CN216445250U - Heat sink is used in toughened glass processing - Google Patents

Abstract

The utility model discloses a cooling device for processing toughened glass, which belongs to the technical field of toughened glass and comprises a toughened chamber, a sealing door plate, a sealing plate, a fixing rod A, a sealing groove, a screw rod slide rail and a heating chamber, wherein the front end of the toughened chamber is provided with the sealing door plate, the periphery of the outer wall of the front end of the toughened chamber is embedded with the sealing groove, the periphery of the outer wall of the rear side of the sealing door plate is fixedly provided with the sealing plate, and the sealing plate is arranged in the sealing groove in a fit sliding manner. According to the utility model, the fans at the periphery of the outer wall of the air guide groove A on the outer side of the sealed door plate blow out hot air in the tempering chamber to the outside, so that the temperature in the tempering chamber is gradually reduced, and after the worker cools and tempers the glass, the worker can directly fix the second round glass to be tempered in the same way, and when the tempering treatment is carried out in the tempering chamber, the tempering treatment of the glass cannot be directly influenced due to the fact that the temperature in the tempering chamber is hot.

Description

Heat sink is used in toughened glass processing

Technical Field

The utility model belongs to the technical field of toughened glass, and particularly relates to a cooling device for processing toughened glass.

Background

The tempered glass is a glass which has improved strength and bearing capacity after forming a compressive stress between the surface and the inside of the glass by a chemical or physical method.

When the staff heats cooling tempering treatment with a large amount of glass through the tempering furnace, because inside current tempering furnace, only single setting one side heat blow mouthful and cooling blow mouthful, heat cooling treatment simultaneously to glass, it is inhomogeneous to make glass cool down because of surface heating easily, and cause on the way to glass tempering, directly produce and burst, and because inside the tempering furnace that has now owing to can not cool down the inside device that ventilates of tempering furnace to self of tempering furnace in cooling down glass, make current tempering furnace heat cooling tempering and finish the back with last glass, the staff is when tempering furnace inside temperature is higher, when directly putting next glass, glass can be easily in the tempering furnace because of the temperature difference great production blast breakage that produces.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: in order to solve the problems that the heating effect of the existing toughening furnace is poor and the cooling effect is poor, the cooling device for processing the toughened glass is provided.

The technical scheme adopted by the utility model is as follows: a cooling device for processing toughened glass, which comprises a toughened chamber, a sealing door plate, a sealing plate, a fixing rod A, a sealing groove, a screw rod slide rail and a heating chamber, the front end of the tempering chamber is provided with a sealing door plate, the periphery of the outer wall of the front end of the tempering chamber is embedded with a sealing groove, the periphery of the outer wall of the rear side of the sealing door plate is fixedly provided with a sealing plate, the sealing plate is arranged in the sealing groove in a matching and sliding manner, the upper end and the lower end of the rear side of the sealing door plate are both fixedly provided with a fixed rod A, the upper end and the lower end of the rear side of the tempering chamber outer wall are both fixedly provided with a screw rod slide rail, the top of the rear side of the fixed rod A is both arranged outside the screw rod slide rail in a sliding way through a slide block, both ends of the tempering chamber outer wall are both provided with heating chambers, and the heating chamber is the central symmetry setting, be provided with fixture between the dead lever A, tempering room inside is provided with circulation heating mechanism, tempering room and sealed door plant opposite face all are provided with quick circulation cooling mechanism.

Wherein, fixture comprises dead lever B, spout, slide bar, holding frame, grip block A, electric telescopic handle and grip block B, the equal fixed mounting in both ends has dead lever B between the dead lever A, equal fixed mounting has the spout in the middle of the dead lever B opposite face, the inboard opposite face of spout all slides and is provided with the slide bar, equal fixed mounting has the holding frame all around of slide bar outer wall opposite face, holding frame other end fixed mounting has grip block A, the equal fixed mounting of opposite face has electric telescopic handle in the middle of the dead lever A, electric telescopic handle other end fixed mounting has grip block B, grip block B is "U" shape setting.

