CN216837661U

CN216837661U - Cooling device for processing glass

Info

Publication number: CN216837661U
Application number: CN202220904768.1U
Authority: CN
Inventors: 魏佳伟
Original assignee: Sichuan Tianshun Art Glass Co ltd
Current assignee: Sichuan Tianshun Art Glass Co ltd
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-06-28
Anticipated expiration: 2032-04-19

Abstract

The utility model discloses a cooling device for processing glass belongs to glass technical field, a cooling device for processing glass, including cooling chamber, mount, wind-guiding room, bracing piece, lead screw slide rail, support frame A and support frame B, cooling chamber top fixed mounting has the wind-guiding room, and the equal fixed mounting in upper and lower both sides at cooling chamber outer wall both ends has the mount, and fixed mounting has the bracing piece between the mount at cooling chamber bottom both ends. The utility model discloses well staff control lead screw slide rail passes through the slider and drives support frame B and remove back in the middle of the cooling chamber is inside, and the staff opens the fan and blows cold air to air outlet department through the guide duct, and in the rethread air outlet will the leading-in cooling chamber of cold air, at this moment when the cold air will contact the air deflector surface in cooling chamber four corners, will make cold air carry out refrigerated glass constantly circulation around through the needs of arc form air deflector surface in the cooling chamber inboard, carry out cooling treatment to glass.

Description

Cooling device for processing glass

Technical Field

The utility model belongs to the technical field of glass, specifically be a cooling device for processing glass.

Background

The glass is an amorphous inorganic non-metallic material, and can be processed into a transparent amorphous solid by the procedures of selection, cutting, edging, toughening, silk-screen printing and the like.

The retrieval shows that a toughened glass cooling air grid with the patent number of CN202121897843.8 has the advantages that an upper pressing die and a lower pressing die are arranged between a lower cooling box and an upper cooling box, the upper pressing die and the lower pressing die are moved away by using an upper connecting mechanism and a lower connecting mechanism for cold extraction after bending is completed, the bending and cold extraction can be completed in the same process, the problem that the bending and cold extraction are separated by the existing processing procedure, the time for processing the glass is prolonged, and the finished product rate of the glass is influenced is solved, and the toughened glass cooling air grid can be quickly bent and cold extracted; wherein, the deficiency points are as follows:

when the toughened glass cooling air grid is used by an operator, because the upper pressing die and the lower pressing die for bending the glass are only in single contact with each other to perform cooling treatment while bending the glass on the surface of the glass, when the glass is cooled, the glass between the upper pressing die and the lower pressing die is easy to deviate, so that some parts of the glass cannot be cooled, some parts of the glass are cooled slowly and the strength of the glass is easy to influence, and when the toughened glass cooling air grid is used by the operator to perform cooling treatment on the glass through the upper cooling box and the lower cooling box, because the air blown out by the upper cooling box and the lower cooling box is blown in opposite directions, the cooling speed of the glass between the air blowing openings of the upper cooling box and the lower cooling box is higher than that of other positions, so that the whole piece of glass is cooled unevenly, easily affects the surface strength of the glass.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that the toughened glass cooling air grid does not fix glass and has poor cooling effect, the cooling device for processing the glass is provided.

The utility model adopts the technical scheme as follows: the utility model provides a cooling device for processing glass, includes cooling chamber, mount, wind-guiding chamber, bracing piece, lead screw slide rail, support frame A and support frame B, cooling chamber top fixed mounting has the wind-guiding chamber, the equal fixed mounting in upper and lower both sides at cooling chamber outer wall both ends has the mount, fixed mounting has the bracing piece between the mount at cooling chamber bottom both ends, fixed mounting has the lead screw slide rail between the mount at cooling chamber top both ends, lead screw slide rail and bracing piece opposite face all slide through the slider and be provided with support frame A, be provided with support frame B between the support frame A, support frame B is the setting of annular form, both ends all are provided with fixture about the support frame B outer wall, be provided with angle adjustment mechanism between support frame A and the support frame B.

Wherein, fixture comprises electric telescopic handle A, splint B, electric telescopic handle B and splint C, the equal fixed mounting in the left and right sides at both ends has electric telescopic handle A about the support frame B outer wall, the equal fixed mounting in electric telescopic handle A opposite face has splint A, splint A front end has splint B through bolted connection, the equal fixed mounting in splint A outer wall both ends has electric telescopic handle B, electric telescopic handle B other end fixed mounting has splint C, splint A, splint B and splint C surface all are provided with the bar lug.

