KR20110112503A - Apparatus for glasstempering thereof - Google Patents

Abstract

The present invention relates to a plate glass reinforcing device, and more specifically, the supply unit (B) for preparing to heat-treat a plurality of plate glass mounted on the transfer frame (A); A low temperature heating part (C) provided with a traction device (C1) for pulling the transport frame (A) in the upper part, and having an entrance and exit for towing the transport frame (A) in the lower part; A guide rail (D) for guiding a horizontal movement of the low temperature heating part (C) by a driving means; A high temperature heating part (E) for forming a doorway at an upper part for inputting the transfer frame (A) to heat the plate glass introduced therein to a predetermined temperature; An opening / closing door (F) moving in a horizontal direction along the guide rail (D) to open and close the entrance and exit of the low temperature heating part (C) and the high temperature heating part (E); A washing unit (G) which immerses the heated plate glass and simultaneously performs cooling and washing; In the plate glass reinforcement device consisting of a discharge portion (H) for discharging the final transfer frame (A) mounted on the plate glass after the heat treatment,
The discharge part (H), the washing part (G), the supply part (B) and the high temperature heating part (E) are sequentially arranged in one layer to form a production line of one layer, and the production line is heated at a high temperature. It is formed symmetrically with respect to the portion (E), the symmetrical high temperature heating portion (E) is in close contact with each other, the bottom of the half point based on the height of the side wall is installed in the ground, A guide J is installed on the guide rails D installed in the longitudinal direction along a line arrangement, and the screw is rotated on the guide block J1 moving along the guide J by the rotation of the screw shaft K. Combines the ball screw nut (I) horizontally moved in the longitudinal direction of the shaft (K) integrally, the upper portion of the ball screw nut (I) by screwing to both sides of the low temperature heating portion (C), space utilization There is an advantage to improve performance and energy efficiency.

Description

Plate glass reinforcing device {Apparatus for Glasstempering}

The present invention relates to a plate glass reinforcing device, and more particularly, to a plate glass reinforcing device to improve space utilization, energy efficiency and productivity by arranging a large structure constituted by processes in order to heat-treat the plate glass in a symmetrical structure.

In general, when a glass is pulled, pushed or twisted hard enough, it is bent or stretched, so it is classified as an elastic body. It is not because the glass is bent or stretched, but when the force that causes the warp or stretch is removed, as most materials do. This is because the glass returns to its original form.

Although this property of glass causes the glass to be classified as an elastomer, the strength of glass is very important because the glass breaks if the force increases and the force reaches the maximum strength of the glass. It only receives a small amount but depends heavily on the surface conditions.

Therefore, commercially used flat glass products need to further strengthen the glass strength in order to be utilized for various purposes. Thus, in order to enhance the strength of the glass, there are methods by heat treatment and chemical treatment.

Among them, the method of strengthening the plate glass by heat treatment causes a large temperature difference between the surface and the inside of the glass due to the low thermal conductivity when the plate glass is heated to almost below its weight and then quenched suddenly.

However, since the initial temperature of cooling is very high and the glass remains viscoelastic, thermal stress due to temperature difference can be neglected by rapid stress relaxation. However, during cooling, the internal temperature Ti of the glass is higher than the surface temperature Ts, and the inside of the glass shrinks by (Ti-Tr) (where Tr is room temperature), but the surface of the glass shrinks by (Ts-Tr). As the temperature gradient between the interior and the surface decreases and eventually disappears, the interior of the pane shrinks considerably more than the surface, resulting in a compressive force on the surface and an internal tension under the tensile strength. Will be.

Therefore, in order to construct a plate glass reinforcement device, a low temperature heating part for preheating the plate glass, a high temperature heating part for heating the plate glass to a high temperature, and a low temperature heating plate for gradually cooling the high temperature heated plate glass before heating the plate glass at high temperature for efficient heating of the plate glass. Low temperature heating section is required.

In addition, in order to quench the heated plate glass, a washing unit having a water tank capable of completely submerging the plate glass and a drying unit for drying the washed plate glass are required. In order to achieve high productivity while performing various processes, At the same time, it is necessary to arrange the structures according to the processes and to arrange the structures according to the processes.

