KR100866844B1 - Heat treat apparatus for tempering a thin glass - Google Patents

Abstract

A thin glass strengthening heating treatment apparatus is provided to perform each process stably and smoothly in processes where automatically perform thermal processes for case-hardening of the thin glass and to improve quality and productivity. A preheating furnace(20) performs a heating function by using a ventilation jointly. A main body(30) has a refractory barrier structure and performs indirect heating. A cooled reactor(40) has a heat insulating wall structure and maintains cooling by using a ventilation jointly. A rail(60) is in parallel installed on the preheating furnace, the main body and the cooled reactor, and has a rack(62) on one side. The first room(73) contains a support roller and a running wheel, is opened and closed and does not have a heater. The second room(74) has a heater. The carriage car(70) comprises the first room and the second room.

Description

Heat Treat apparatus for tempering a thin glass

The present invention relates to a thin glass reinforcement heat treatment apparatus, and more specifically, thin glass that can improve the quality and productivity by inducing a stable and smooth flow between processes in the process of automatically performing the heat treatment for the surface hardening of the thin glass It relates to a reinforced heat treatment apparatus.

In general, tempered glass used in a PC or a mobile phone has a thin plate-like property that generates less scratches and has excellent light transmittance. However, in order to maintain these characteristics, it is necessary to undergo surface hardening heat treatment, and it is also urgent to secure mass production quality and productivity based on automated facilities.

For example, according to Korean Registered Utility Model No. 0432508, the overall configuration conveyed by the mobile unit is automatically strengthened after passing through the preheating furnace, the salt bath, the slow cooling furnace, the hot water furnace, the hydrothermal furnace and the drying furnace by the transfer unit. Disclosed is an apparatus for manufacturing tempered glass for display windows, which can produce tempered glass having a certain strength, thickness, and transmittance of glass.

However, according to this method, if the periphery is thermally expanded due to the heat of hot tempered glass in the process of passing through the preheating furnace and the salt bath, the transfer phenomenon is easily delayed, and accordingly, the heat treatment temperature is outside the set range. This will eventually affect the quality.

Literature Information of the Prior Art

[Document 1] Korean Utility Model Registration No. 0432508 “Manufacturer of Tempered Glass for Display Window”

Accordingly, the present invention is to fundamentally solve the conventional problems as described above, inducing a stable and smooth flow between processes in the process of automatically performing heat treatment for the surface hardening of the thin glass can improve the quality and productivity It is an object of the present invention to provide a thin glass reinforced heat treatment apparatus.

In order to achieve the above object, the present invention is a device for preheating, heating, cooling and heat-treating thin glass in a sequential process: a heat-insulating wall structure that can be opened and closed upward, and a preheating furnace performing a heating function in combination with a blower; A main body having a plurality of fireproof wall structures which can be opened and closed to an upper side, and which performs indirect heating on at least one side; A cooling furnace having a plurality of heat insulation wall structures that can be opened and closed upwards, and maintaining cooling by using a blower together; A rail installed in parallel to the preheating furnace, the main body, and the cooling furnace, and having a rack on at least one side; And a conveyance trolley installed on the rail so as to be able to travel through a support roller and a driving wheel, and having a first chamber without a heater and a second chamber with a heater. It is done.

In addition, the preheating furnace according to the present invention is characterized in that the pipe heater and the far-infrared heater are alternately provided and the temperature is controlled using a blower.

In addition, the main body according to the invention is characterized in that it comprises a strip heater to the lower side of the container for indirect heating.

In addition, the cooling furnace according to the present invention is characterized by comprising a plurality of blowers in a slow cooling furnace, a hot plate heater in a hot water furnace, and a nozzle and a hot plate heater in a cold water furnace.

In addition, the transport cart according to the present invention has a LM guide for cooling as a hollow structure, the LM guide receives the coolant with a coolant pump and a rotary joint, and moves the rack up and down using an elastically supported wire It is characterized by.

In addition, as a first modification according to the present invention, the transport cart is characterized by moving the rack up and down using a chain.