The circulating heating mechanism is composed of air deflectors, air heaters, a dust screen, an air guide groove B and air outlets, the air deflectors are fixedly mounted at two ends of the inner wall of the tempering chamber and arranged in an arc shape, the dust screen is connected to the bottom of one end of the outer wall of the heating chamber through bolts, the air heaters are fixedly mounted at the bottom of the inner side of the heating chamber, the air guide groove B is arranged between one end of the outer wall of the top of the heating chamber and the air heaters in an embedded mode, the air outlets are arranged on the outer wall of the concave surface of the air deflectors in an embedded mode, the air outlets are arranged in parallel and in central symmetry, and the air outlets and the air guide groove B are connected through air guide pipes.

The rapid circulating cooling mechanism is composed of an air guide groove A, fans and a sealing baffle, the air guide groove A is embedded in the middle of the opposite surface of the outer wall of the tempering chamber and the sealing door plate, the fans are rotatably arranged on the periphery of the opposite surface of the outer wall of the air guide groove A, and the other end of the outer wall of the air guide groove A is connected with the sealing baffle through bolts.

And the outer surfaces of the clamping plate A and the clamping plate B are both made of PE.

And the outer surfaces of the clamping plate A and the clamping plate B are made of polytetrafluoroethylene.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. this kind of heat sink for toughened glass processing is through being provided with the aviation baffle, can make the air heater with the leading-in guide duct B of hot-air, when rethread guide duct B passes through the guide duct and leads to the tempering from a plurality of air outlets indoor, the hot-air will contact the aviation baffle surface of arc form to constantly circulate around glass along relative air baffle surface, when making the indoor air of tempering constantly heat up, carry out lasting even heating to glass.

2. According to the cooling device for processing the toughened glass, the fan is arranged, so that the external cold air can be blown into the surface of the glass heated in the toughened chamber by the fan outside the air guide groove A on the outer wall of the toughened chamber, the glass is cooled and is contacted with the surface of the air guide plate, the circular treatment is carried out on the periphery of the heated glass along the arc-shaped surface of the air guide plate, meanwhile, the hot air in the toughened chamber is blown out to the outside by the fan on the periphery of the air guide groove A on the outer wall of the outer side of the sealed door plate, and the temperature in the toughened chamber is gradually reduced.

Drawings

FIG. 1 is a schematic diagram of a side sectional structure of a tempering chamber according to the present invention;

FIG. 2 is a schematic diagram of an enlarged structure A in FIG. 1 according to the present invention;

FIG. 3 is a schematic diagram of a front sectional structure of a tempering chamber in the utility model;

fig. 4 is a schematic diagram of a front perspective structure of the clamping plate B in the present invention.

The labels in the figure are: 1. a tempering chamber; 101. an air deflector; 102. a sealing door panel; 1021. a sealing plate; 103. fixing the rod A; 104. fixing the rod B; 1041. a chute; 105. a sealing groove; 2. a screw slide rail; 3. a slide bar; 301. a clamping frame; 302. a clamping plate A; 4. an electric telescopic rod; 401. a clamping plate B; 5. an air guide groove A; 501. a fan; 502. sealing the baffle; 6. a heating chamber; 601. a hot air blower; 602. a dust screen; 603. an air guide groove B; 604. and (7) air outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the utility model:

referring to fig. 1-4, a cooling device for tempered glass processing comprises a tempering chamber 1, a sealing door plate 102, a sealing plate 1021, a fixing rod a103, a sealing groove 105, a screw rod slide rail 2 and a heating chamber 6, wherein the sealing door plate 102 is arranged at the front end of the tempering chamber 1, the sealing groove 105 is embedded in the periphery of the outer wall of the front end of the tempering chamber 1, the sealing plate 1021 is fixedly arranged on the periphery of the outer wall of the rear side of the sealing door plate 102, the sealing plate 1021 is arranged in a matching and sliding manner in the sealing groove 105, the fixing rod a103 is fixedly arranged at the upper end and the lower end of the rear side of the sealing door plate 102, the screw rod slide rail 2 is fixedly arranged at the upper end and the lower end of the rear side of the outer wall of the tempering chamber 1, the top of the rear side of the fixing rod a103 is arranged outside the screw rod slide rail 2 in a sliding manner through a sliding block, the heating chambers 6 are arranged at both ends of the outer wall of the tempering chamber 1, the heating chambers 6 are arranged in a central symmetry manner, a clamping mechanism is arranged between the fixing rods a103, a circulating heating mechanism is arranged at the inner side of the tempering chamber 1, the opposite surfaces of the tempering chamber 1 and the sealing door plate 102 are provided with rapid circulating cooling mechanisms.