Therefore, in the past, it was common to arrange each structure of the plate glass reinforcing device in a row in a factory, but when the series of production lines are configured for mass production, the efficiency of work is not only reduced in the construction of the production line. There is a problem in that the risk of a safety accident increases as many structures having a high risk of a safety accident such as a high temperature heating part are installed.

In addition, conventionally, in order to transfer several sheets at a time, a plurality of plate glass is mainly mounted on a plate glass transfer frame, and then a transfer frame is installed by using a traction device installed on a moving trolley which moves along a rail installed at the upper part of a factory. Star will be transported.

However, when the transfer frame equipped with a plurality of plate glass is transferred using a moving cart, vibrations are generated by dust or various foreign substances on the rail in the process of moving the moving cart along the rail in the horizontal direction. It is easily transmitted to the plate glass through the plate glass transfer frame, and the plate glass is shocked by vibration.

The impact caused by vibration causes plate glass damage such as cracking of the plate glass or broken edges. Consequently, productivity is lowered due to an increase in defect rate of the plate glass during heat treatment of the plate glass using a plate glass reinforcing device. There was a problem to be raised.

Therefore, there is an urgent need for a device that can lower the defect rate of the plate glass by minimizing the occurrence of vibration in the process of transferring the transfer frame mounted on the plate glass in the plate glass reinforcement device.

The present invention has been made to solve the above conventional problems, the object of the present invention is to arrange the structure of each process constituting the plate glass reinforcing device in a symmetrical structure to improve space utilization and energy efficiency and productivity It is to provide a glass pane strengthening device.

In addition, another object of the present invention is to minimize the transport distance of the plate glass in the process of performing the entire process for heat treatment of the plate glass to prevent damage to the plate glass.

In order to achieve the above object, the present invention provides a supply unit (B) for preparing a heat treatment a plurality of plate glass mounted on the transfer frame (A); A low temperature heating part (C) provided with a traction device (C1) for pulling the transport frame (A) in the upper part, and having an entrance and exit for towing the transport frame (A) in the lower part; A guide rail (D) for guiding a horizontal movement of the low temperature heating part (C) by a driving means; A high temperature heating part (E) for forming a doorway at an upper part for inputting the transfer frame (A) to heat the plate glass introduced therein to a predetermined temperature; An opening / closing door (F) moving in a horizontal direction along the guide rail (D) to open and close the entrance and exit of the low temperature heating part (C) and the high temperature heating part (E); A washing unit (G) which immerses the heated plate glass and simultaneously performs cooling and washing; In the plate glass reinforcement device consisting of a discharge portion (H) for discharging the final transfer frame (A) mounted on the plate glass after the heat treatment,

The discharge unit (H), the washing unit (G), the supply unit (B) and the high temperature heating unit (E) are sequentially arranged in one layer on the first floor to constitute a production line,

The production line is symmetrically formed on the basis of the high temperature heating unit (E), but the high temperature heating unit (E), which is symmetrical, adheres to the outer wall and is buried in the ground at a half point below the height of the side wall. ,

A guide (J) is installed on the upper guide rail (D), which is installed in the longitudinal direction along the first row, and a screw shaft (K) is provided on the upper part of the guide block (J1) moving along the guide (J). The ball screw nut (I) horizontally moved in the longitudinal direction of the screw shaft (K) by the rotation of the integrally coupled, the upper portion of the ball screw nut (I) is coupled to the lower end of both sides of the low temperature heating portion (C) Configuration.

On the other hand, at the lower end of the traction device (C1) includes forming a detachable portion (C2) symmetrically installed on both sides of the cylinder (C3) so that the cylinder rod is discharged outward.

The present invention not only improves space utilization by efficiently arranging a large number of large structures constituting the plate glass reinforcing device, but also integrates the high temperature heating parts of a plurality of production lines in a single location and simultaneously embeds the lower part of the high temperature heating part. In addition to the efficient operation of the high temperature heating unit there is an advantage to improve the energy efficiency by suppressing the loss of thermal energy.