In addition, as a second modification according to the present invention, the transfer cart is characterized in that for moving the rack up and down using the extractor.

On the other hand, the terms or words used in the present specification and claims are not to be construed as limiting the ordinary or dictionary meanings, the inventors should use the concept of the term in order to explain the invention in the best way. Based on the principle that it can be properly defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various alternatives may be substituted at the time of the present application. It should be understood that there may be equivalents and variations.

As described in the above configuration and operation, the present invention provides an effect of improving the quality and productivity by inducing a stable and smooth flow between processes in the process of automatically performing heat treatment for the surface hardening of the thin glass.

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

1 is a front configuration diagram showing a heat treatment apparatus according to the present invention as a whole, Figure 2 is a side cross-sectional view of the preheating furnace according to the present invention and a plan view thereof, Figure 3 is a side cross-sectional view of the main body according to the present invention and a plan view thereof, 4 is a side cross-sectional view and a plan view thereof according to the present invention, FIG. 5 is a side cross-sectional view and a plan view thereof according to the present invention, and FIG. 6 is a side cross-sectional view and a plan view thereof according to the present invention. to be.

The present invention relates to an apparatus for preheating, heating, cooling and heat-treating thin glass in a sequential process. A plurality of thin glass is loaded on the rack 75 to be described later and transferred to the conveyor 10, and after a predetermined heat treatment, the thin glass is transferred to the next process using the conveyor 10 again.

According to the present invention, a preheating furnace 20 having a heat insulating wall structure that can be opened and closed upward is provided to perform a heating function by using a blower together. The preheating furnace 20 has a box-shaped structure with an open top, and a door 21 and a cylinder 22 are installed at the top. The preheating furnace 20 is alternately provided with a pipe heater 24 and a far infrared heater 25, it characterized in that the temperature is controlled by using a blower (27). The preheating furnace 20 is a place where heat treatment is performed at 400 ° C. for about 1 hour, when the pipe heater 24 and the far infrared heater 25 are alternately arranged, resulting in a uniform temperature maintenance. Of course, for precise control, a temperature sensor (not shown) is installed inside the preheating furnace 20, and if the temperature exceeds a set value, the air flow of the blower 27 is increased, and if the temperature is short, the air flow of the blower 27 is reduced.

Further, according to the present invention, the main body 30 of the plurality of fireproof wall structures which can be opened and closed upward is installed to perform indirect heating on at least one side. The main body 30 is preferably composed of three stages as shown, but is not limited thereto, and is heated to a temperature of up to 700 ° C. to strengthen potassium nitrate (KNO ₃ ) ions, followed by about 4 hours at about 450 ° C. to dissolve potassium nitrate. Indirect heating

At this time, the main body 30 is characterized in that it comprises a strip heater 36 to the lower side of the container 33 for indirect heating. In the main body path 30 of the structure laminated | stacked using the firebrick, it is suitable to install the strip heater 36 in the bottom surface. The stainless steel container 33 is installed inside the main body 30 for the indirect heating described above. Of course, the main body 30 is also provided with a door 31 and a cylinder 32 at the top thereof to be opened and closed.

Moreover, according to this invention, the cooling path 40 of the several heat insulation wall structure which can be opened and closed upwards is installed so that cooling may be used together with a ventilation. The cooling furnace 40 is composed of a slow cooling furnace 42, a hot water passage 44, and a cold water passage 46, all of which have a box-shaped structure with an open top, and have a door 51 and a cylinder 52 at the top. . The cooling furnace 40 of the present invention includes a plurality of blowers 57 in the slow cooling furnace 42, and hot plate heaters 56 and 56 ′ in the hot water passage 44 and the cold water passage 46. It is characterized by. Although the slow cooling furnace 42 is equipped with the general pipe heater 54, compared with another process, it is good to install the blower 57 enough (plurally). The hot plate heaters 56 and 56 ′ are installed in the hot water path 44 and the cold water path 46, respectively, and are suitable for maintaining a constant temperature at a relatively low temperature compared to the previous process. The cold water passage 46 is provided with a nozzle 47 to wash potassium nitrate (KNO ₃ ) remaining on the surface of the product.