Referring to fig. 1-4, further, the clamping mechanism is composed of a fixing rod B104, a chute 1041, a sliding rod 3, a clamping frame 301, a clamping plate a302, an electric telescopic rod 4 and a clamping plate B401;

the two ends of the fixed rod A103 are fixedly provided with a fixed rod B104, the middle of the opposite surface of the fixed rod B104 is fixedly provided with a chute 1041, the inner opposite surface of the chute 1041 is provided with a sliding rod 3 in a sliding way, the periphery of the opposite surface of the outer wall of the sliding rod 3 is fixedly provided with a clamping frame 301, the other end of the clamping frame 301 is fixedly provided with a clamping plate A302, the middle opposite surface of the fixed rod A103 is fixedly provided with an electric telescopic rod 4, the other end of the electric telescopic rod 4 is fixedly provided with a clamping plate B401, the clamping plate B401 is arranged in a U shape, when a worker needs to carry out tempering, heating and cooling treatment on the produced glass, the worker carries a large amount of round glass needing tempering to a working site, and controls the lead screw slide rail 2 to drive the sealing door plate 102 at the other end of the fixed rod A103 to be opened through a slide block, the worker places the round glass between the clamping plates B401, and controls the electric telescopic rod 4 to extend out of the clamping plate B401, will make the glass outer wall slide in the "U" inslot of grip block B401 opposite face, with glass spacing back, the staff promotes two relative slide bars 3 and slides in spout 1041 inboard, makes the grip block A302 on 3 other ends of slide bar holding frame 301 surfaces all around, contacts glass both ends with the glass centre gripping back, and the staff twists the bolt and fixes between slide bar 3 and the spout 1041.

Referring to fig. 1 and 3, further, the circulating heating mechanism is composed of an air deflector 101, a hot air blower 601, a dust screen 602, an air guide groove B603 and an air outlet 604;

the two ends of the inner wall of the tempering chamber 1 are fixedly provided with air deflectors 101, the air deflectors 101 are arranged in an arc shape, the bottom of one end of the outer wall of the heating chamber 6 is connected with a dust screen 602 through bolts, the bottom of the inner side of the heating chamber 6 is fixedly provided with a hot air blower 601, an air guide groove B603 is embedded between one end of the outer wall of the top of the heating chamber 6 and the hot air blower 601, an air outlet 604 is embedded in the outer wall of a concave surface of the air deflector 101, a plurality of air outlets 604 are arranged in parallel and in central symmetry, the air outlets 604 and the air guide groove B603 are connected through air guide pipes, after a worker clamps glass, a screw rod slide rail 2 is controlled to drive a sealing door plate 102 at the other end of a fixing rod A103 to slide through a slide block, so that a sealing plate 1021 slides into a sealing groove 105 to be sealed and closed, after the worker opens the hot air blowers 601 in the heating chamber 6 at the two ends of the outer wall of the tempering chamber 1, the hot air blower 601 guides hot air into the air guide groove B603, and when the hot air is guided into the tempering chamber 1 from the air outlets 604 through the air guide pipe by the air guide groove B603, the hot air contacts the surface of the arc-shaped air guide plate 101 and continuously circulates around the glass along the surface of the opposite air guide plate 101, so that the air in the tempering chamber 1 is continuously heated and simultaneously the glass is continuously and uniformly heated.

Referring to fig. 1 and 3, further, the rapid cycle cooling mechanism is composed of an air guide groove a5, a fan 501 and a sealing baffle 502;

