be produced at one time, and it takes much time to put glass into and out of the furnace according to the specifications of the furnace, and there is inconvenience to wait until it is completely cooled after heating. do.

In order to solve the above problems, the present applicant is different from the strengthening process of reheating and re-cooling the plate glass coated with the pigment in a method and apparatus for easily embossing etched plate glass, which is Korean Patent No. 10-812257. There has been disclosed a method and apparatus for providing ductility to a plate glass and allowing the pigment to be sufficiently melted to produce a decorative plate glass while being easy to be processed afterwards.

However, the patent provides an apparatus capable of maintaining a temperature range set between each unit consisting of a drying unit, a preheating unit, a primary heating unit, a primary cooling unit, a secondary heating unit, and a secondary cooling unit in an apparatus for executing the method. There was a problem that did not.

The present invention is therefore to solve the problems of the prior art as described above, as well as to increase productivity in a continuous process, as well as post-processing, such as chamfering, punching, faceting, release cutting, etc. It is an object of the present invention to provide an apparatus for producing sheet glass that can be manufactured.

In order to achieve the object of the present invention as described above, the present invention is a device installed in the upper portion operated by a conveyor, it is possible to dry, preheat, heat, slow cooling, etc. the input plate glass, the drying, preheating or heating Heating plates are arranged, both sides of the device and at least two of the interior of the movable movable bulkhead is installed, a damper for preventing overheating is installed on the top, and a decorative plate glass can be further installed on the top of the device to circulate the internal heat A manufacturing apparatus is provided.

According to the present invention, the plate glass can be subjected to drying, preheating, heating, slow cooling, or reheating and slow cooling by using a vertically movable partition wall, thereby providing a decorative plate glass which is easy to be processed later, as well as providing an internal heat circulation device at the upper portion. Low electricity consumption enables economical manufacturing of decorative glass panes.

The apparatus 100 of the present invention is installed on the conveyor apparatus 200. For example, the drying unit 1, the preheating unit 2, the primary heating unit 3, the primary slow cooling unit 4, and the secondary heating unit ( 5), may be composed of a secondary slow cooling unit (6), and includes an overheat protection unit (7) at the top.

In addition, the apparatus of the present invention may further comprise an upper internal heat circulation device (8).

The manufacturing process of the decorative glass plate for easy post-processing using the apparatus 100 of the present invention will be described first.

When using the present invention, the conveyor belt of the lower conveyor device 200 is adjusted to be moved at a feed speed of 0.1 to 0.3 m with respect to the plate glass thickness of 3 to 8 mm as in the prior art. The conveyor belt is made of a conventional wire mesh.

First, an adhesive is applied to the plate glass in a conventional manner, and the plate glass coated with the pigment is placed on the device 100 and transported by the conveyor toward the inside of the device 100. In this case, when the drying process is required for the plate glass, the temperature of the drying unit 1 may be adjusted by the heating wire 9 so as to be about 120 to 200 ° C., or the heating wire of the primary heating unit 3 in the central portion of the apparatus 100. It is also possible to put the heat into the heat to reach the above temperature in the drying unit (1).

In this case, of course, what is necessary is just to be able to observe the temperature inside the drying part 1 from the outside. That is, it is good to set the temperature.

Then, when preheating is required, if the temperature in the preheating unit 2 is preheated to a preheating temperature, for example, about 300 to 500 ° C., the partition 10 outside the drying unit 2 is lowered and heat is applied to the heating wire in advance. If the heat from the supplied primary heating unit 3 is adjusted to the above temperature, it is not necessary to provide a heating wire in the upper portion. Here, the bulkhead can also be installed inward.

Then, when the plate glass is heated to fuse the pigment, when the temperature of the heating unit 3 is 580 to 600 ° C. and heat is supplied, the plate glass receives heat, and the plate glass pigment is fused to the plate glass.

Then, when slowly cooling, the temperature of the primary slow cooling unit 4 is, for example, 450 to 550 ° C., when the secondary heating is required to give ductility in order to slow cooling and to facilitate post-processing again. It is subjected to reheating at 580 ° C, at which time the unfused pigment is completely fused.

In case of slow cooling again, the secondary slow cooling unit 6 is cooled to about 300 to 400 ° C. and then cooled naturally. Here, the temperature may be adjusted by an external temperature sensor through the partition 10 of the secondary heating unit 5 outside or inside.

The partition wall in the above may be, for example, in the form of a two-stage or three-stage to be pulled up step by step from the outside through the guide groove or rail.

Of course, when the heat in each part is overheated, the heat may be discharged to the outside by the damper which is the overheat prevention part 7 of the upper portion. By using the apparatus of the present invention as described above, the plate glass does not undergo rapid heating and quenching while undergoing heating, reheating, and slow cooling, thereby making it ductile, which can be advantageous for post-processing of decorative plate glass. Here, for even distribution of the temperature of each part, the heat can be sent to the corner of the furnace through the internal heat circulation device 8 of the upper part to the guide tube 8-1.

That is, even if the internal fan operated by the motor of the heat circulation device 8 absorbs the internal heat and supplies heat to the necessary parts of the device with the quartz tube 8-1 having a large number of holes installed outside the fan, The heat can be used efficiently.

This heat circulation device is particularly effective when giving a decoration to the plate glass divided into several pieces can supply heat to the outer portion of the plate glass placed on both sides of the device 100 can prevent the warping phenomenon of the plate glass. The heat circulation device is installed above the upper part of the movable partition wall 10.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

1 is a schematic view of the apparatus of the present invention,

FIG. 2 is a diagram illustrating an example of the partition wall of FIG. 1.

Claims (2)

A device installed at the upper part operated by a conveyor, which can dry, preheat, heat, and slow cool the input plate glass, and at least two hot wires are arranged at the upper part, and a bulkhead is movable at both ends and two inner parts. Is installed, the upper plate in the decorative plate glass manufacturing apparatus, characterized in that the damper for preventing overheating, and the internal heat circulation device is installed. According to claim 1, wherein the partition wall is formed in two or more stages, and the internal heat circulation device is a quartz tube having a plurality of holes to suck the heat near the high heat to the outside of high heat with a fan operated by a motor; Decorative plate glass manufacturing apparatus characterized in that connected.

Images