TW201223902A - Continuous type glass steeling equipment - Google Patents

Abstract

A continuous type glass steeling equipment includes: a pre-heating furnace, a steeling furnace, a cooling furnace and a washing unit which are adjacently installed; a delivery unit installed on the top of said furnaces and the washing unit; and a lift unit located at two corresponding sides of the delivery unit and installed between said furnaces and the washing unit. By this way, a glass is carried out treatments of pre-heating, steeling, cooling and washing continuously and successively, thereby having advantages of low energy consumption, not idling equipment and high yield.

Description

201223902 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a tempering apparatus, and more particularly to a continuous glass tempering apparatus. [Prior Art] With the development of architectural design, people have higher requirements for architectural beauty and visual vision. Therefore, the proportion of glass in the surrounding structure of the building is also higher and higher. Due to the high degree of transparency of the glass, it is also widely used in the electronics, industrial and display industries. However, conventional glass has low impact strength and is easily broken, and the shattered glass forms sharp edges and sharp corners, and is liable to cause damage to the human body and other objects. Therefore, tempered glass (also known as safety glass) is now widely used in the construction industry and industry. Tempered glass generally uses ion exchange to change the composition of the surface of the glass. When cooling, it uses the different shrinking stress of the glass surface and the inner layer to create a strong stress between the inner and outer layers. Generally, the glass is several times (for example, 9-15 times). The glass must be preheated before tempering, and must be cooled and cleaned after tempering. Conventional glass tempering equipment is not continuously treated for preheating, tempering, cooling and cleaning. That is, the conventional glass tempering equipment usually performs preheating and cooling in the same processing furnace (ie, preheating/cooling furnace), and moves the preheating/cooling furnace or moves the tempering furnace. In the way, the glass 201223902 is preheated, tempered and cooled; after that, the glass is discharged and transferred to a separate cleaning furnace for cleaning. During the process in which the glass is mounted in a hanging blue and moved or transferred to the processing furnaces such as the preheating/cooling furnace and the tempering furnace, the hanging blue is suspended or suspended for movement or transfer. . However, the conventional glass tempering equipment has the following drawbacks in use: (1). It is troublesome and time-consuming to carry out the processing of the glass by moving each processing furnace; (2). For the tempering of glass And its pre-heating, cooling, and subsequent cleaning are not completed continuously, increasing the transfer process, slowing down the production speed, and easily causing defects in the product; (4). Processing furnaces For the dispersing setting and different processing time, it causes some processing furnaces to be idle, high energy consumption and low output; (4). In the process of glass suspension transfer, due to the sling swing, it is easy Causes the sway of the glass, which in turn causes damage between adjacent glass and damages, increasing the defective rate of the product. Due to the above reasons, the application of the conventional glass tempering equipment is not good. SUMMARY OF THE INVENTION In view of the above disadvantages of the conventional glass tempering apparatus, the object of the present invention is to provide a continuous glass tempering apparatus which is low in energy consumption, high in output, and stable in quality. In accordance with the above objects, an aspect of the present invention provides a continuous glass tempering apparatus comprising: a preheating furnace having a first end 201223902 and a second end; a tempering furnace having a first end and a second end, the first end of the tempering furnace is adjacent to the second end of the preheating furnace; a cooling furnace having a first end and a second end, the cooling furnace The first end is adjacent to the second end of the tempering furnace; a cleaning unit has a first end and a second end, and the first end of the cleaning unit is adjacent to the second end of the cooling furnace; Provided above the furnace and the cleaning unit; and a lifting unit located on opposite sides of the conveying unit and disposed between the furnace and the cleaning unit. According to this, the glass is continuously preheated, tempered, cooled, and cleaned, and the energy consumption is low, the equipment is not idle, and the output is high. According to an embodiment of the invention, the continuous glass tempering