air guide grooves A5 are embedded between the opposite surfaces of the outer walls of the tempering chamber 1 and the sealing door panel 102, fans 501 are rotatably arranged around the opposite surface of the outer wall of the air guide groove A5, the other end of the outer wall of the air guide groove A5 is connected with a sealing baffle 502 through bolts, when hot air continuously circulates around glass through the air guide plate 101 and heats the glass to a specified tempering temperature, a worker turns off the hot air blower 601, at the moment, the worker unscrews out the bolts of the two air guide grooves A5 and the outer wall of the sealing baffle 502, removes the sealing baffle 502, opens the fans 501 around the outer walls of the two air guide grooves A5, the fans 501 outside the air guide groove A5 on the outer wall of the tempering chamber 1 blow outside cold air into the heated glass surface in the tempering chamber 1, when the glass is cooled, the cold air is scattered around after contacting the glass and contacts the surface of the air guide plate 101, and circulates around the heated glass along the arc-shaped surface of the air guide plate 101, when carrying out quick circulation cooling to glass and handling, sealed door plant 102 outside wind guide groove A5 outer wall fan 501 all around blows out the inside hot-air of tempering room 1 to the external world, makes the indoor temperature of tempering decline gradually, and after the staff finishes the tempering with glass cooling, the staff can directly fix the back with same mode with the round glass that the tempering was handled need carried out to the second piece, when carrying out tempering in tempering room 1, can not directly influence glass's tempering because of tempering room 1 inside temperature is hotter.

Referring to fig. 1 and 3, further, the screw rod slide rail 2, the electric telescopic rod 4, the fan 501 and the air heater 601 are electrically connected with an external power supply through a control panel.

Referring to fig. 1 to 4, further, the outer surfaces of the clamping plate a302 and the clamping plate B401 are made of PE, and since the PE has the characteristics of adhesion resistance and high toughness, when the clamping plate a302 and the clamping plate B401 clamp the heated glass for a long time, the glass does not adhere to the surfaces of the clamping plate a302 and the clamping plate B401.

As shown in fig. 1-4, in addition to the embodiment of the present invention in which the outer surfaces of the clamping plate a302 and the clamping plate B401 are made of PE, there is another embodiment of the present invention in which the outer surfaces of the clamping plate a302 and the clamping plate B401 are made of ptfe, and since the ptfe has excellent characteristics such as high lubricity and non-adhesion, when the clamping plate a302 and the clamping plate B401 clamp heated glass for a long time, the glass does not adhere to the surfaces of the clamping plate a302 and the clamping plate B401, and the ptfe has high and low temperature resistance, and can be kept in the tempering chamber 1 at a constantly changing temperature for a long time, and is not damaged due to the constantly changing temperature in the tempering chamber 1.

The working principle is as follows: firstly, when a worker needs to perform tempering, heating and cooling treatment on produced glass, the worker carries a large amount of round glass to be tempered to a working site, controls the screw rod slide rail 2 to drive the sealing door plate 102 at the other end of the fixing rod A103 to be opened through the slide block, places the round glass between the clamping plates B401, controls the electric telescopic rod 4 to extend out of the clamping plate B401, enables the outer wall of the glass to slide into the U-shaped groove on the opposite surface of the clamping plate B401, limits the glass, pushes the two opposite sliding rods 3 to slide on the inner side of the chute 1041, enables the clamping plate A302 on the surface of the clamping frame 301 on the periphery of the other end of the sliding rod 3 to contact with the two ends of the glass to clamp the glass, screws bolts between the sliding rods 3 and the chute 1041 to fix the glass, then controls the screw rod slide rail 2 to drive the sealing door plate 102 at the other end of the fixing rod A103 to slide through the slide block, after the sealing plate 1021 slides into the sealing groove 105 to be sealed and closed, when a worker opens the hot air blower 601 in the heating chamber 6 at two ends of the outer wall of the tempering chamber 1, the hot air blower 601 guides hot air into the air guide groove B603, and then the hot air is guided into the tempering chamber 1 from the air guide pipes through the air guide grooves B603 and the air outlets 604, the hot air contacts the surface of the arc-shaped air guide plate 101 and continuously circulates around the glass along the surface of the opposite air guide plate 101, so that the air in the tempering chamber 1 is continuously heated and uniformly while the temperature of the glass is continuously increased, finally, after the glass is heated to a specified tempering temperature, the worker closes the hot air blower 601, and at the moment, the worker unscrews the bolts of the two air guide grooves a5 and the outer wall of the sealing baffle plate 502, after the sealing baffle plate 502 is removed, the fans 501 around the outer walls of the two air guide grooves a5 are opened, the fans 501 outside the air guide grooves a5 of the outer wall of the tempering chamber 1 blow outside cold air into the heated glass surface of the tempering chamber 1, when cooling glass, cold air will be after contact glass, scatter to around, and contact behind the aviation baffle 101 surface, will circulate around the glass after the heating along aviation baffle 101 arc surface, when carrying out quick circulation cooling treatment to glass, sealed door plant 102 outside wind-guiding groove A5 outer wall fan 501 all around blows out the inside hot-air of tempering room 1 to the external world, make the indoor temperature of tempering decline gradually, and after the staff finishes the tempering of glass cooling, the staff carries out tempering treatment with the circular glass that the second needs carry out tempering treatment with same mode after fixing, carry out tempering treatment in tempering room 1.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A cooling device for processing toughened glass comprises a toughened chamber (1), a sealing door plate (102), a sealing plate (1021), a fixing rod A (103), a sealing groove (105), a screw rod slide rail (2) and a heating chamber (6), wherein the sealing door plate (102) is arranged at the front end of the toughened chamber (1), the sealing groove (105) is embedded into the periphery of the outer wall of the front end of the toughened chamber (1), the sealing plate (1021) is fixedly arranged on the periphery of the outer wall of the rear side of the sealing door plate (102), the sealing plate (1021) is arranged in the sealing groove (105) in a matching and sliding manner, the fixing rod A (103) is fixedly arranged at the upper end and the lower end of the rear side of the sealing door plate (102), the screw rod slide rail (2) is fixedly arranged at the upper end and the lower end of the rear side of the outer wall of the toughened chamber (1), the top of the rear side of the fixing rod A (103) is arranged outside the screw rod slide rail (2) in a sliding manner through a sliding block, tempering room (1) outer wall both ends all are provided with heating chamber (6), and heating chamber (6) are central symmetry and set up its characterized in that: be provided with fixture between dead lever A (103), tempering room (1) inboard is provided with circulation heating mechanism, tempering room (1) and sealed door plant (102) opposite face all are provided with rapid cycle cooling mechanism.