In addition, according to the present invention, the rail 60 having the rack 62 on at least one side is provided in parallel on the preheating furnace 20, the main body furnace 30, and the cooling furnace 40. The rails 60 are installed in pairs spaced apart from the upper side of the preheating furnace 20, the main body furnace 30, and the cooling furnace 40, but the transfer racks 62 may be provided only on one rail 60. .

In addition, according to the present invention, a transport roller 70 having a first chamber 73 without a heater and a second chamber 74 with a heater, which is openable to a lower side and integrally provided with a support roller, is supported on the rail 60. It is provided so that running is possible through the 61 and the running wheel 63. FIG. The transport cart 70 has a box shape having an open lower surface and has a door 71 and a cylinder 72 on the lower surface, and moves on the rail 60 to load / unload products up and down. Although the 1st chamber 73 and the 2nd chamber 74 of the conveyance trolley 70 normally move integrally, you may comprise so that it may move separately. The second chamber 74 is configured using a suitable heat insulating material, and a general pipe heater is used as the heater.

A pair of support rollers 61 are supported on one side of the rail 60 to minimize contact with the side, and the other rail 60 runs in a state in which a plurality of traveling wheels 63 are in contact with the upper surface. The rack 62 is provided adjacent to the cylinder 63 (see enlarged view of FIG. 8C). The driving motor 66 transmits rotational force to the electric gear 68 via the double chain 64, and the rack 62. The travel of the feed cart 70 is realized by the rotation of the electric gear 68 engaged with the. In this manner, the electric gear 68 means a pinion gear that meshes with the rack 62. That is, the driving force of the driving motor 66 is a rotational force is transmitted to the electric gear 68 by the chain 64, the rotational force is transmitted to the rack 62 meshed with the electric gear 68, and the support roller 61 is driven. ) And the traveling wheel 63 rotates on one rail 60 and the other rail 60 to travel.

Figure 7 is a block diagram showing the heat treatment apparatus according to the present invention from the side, Figure 8 is a block diagram showing the transport cart according to the present invention in a plane, front, side view.

The transport cart 70 of the present invention has a LM guide 82 for cooling as a hollow structure, the LM guide 82 receives the coolant to the coolant pump 86 and the rotary joint 88. A plurality of LM guides 82 for guiding the up and down movement to the side of the feed cart 70 is installed. The LM guide 82 of the present invention is formed in a hollow structure and connected to the cooling water pump 86 via the rotary joint 88. The guide 84 is installed on the LM guide 82 to stably support the rack 75. Since the coolant is circulated inside the LM guide 82, thermal expansion is alleviated during operation of the guide 84 and smooth operation is ensured.

As shown in FIG. 7 and FIG. 8B, the rack 75 of the feed cart 70 can be configured to move up and down by connecting to the lifting motor 76 using the wire 92. In supporting the load of the rack 75 with the wire 92, the buffer spring 94 is interposed in the middle portion to minimize the vibration generated during transportation. The LM guide 82 and the wire 92 can be installed independently or in combination.

9 is a configuration diagram showing a first modification of the transport cart according to the present invention, and FIG. 10 is a configuration diagram showing a second modification of the transport cart according to the present invention.

In FIG. 9, the rack 75 of the feed cart 70 may be connected to the lifting motor 76 via the chain 96. When the chain 96 is used, the buffer spring 94 is not used because it is advantageous in terms of strength and heat resistance than the wire 92 described above.

In FIG. 10, the transfer cart 70 may also be configured to move the rack 75 up and down using the extractor 98. The extractor 98 is detachably connected to the rack 75 via a wire and a hook 77. Although the pneumatic cylinder is good as the extractor 98, a lead screw may be used.

In the main operation, when the thin glass product to be heat-treated is conveyed by the conveyor 10 while being loaded on the rack 75, the door 71 of the transport cart 70 is opened and the first chamber 73 is lifted and lowered. The motor 76 operates to pull up the rack 75. Thereafter, the transfer truck 70 transfers a process along the rail 60, opens the door 71 of the first chamber 73 in the preheating furnace 20, and lowers the rack 75 while simultaneously adjoining the second chamber. The 74 and the main body 30 are opened and the other rack 75 which has been heat-treated is lifted. Of course, since the same temperature condition is already met by the heater 78 before the rack 75 is accommodated in the second chamber 74, the thin glass product is not subjected to unnecessary heat fluctuations.