In addition, there is an advantage that can reduce the damage of the plate glass due to the vibration shock generated during the plate glass transfer process to lower the defective rate, and improve the productivity.

1 is a side cross-sectional view according to a preferred embodiment of the present invention
2 is a front cross-sectional view according to a preferred embodiment of the present invention
Figure 3 is a side view showing a low temperature heating unit moving apparatus according to a preferred embodiment of the present invention
Figure 4 is a side view showing an opening and closing door moving device according to a preferred embodiment of the present invention.

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

It should be noted that the same elements in the accompanying drawings use the same reference numerals in any of the drawings possible, it is to be noted that the detailed description of known functions or known configurations that may unnecessarily obscure the subject matter of the present invention has been omitted. It is.

First, Figure 1 is a side cross-sectional view showing a configuration according to a preferred embodiment of the present invention as shown in the drawing the present invention is a supply unit for preparing for heat treatment a plurality of plate glass mounted on the transfer frame (A) (B), the low-temperature heating unit (C) is provided with a traction device (C1) for towing the transport frame (A) in the upper portion and the entrance for the towing of the transport frame (A) in the lower portion, and the drive means Guide rails (D) for guiding the horizontal movement of the low temperature heating unit (C), and a high temperature heating unit (E) for heating the plate glass introduced therein by forming an entrance to an upper portion for input of the transfer frame (A) to a set temperature. ), An opening / closing door (F) moving horizontally along the guide rail (D) to open and close the entrance and exit of the low temperature heating part (C) and the high temperature heating part (E), and the heated plate glass by immersing the cooling and Washing unit (G) to perform the washing at the same time, heat treatment It consists of a transport frame (A) through a finished plate glass to the discharging section (H) to the discharge end.

At this time, the high temperature heating portion (E) is composed of a box-shaped opening formed in the upper portion, it will be preferable to heat-insulate the walls and the bottom surface of the four sides for effective heat treatment and heat insulation.

In addition, a heating means is installed on the inner wall, which is a heating means capable of heating above 500 ° C., which is a temperature required for heat treatment of the plate glass, which has excellent energy efficiency, and does not generate flame or wind. Even if it is okay to know in advance.

Meanwhile, the discharge part (H), the washing part (G), the supply part (B), and the high temperature heating part (E) are sequentially arranged in a single layer to form a production line of one layer, but the production line is hot While forming the symmetrical with respect to the heating unit (E) to close the outer wall of the symmetrical high temperature heating unit (E) close to each other and at the same time buried 1/2 point below the ground based on the height of the side wall of the high temperature heating unit (E) Will be installed.

Therefore, since the outer walls of the two high temperature heating parts E, which are heated up to 500 ° C. for heat treatment of the plate glass, are in close contact with each other, various devices necessary for the electrical wiring or energy supply provided for constituting the respective high temperature heating parts E are provided. The arrangement of can be made efficiently.

In addition, since one outer wall of the two high temperature heating parts (E) is in close contact with each other, heat loss generated when the outer wall of the high temperature heating part (E) comes into contact with the outside air during the heating process inside the high temperature heating part (E) may be reduced. This can increase energy efficiency.

On the other hand, as shown in Figures 2 to 3 attached to the upper guide rail (D) is installed in the longitudinal direction along the line arrangement of the production line in the upper part of the production line, the guide (J), the guide The ball screw nut (I) horizontally moved in the longitudinal direction of the screw shaft (K) by the rotation of the screw shaft (K) integrally coupled to the upper portion of the guide block (J1) moving along the (J), the ball screw The upper portion of the nut (I) is coupled to both lower ends of the low temperature heating unit (C).

Thus, by rotating the screw shaft (K) forward and reverse with the reduction motor (M) device, the ball screw nut (I) moves back and forth along the rotational direction of the screw shaft (K) while moving the low temperature heating part (C) to the screw shaft. It is possible to move along the longitudinal direction of (K), because the ball screw nut (I) is moved along the rotating screw shaft (K), the movement process of the low-temperature heating unit (C) by the ball screw nut (I) This will minimize vibrations and shocks that occur in the system.