apparatus further comprises at least one carrier for accommodating the glass, the carrier being detachably mounted on the lifting unit or the conveying unit. The glass contained in the carrier is lifted up and down by the lifting unit with the carrier or translated by the conveying unit. According to an embodiment of the invention, the cleaning unit comprises an adjacent hot water cleaning furnace and an ultrasonic cleaning furnace for successively performing hot water cleaning and ultrasonic cleaning on the tempered cooled glass. According to an embodiment of the invention, the lifting unit has a plurality of elevators including: a first elevator located at the first end of the preheating furnace; and a second elevator located at the second end of the preheating furnace and the tempering furnace Between the first ends; a third elevator located between the second end of the tempering furnace and the first end of the cooling furnace; a fourth elevator located between the second end of the cooling furnace and the cleaning unit; The fifth elevator is located at the second end of the cleaning unit. Used to raise and lower the vehicle so that it is at the predetermined position. According to an embodiment of the invention, the conveying unit has a plurality of conveyor chains 201223902, comprising: a first conveyor chain disposed above the heating furnace; a second conveyor chain disposed above the tempering furnace; a third The conveyor chain is disposed above the cooling furnace; and a fourth conveyor chain is disposed above the ultrasonic cleaning furnace. It is used to disperse the weight of most carriers placed on the conveyor unit, and the speed of each conveyor chain can be adjusted separately to match the processing time of each furnace. According to an embodiment of the invention, the top surface of the carrier is laterally disposed with at least one spanning rod, the two ends of which protrude from the two sides of the carrier; each of the conveying chains has two parallel chain bodies, the top surfaces of which are equally spaced A plurality of straddles are provided; the carrier is located between the two chain bodies of the φ, and the straddles of the two chain bodies are spanned at both ends of the traverse, so that the carrier is translated and carried along with the conveyor chain. In accordance with an embodiment of the invention, the bottom of the end of the struts has a v-shaped bottom with a V-shaped top that matches the V-shaped bottom. The carrier is always in a stable state during the translational loading and does not shake. According to an embodiment of the present invention, each of the tops of the elevators has two parallel support rods, and each of the support rods is provided with at least one cross frame on each of the top surfaces; the carrier m is located between the two support rods and is spanned The two ends are placed across the span of the two support bars, so that the carrier moves up and down with the elevator. According to an embodiment of the invention, the bottom of the end of the cross-bar has a v-shaped bottom, and the top of the cross-frame has a V-shaped top that matches the V-shaped bottom. When the vehicle is lifted up and down, it is always in a stable state and does not shake. [Embodiment] 201223902 The foregoing and other technical contents, features and effects of the present invention will be clearly shown in the following detailed description of embodiments with reference to the drawings. FIGS. 1 to 6 are diagrams according to the present disclosure. A schematic top view, a side view, and an enlarged schematic view of a continuous glass tempering apparatus according to an embodiment of the invention. As shown in the figure, a continuous glass tempering apparatus according to an embodiment of the present invention includes a preheating furnace 100, a tempering furnace 200, a cooling furnace 300 and a cleaning unit 400 disposed adjacent to each other, and includes a The transport unit 500 and a lift unit 600, as well as a majority carrier 700. The carrier 700, for example, the basket houses a plurality of glass 800 to be tempered and other associated processing. The carrier 700 is detachably mounted on the lifting unit 600 or the conveying unit 500, so that the carrier 7 can be lifted up and down with the lifting unit 600 or translated as the conveying unit 500 translates. In order to enable the carrier 7 to be stably placed on the transport unit 500 and the elevating unit 600, the top surface of the carrier 700 is parallelly disposed with two spans Ή0, and the both ends 711 of the cross rod 710 ® protrude from the carrier 7 Both sides of the crucible, and the bottom of the end portion 711 has a V-shaped bottom portion 712; and the conveying unit 500 and the lifting unit 600 are provided with a structure corresponding to the V-shaped bottom portion 712, which will be described later. The preheating furnace 100 is a furnace body whose top surface is open, and is provided with a heat generating element and a temperature control device (not shown), and the temperature of the preheating furnace 100 can be set to preheat the glass 800. The preheating furnace 100 has a first end 110 and a second end 7 120 opposite to the flow direction of the processing of the glass 800. 