According to such a structure of this invention, it moves from the preheating furnace 20 to the slow cooling furnace 42 of the cooling furnace 40 using the heater-mounted 2nd chamber 74, and the hot water path 44 of the cooling furnace 40 is carried out. ) And the cold water passage 46 are moved using the heater-free first chamber 73.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1 is a front configuration diagram showing the heat treatment apparatus according to the present invention as a whole;

2 is a side cross-sectional view of the preheating furnace according to the present invention and a plan view thereof;

3 is a side cross-sectional view of the main body according to the present invention and a plan view thereof;

Figure 4 is a side cross-sectional view of the slow cooling furnace according to the present invention,

5 is a side cross-sectional view of the hot water furnace according to the present invention and a plan view thereof;

Figure 6 is a side cross-sectional view of the cold water passage according to the present invention,

7 is a block diagram showing a heat treatment apparatus according to the present invention from the side,

8 is a configuration diagram showing the transport cart according to the present invention in a plane, front, side view,

9 is a configuration diagram showing a first modification of the transport cart according to the present invention;

10 is a configuration diagram showing a second modification of the transport cart according to the present invention.

Explanation of symbols on the main parts of the drawings

10: conveyor 20: preheating furnace

30: main body 33: container

40: cooling furnace 42: slow cooling furnace

44: hot water furnace 46: cold water furnace

47: nozzle 60: rail

66: drive motor 70: feed cart

73: room 1 74: room 2

75: rack 76: lifting motor

82: LM Guide 86: Coolant Pump

92: wire 96: chain

98: extractor

Claims (7)

In an apparatus for preheating, heating and cooling thin glass by heat in a sequential process: A preheating furnace 20 which is a heat insulating wall structure which can be opened and closed upward, and performs a heating function by using a blower together; A main body 30 having a plurality of fireproof wall structures which can be opened and closed upward, and which performs indirect heating on at least one side; A cooling furnace 40 having a plurality of heat insulation wall structures that can be opened and closed upward, and maintaining cooling by using a blower together; A rail (60) installed in parallel on the preheating furnace (20), the main body furnace (30), and the cooling furnace (40) and having a rack (62) on at least one side; And The first chamber (73) without the heater and the second chamber (74) which is installed to be capable of traveling on the rail (60) via the support roller (61) and the driving wheel (63), and which can be opened and closed downward. Thin plate glass reinforced heat treatment apparatus comprising a ;; The method of claim 1, The preheating furnace 20 is provided with a pipe heater 24 and a far-infrared heater 25 alternately and thin glass glass reinforced heat treatment apparatus, characterized in that for controlling the temperature using the blower (27). The method of claim 1, The main body 30 is a thin plate glass reinforced heat treatment apparatus, characterized in that provided with a strip heater 36 to the lower side of the container 33 for indirect heating. The method of claim 1, The cooling furnace 40 includes a plurality of blowers 57 in the slow cooling furnace 42, a hot plate heater 56 in the hot water passage 44, a nozzle 47 and a hot plate in the cold water passage 46. Thin glass reinforcement heat treatment apparatus comprising a heater (56 '). The method of claim 1, The transfer cart 70 has a LM guide 82 for cooling as a hollow structure, the LM guide 82 is supplied with cooling water to the cooling water pump 86 and the rotary joint 88, and is elastically supported Thin glass reinforcement heat treatment apparatus, characterized in that for moving the rack (75) up and down using a wire (92). The method of claim 1, The transport cart 70 is a thin plate glass reinforced heat treatment apparatus, characterized in that for moving the rack (75) up and down using a chain (96). The method of claim 1, The transfer cart 70 is thin glass reinforcement heat treatment apparatus, characterized in that for moving the rack 75 up and down using the extractor (98).

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