In addition, the low temperature heating unit (C) is provided with a heating means on the inner wall like the high temperature heating unit (E), the heating temperature during the low temperature heating is about 250 ~ 400 ℃ excellent energy efficiency as a suitable heating means for this, If the flame or wind does not occur, any kind of heating means can be used in advance.

On the other hand, Figure 4 shows the opening and closing door (F) to move along the guide rail (D) installed in the longitudinal direction along the line arrangement of the first floor production line, the wheels (F1) on both sides to install the rail Accordingly, the doors of the high temperature heating unit E and the low temperature heating unit C can be selectively opened and closed while moving in the horizontal direction. The operation of the opening and closing door F can be performed quickly and accurately in the cylinder C3. It would be desirable to use (F2).

In addition, in order to prevent heat loss during heating of the plate glass by the heating means operating inside the high temperature heating unit (E) and the low temperature heating unit (C), it is preferable that the opening / closing door (F) is also insulated. something to do.

When the heat treatment process of the plate glass according to the present invention configured as described above in sequence.

First, when the moving cart loaded with the transfer frame A mounted on a plurality of plate glass is introduced into the supply unit B, the transfer frame A is vertically pulled by using the traction device C1 of the low temperature heating unit C. It is located inside the low temperature heating unit (C).

A cylinder C3 discharged outward from the detachable part C2 is formed at the lower end of the towing device C1 by forming a detachable part C2 symmetrically installed on both sides such that the cylinder rod is discharged outward. Is injected into the lower portion of the mounting portion (A1) protruding to the upper portion of the feed frame (A), it is possible to lift the feed frame (A) by the cylinder rod of the cylinder (C3).

Therefore, in order to ensure stable traction, the transport frame A is provided with mounting portions A1 horizontally on both sides, and the cylinders C3 installed on the detachable portion C2 are provided with four cylinders C3, one pair on one side. By doing so, the transport frame A can be towed most stably.

When the traction of the transfer frame (A) by the traction device (C1) as described above is completed, the opening and closing door (F) moving along the rail is moved toward the doorway of the low temperature heating unit (C) of the low temperature heating unit (C) After closing the entrance and exit the plate glass mounted on the transfer frame (A) by using a heating means installed in the low temperature heating unit (C), preheating conditions are heated for 20 minutes at a temperature of 250 ℃.

Thus, when the plate glass preheating is completed in the low temperature heating unit (C), the low temperature heating unit (C) is horizontally moved along the guide (J) and positioned at the top of the high temperature heating unit (E), and heated at a temperature of 200 ° C. for 20 minutes. The transport frame (A) is vertically lowered using the traction device (C1) to seat the transport frame (A) inside the high temperature heating unit (E).

Subsequently, the opening / closing door (F) is moved back to the entrance of the high temperature heating unit (E) to close the entrance of the high temperature heating unit (E), and then heats the glass plate using the heating means installed inside the high temperature heating unit (E). Is heated for 50 to 60 minutes at a temperature of 400 ~ 500 ℃.

When the heating is completed in the high temperature heating unit (E) as described above, the opening and closing door (F) moves toward the washing unit (G) and at the same time the low temperature heating unit (C) moves to the upper portion of the high temperature heating unit (E) and then the traction device ( The hook is lowered by using C1) to hang the feed frame A inside the high temperature heating unit E, thereby vertically pulling the inside of the low temperature heating unit C.

Thus, when the transfer frame (A) is located inside the low temperature heating unit (C), after cooling for 20 minutes at a temperature of 250 ° C., the low temperature heating unit (C) moves to the upper part of the washing unit (G), thereby cleaning the upper portion of the washing unit (G). The doorway of the low temperature heating unit (C) is closed by the opening and closing door (F) located in the.

When the entrance and exit of the low temperature heating unit (C) is closed, the plate glass is cooled slowly inside the low temperature heating unit (C). The slow cooling condition causes the plate glass to slowly cool for 200 to 220 minutes at a temperature of 90 ° C.