2. The cooling device for processing tempered glass according to claim 1, wherein: the clamping mechanism is composed of a fixed rod B (104), a chute (1041), a sliding rod (3), a clamping frame (301), a clamping plate A (302), an electric telescopic rod (4) and a clamping plate B (401);

the utility model discloses a clamping device, including dead lever A (103), fixed rod B (104), spout (1041), the inboard opposite face of spout (1041) all slides and is provided with slide bar (3), equal fixed mounting has clamping frame (301) all around of slide bar (3) outer wall opposite face, the clamping frame (301) other end is provided with grip block A (302), the opposite face all is provided with electric telescopic handle (4) in the middle of dead lever A (103), electric telescopic handle (4) other end fixed mounting has grip block B (401), grip block B (401) are "U" shape setting.

3. The cooling device for processing tempered glass according to claim 1, wherein: the circulating heating mechanism is composed of an air deflector (101), a hot air blower (601), a dust screen (602), an air guide groove B (603) and an air outlet (604);

the tempering room (1) is characterized in that air deflectors (101) are arranged at two ends of the inner wall of the tempering room (1), the air deflectors (101) are arranged in an arc shape, the bottom of one end of the outer wall of the heating room (6) is connected with a dust screen (602) through bolts, an air heater (601) is arranged at the bottom of the inner side of the heating room (6), an air guide groove B (603) is arranged between one end of the outer wall of the top of the heating room (6) and the air heater (601) in an embedded mode, air outlets (604) are arranged in the outer wall of a concave surface of the air deflectors (101), the air outlets (604) are arranged in parallel and are arranged in a central symmetry mode, and the air outlets (604) and the air guide groove B (603) are connected through air guide pipes.

4. The cooling device for processing tempered glass according to claim 1, wherein: the rapid circulating cooling mechanism is composed of an air guide groove A (5), a fan (501) and a sealing baffle (502);

the tempering room (1) and the middle of the opposite surface of the outer wall of the sealing door panel (102) are respectively provided with an air guide groove A (5) in an embedded mode, fans (501) are movably arranged on the periphery of the opposite surface of the outer wall of the air guide groove A (5), and the other end of the outer wall of the air guide groove A (5) is connected with a sealing baffle plate (502) through bolts.

5. The cooling device for processing tempered glass according to claim 2, wherein: the outer surfaces of the clamping plate A (302) and the clamping plate B (401) are both made of PE.

6. The cooling device for processing tempered glass according to claim 2, wherein: the outer surfaces of the clamping plate A (302) and the clamping plate B (401) are made of polytetrafluoroethylene.

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