201223902 The tempering furnace 200 is also a furnace body whose top surface is open, and a chemical agent is disposed therein for performing tempering treatment on the glass 800. The tempering furnace 2 has a first end 210 and a first end 220 according to a flow direction of the processing of the glass 800, wherein the first end 210 of the tempering furnace 200 is adjacent to the preheating furnace 100. Second end 120. The cooling furnace 300 is also a furnace body whose top surface is open, and is provided with a temperature control device (not shown), which can set the temperature of the cooling furnace 3 to cool the glass 800. The flow direction of the processing process has a first end 310 and a second end 320, wherein the first end 31 of the cooling furnace 300 is adjacent to the second end 220 of the tempering furnace 200. The cleaning unit 4 includes an adjacent hot water cleaning furnace 430 and an ultrasonic cleaning furnace 440, both of which are open top furnace bodies for successively performing hot water cleaning and ultrasonic cleaning on the glass 800. The cleaning unit 400 has a first end 410 and a second end 420 according to the flow direction of the processing of the glass 800. The hot water cleaning furnace 430 has the first end 410 adjacent to the cooling furnace. The second end 320 of the ultrasonic cleaning furnace 440 has the opposite second end 420. The conveying unit 500 has a plurality of conveying chains which are respectively disposed above the furnace body and the cleaning unit 4A. In practice, the plurality of conveyor chains include a first conveyor chain 510, a second conveyor chain 520, a third conveyor bar 530 and a fourth conveyor bar 540. Wherein the first conveyor key bar 510 is disposed above the preheating furnace 100, the second conveyor chain 520 is disposed above the tempering furnace 200, the third conveyor chain 530 is disposed above the cooling furnace 30〇, and the fourth conveyor chain 540 is disposed above the ultrasonic cleaning furnace 440. The majority of the transport 201223902 chain dispersible majority carrier 700 is placed on the weight of the transport unit 500, and the speed of each transport chain can be adjusted separately to match the processing time of each furnace. Each of the conveyor chains has two parallel chain bodies 511. The top surfaces of the two chain bodies are equally spaced with a plurality of lands 512 corresponding to the position of the cross-bar 710 of the carrier 700. The top of the slabs 512 has a cross-stalk 710. The V-shaped bottom 712 mates with a V-shaped top 513. The carrier 700 is located between the two chain bodies 511, and spans the two ends 711 of the cross-bar 710 across the slabs 512 of the two chain bodies 511, and is matched with the V-shaped bottom 712 and the V-shaped top 513. In order to stabilize the load, the position of 7〇0 is shifted to avoid shaking. The lifting unit 600 has a plurality of lifts, for example, scissor lifts that can be up and down, located on opposite sides of the transport unit 500, and disposed between the furnace body and the cleaning unit 400 for lifting the vehicle 700 to disengage or It is placed on the transport unit 500. In practice, the plurality of elevators include a first elevator 610, a second elevator 620, a third elevator 630, a fourth elevator 640 and a fifth elevator 650. The first elevator 610 is located at the first end 110 of the preheating furnace 100 for placing the load on the carrier 700 on the first conveyor chain 510 located above the preheating furnace 100; the second elevator 620 is located in the preheating furnace Between the second end 120 of the 100 and the first end 210 of the tempering furnace 200, the carrier 700 is detached from the first conveyor chain 510 and placed on the second conveyor chain 520 located above the tempering furnace 200; The three elevators 630 are located between the second end 220 of the tempering furnace 200 and the first end 310 of the cooling furnace 300 for detaching the carrier 700 from the second conveyor chain 520 and placing it on the third of the cooling furnace 300. a conveyor chain 530; a fourth elevator 640 is located between the second end 320 of the cooling furnace 300 and the cleaning unit 400 for detaching the vehicle 700 201223902 from the third conveyor chain 530 and re-immersing it in the hot water cleaning furnace 430 and reloading The fourth conveyor chain 540 is disposed above the ultrasonic cleaning furnace 440. The fifth elevator 650 is located at the second end 420 of the cleaning unit 400 for detaching the carrier 700 from the fourth conveyor