After the slow cooling is performed in the low temperature heating unit C as described above, the opening and closing door F blocking the entrance and exit of the low temperature heating unit C is moved to the discharge unit H, and the plate glass is mounted using the traction device C1. The lowered transfer frame (A) is to be submerged in the reservoir of the washing unit (G).

When the slow cooled plate glass is immersed in the water storage tank of the washing unit (G) and taken out, the washing of potassium nitrate or various foreign substances remaining on the surface of the plate glass is performed, but the immersion time is not limited.

When the cleaning is completed in the washing unit (G) as described above by using the traction device (C1) of the low temperature heating unit (C) located in the upper portion of the washing unit (G) to pull the transfer frame (A) vertically again to the low temperature heating unit ( C) The low temperature heating part (C) is moved to the upper part of the discharge part (H) after being placed inside. Since the opening and closing door (F) is located at the upper part of the discharge part (H), the low temperature heating part (C) is the discharge part. As it moves to the upper portion of the (H), the entrance and exit of the low temperature heating unit (C) is automatically closed.

Thus, when the entrance and exit of the low temperature heating unit (C) is closed, the plate glass in the interior of the low temperature heating unit (C) is heated using a heating means installed inside the low temperature heating unit (C) to clean the plate in the cleaning unit (G). It completely removes the moisture on the surface.

When the water removal is completed in the low temperature heating unit (C) as described above, the opening and closing door (F) blocking the entrance and exit of the low temperature heating unit (C) moves toward the low temperature heating unit (C) to tow another transfer frame (A) inside Block the entrance and exit of the low temperature heating unit (C) located in the outlet, and the discharge unit (H) located below the low temperature heating unit (C) by using the traction device (C1) of the low temperature heating unit (C). By vertically lowering the furnace to be loaded again on the mobile cart located in the discharge unit (H) and then the product is taken out to the factory to take the heat treatment is completed for the plate glass.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

A: feed frame B: supply part
C: Low temperature heating part C1: Traction device
C2: detachable part C3: cylinder
D: Guide rail E: High temperature heating part
F: opening and closing door F1: wheels
G: Cleaning part H: Outlet part
I: Ball screw nut J: Guide
J1: Guide Block K: Screw Shaft
M: motor

Claims (2)

A supply unit (B) for preparing a plurality of plate glass mounted on the transfer frame (A); A low temperature heating part (C) provided with a traction device (C1) for pulling the transport frame (A) in the upper part, and having an entrance and exit for towing the transport frame (A) in the lower part; A guide rail (D) for guiding a horizontal movement of the low temperature heating part (C) by a driving means; A high temperature heating part (E) for forming a doorway at an upper part for inputting the transfer frame (A) to heat the plate glass introduced therein to a predetermined temperature; An opening / closing door (F) moving in a horizontal direction along the guide rail (D) to open and close the entrance and exit of the low temperature heating part (C) and the high temperature heating part (E); A washing unit (G) which immerses the heated plate glass and simultaneously performs cooling and washing; In the plate glass reinforcement device consisting of a discharge portion (H) for discharging the final transfer frame (A) mounted on the plate glass after the heat treatment,
The discharge part (H), the washing part (G), the supply part (B) and the high temperature heating part (E) are sequentially arranged in one layer to form a production line of one layer, and the production line is heated at a high temperature. It is formed symmetrically with respect to the part (E), the symmetrical high temperature heating unit (E) is in close contact with each other, and installed in the ground half point below the ground based on the height of the side wall,
A guide (J) is installed on the upper guide rail (D), which is installed in the longitudinal direction along the first row, and a screw shaft (K) is provided on the upper part of the guide block (J1) moving along the guide (J). The ball screw nut (I) horizontally moved in the longitudinal direction of the screw shaft (K) by the rotation of the integrally coupled, the upper portion of the ball screw nut (I) is coupled to the lower end of both sides of the low temperature heating portion (C) Plate glass reinforcement in construction. The plate glass reinforcement apparatus of claim 1, wherein the lower end of the towing device C1 includes a detachable part C2 symmetrically installed on both sides of the cylinder rod to be discharged outward.

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