chain 540 and then pushing the carrier. Car (not shown). Each of the tops of the elevators has two parallel support rods 611. The top surfaces of the two support rods are respectively provided with a cross frame 612 corresponding to the position of the cross rod 710 of the carrier 700. The top of the cross frame 612 has a cross rod 710. The V-shaped bottom 712 mates with a V-shaped top 613. The carrier 700 is located between the two support rods 611, and spans the two ends 711 of the cross rod 710 across the cross frame 612 of the two support rods 611, and the V-shaped bottom portion 712 and the V-shaped top portion 613 are matched with the two. To stabilize the position of the vehicle 700 when it is raised and lowered to avoid its shaking. According to an embodiment of the present invention, the continuous glass tempering apparatus has a processing process of: (1). First, a carrier 700 containing a plurality of glasses 800 is pushed to the lower side of the first elevator 610 by using a cart. The carrier 700 is raised and moved to the first end 110 of the preheating furnace 100 by the first elevator 610 and then lowered, * so that the carrier 700 is placed on the first conveyor chain 510; the first conveyor chain 510 will carry the carrier 700 The first end 110 of the preheating furnace 100 is transported to the second end 120 thereof, and during the conveying process, the preheating furnace 100 preheats the glass 800 accommodated by the carrier 700; The second elevator 620 raises and moves the carrier 700 to the first end 210 of the tempering furnace 200 and then descends, so that the carrier 700 is placed on the second conveyor chain 520; the second conveyor chain 520 tempers the carrier 700 The first end 210 of the furnace 200 is transported to the second end 220 thereof, and during the transportation process, the glass 800 accommodated by the carrier 700 is tempered by the 201223902 tempering furnace 200; (3) The third lift is used 630 raises and moves the carrier 700 to the first end 310 of the cooling furnace 300 and then lowers it. The carrier 7 is placed on the third conveyor chain 530; the third conveyor chain 530 transports the carrier 700 from the first end 310 of the cooling furnace 300 to its second end 320, and during the conveying process, by the cooling furnace 300. The glass 800 accommodated in the carrier 7 is cooled; (4) The carrier 700 is raised and moved to the first end 410 of the cleaning unit 400 by the fourth elevator 640, and then lowered to the hot water cleaning. The furnace 430 is subjected to a hot water cleaning process for the glass 800 housed in the carrier 700; the carrier 700 is also raised by the fourth elevator 640 and moved to the ultrasonic cleaning furnace 440, and then lowered, so that the carrier 700 carries Placed in the fourth conveyor chain 540; the fourth conveyor chain 540 transports the carrier 700 to the second end 420 of the ultrasonic cleaning furnace 440, and is carried by the ultrasonic cleaning furnace 440 to the carrier 700 during the transportation process. The glass 800 is subjected to ultrasonic cleaning; (5). The fifth elevator 650 lifts the carrier 700 from the fourth conveyor chain 540 and moves to a cart, then descends, and the carrier 700 and its glass 800 are unloaded to The cart; the above-mentioned continuous preheating, tempering, and cooling by the cart Cleaning the glass was moved to another job process spaces 800 push. In the process of preheating, tempering, cooling, and cleaning the glass 800 contained in a carrier 700 in sequence, the same equipment is successively successively successively applied to most of the other vehicles. The housed glass 800 is preheated, tempered, cooled and cleaned. The continuous glass tempering apparatus according to an embodiment of the present invention can continuously perform preheating, tempering, 201223902 cooling and cleaning on the glass accommodated by most carriers, and has low energy consumption and equipment. Interposed and high output; Moreover, the carrier is extremely stable during lifting and translation, and does not sway due to the conventional suspension method, avoiding collision between adjacent glass and reducing the bad 'increasing product yield. The present invention is disclosed in the above embodiments, and is not intended to limit the scope of the present invention, and various modifications and refinements may be made without departing from the spirit and scope of the invention. It is subject to the definition of the scope of the patent application attached. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; A schematic view of a glass tempering device. Fig. 2 is a side elevational view showing the continuous glass tempering apparatus shown in Fig. 1 and showing a schematic diagram of its operation. Fig. 3 is an enlarged schematic view showing a heating furnace and a tempering furnace of the continuous glass tempering apparatus shown in Fig. 2. Fig. 4 is an enlarged schematic view showing the cooling furnace and the cleaning unit of the continuous glass tempering apparatus shown in Fig. 2. Fig. 5 is a re-enlarged schematic view of a heating furnace and a tempering furnace in a continuous glass tempering apparatus not shown in Fig. 3. Fig. 6 is an enlarged view showing a portion c of the continuous glass tempering apparatus shown in Fig. 5. 12 201223902

[Main component symbol description] 100: preheating furnace 120: second end 210: first end 300: cooling furnace 320: second end 410: first end 430: hot water cleaning furnace 500: conveying unit 511: chain body 513 : V-shaped top 530: third conveyor chain 600: lifting unit 611: support rod 613: V-shaped top 630: third elevator 650: fifth elevator 710: spanning rod 712: V-shaped bottom 110: first end 200: steel The furnace 220: the second end 310: the first end 400: the cleaning unit 420: the second end 440: the ultrasonic cleaning furnace 510: the first conveying key bar 512: the cross table 520: the second conveying key bar 540: the fourth conveying Chain 610: First lift 612: Cross frame 620: Second lift 640: Fourth lift 700: Carrier 711: End 800: Glass 13

Claims (1)

201223902 VII. Patent application scope: 1. A continuous glass tempering equipment, comprising: a preheating furnace having a first end and a second end; a tempering furnace having a first end and a first end a second end, the first end of the tempering furnace is adjacent to the second end of the preheating furnace; a cooling furnace having an opposite first end and a second end, the first end of the cooling furnace being adjacent At the second end of the tempering furnace; a cleaning unit having a first end and a second end, the first end of the cleaning unit being adjacent to the second end of the cooling furnace; a conveying unit disposed in the furnace and the cleaning unit And a lifting unit located on opposite sides of the conveying unit and disposed between the furnace and the cleaning unit. 2. The continuous glass tempering apparatus as described in claim 1 further comprising at least one carrier for accommodating the glass, the carrier being detachably mounted on the lifting unit or the conveying unit. 3. The continuous glass tempering apparatus as described in claim 2, wherein the cleaning unit comprises an adjacent hot water cleaning furnace and an ultrasonic cleaning furnace, the hot water cleaning furnace and the ultrasonic cleaning The furnace has a first end and a second end of the cleaning unit, respectively. 4. The continuous glass tempering apparatus 201223902 according to claim 2, wherein the lifting unit has a plurality of elevators, comprising: a first elevator located at the first end of the preheating furnace; the first elevator Between the second end of the preheating furnace and the first end of the tempering furnace; a third elevator located between the second end of the tempering furnace and the first end of the cooling furnace; An elevator is located between the second end of the cooling furnace and the cleaning unit; and a fifth elevator is located at the second end of the cleaning unit. 5. The continuous glass tempering apparatus according to claim 4, wherein the lift is a scissor lift. 6. The continuous glass tempering apparatus according to claim 4, wherein the conveying unit has a plurality of conveying chains, comprising: a first conveying chain disposed above the heating furnace; and a second conveying chain 'located above the tempering furnace; a third conveyor chain disposed above the cooling furnace; and a fourth conveyor chain disposed above the ultrasonic cleaning furnace. 7. The continuous glass tempering apparatus according to claim 6, wherein the top surface of the carrier is laterally provided with at least one span, and the two ends of the span are from both sides of the carrier Each of the conveyor chains has two parallel chain bodies, and the top surfaces of the two chain bodies are equally spaced apart from each other; the carrier 15 201223902 is located between the two chain bodies, and (4) spans the rods The traverse of the two-key strip body. 8. The continuous glass tempering apparatus of claim 7, wherein the bottom of the end of the straddle has a V-shaped bottom, and the top of the slab has a v corresponding to the V-shaped bottom. Shaped top. [9] The continuous glass tempering apparatus according to the gamma patent application, wherein each of the tops of the lifter has two parallel support rods, and each of the top surfaces of the support rods is provided with at least one cross frame; The carrier is located between the two support rods, and the two ends of the cross rod are spanned across the cross frame of the two support rods. 10. The continuous glass tempering apparatus of claim 9, wherein the bottom of the end of the straddle has a ν-shaped bottom, the top of the straddle. The crucible has a V-shaped top that matches the bottom of the v-shape.