The air guide device comprises an air guide chamber, air outlets, air guide pipes, dust plates, air guide plates and a cooling chamber, wherein the air outlets are embedded between two ends of the bottom of the rear side of the air guide chamber and the cooling chamber and are arranged in parallel at equal intervals, fans are fixedly mounted at two ends of the inner side of the air guide chamber, the air guide pipes are embedded between the rear side of each fan and the corresponding air outlet, the two ends of the top of the air guide chamber are close to the top of each fan and are connected with the dust plates through bolts, the air guide plates are fixedly mounted at four corners of the inner wall of the cooling chamber, and the air guide plates are arranged in an arc shape.

Wherein, angle adjustment mechanism comprises servo motor, backup pad, electronic gyro wheel and spout, the equal fixed mounting of support frame A opposite face has servo motor, the servo motor other end has the backup pad through output shaft, the backup pad is the arc form setting, both sides all are provided with electronic gyro wheel through the bearing rotation around the backup pad opposite face both ends, support frame B outer wall embedding is provided with the spout, and electronic gyro wheel agrees with to rotate the setting inboard at the spout.

Wherein, splint A, splint B and splint C surface material are PE.

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

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. this kind of a cooling device for processing glass can make staff control electric telescopic handle B shrink splint C through being provided with splint A, splint B and splint C, makes four splint C contact the corner of downside on the glass both ends respectively, with the glass centre gripping after, the staff will twist the bolt between splint B and the splint A, makes the downside of both ends around the glass, contacts splint A and splint B surface, with the complete spacing centre gripping of glass.

2. This kind of a cooling device for processing glass is through being provided with the aviation baffle, can make the staff open the fan and blow the cold air to air outlet department through the guide duct, and the rethread air outlet is with the leading-in cooling chamber of cold air, and when this kind of cold air will contact the aviation baffle surface in cooling chamber four corners, will make the cold air constantly circulate around the glass that needs of cooling chamber inboard through arc shape aviation baffle surface, carries out cooling treatment to glass.

Drawings

FIG. 1 is a schematic diagram of a front sectional structure of a cooling device according to the present invention;

FIG. 2 is a schematic diagram of a sectional structure of a side surface of a cooling chamber in the present invention;

FIG. 3 is a schematic diagram of a front sectional structure of a middle support frame B of the present invention;

fig. 4 is a schematic diagram of a side-view three-dimensional profile structure of the middle support frame B of the present invention.

The labels in the figure are: 1. a cooling chamber; 101. a fixed mount; 102. a support bar; 103. an air deflector; 2. a screw slide rail; 201. a support frame A; 3. an air guide chamber; 301. a dust-proof plate; 302. an air outlet; 4. a fan; 401. an air guide pipe; 5. a servo motor; 501. a support plate; 502. an electric roller; 6. a support frame B; 601. a chute; 602. an electric telescopic rod A; 603. a splint A; 604. a splint B; 605. an electric telescopic rod B; 606. and (4) a clamping plate C.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-4, a cooling device for processing glass, including cooling chamber 1, mount 101, wind guide chamber 3, support rod 102, lead screw slide rail 2, support frame a201 and support frame B6, cooling chamber 1 top fixed mounting has wind guide chamber 3, the equal fixed mounting 101 of upper and lower both sides at cooling chamber 1 outer wall both ends, fixed mounting has support rod 102 between the mount 101 at cooling chamber 1 bottom both ends, fixed mounting has lead screw slide rail 2 between the mount 101 at cooling chamber 1 top both ends, lead screw slide rail 2 and support rod 102 opposite face all are provided with support frame a201 through the slider slip, be provided with support frame B6 between support frame a201, support frame B6 is the setting of annular, support frame B6 outer wall upper and lower both ends all are provided with fixture, be provided with angle adjustment mechanism between support frame a201 and the support frame B6.

Referring to fig. 1 and 3, further, the clamping mechanism is composed of an electric telescopic rod a602, a clamping plate a603, a clamping plate B604, an electric telescopic rod B605 and a clamping plate C606;

the left side and the right side of the upper end and the lower end of the outer wall of the support frame B6 are fixedly provided with an electric telescopic rod A602, the opposite surface of the electric telescopic rod A602 is fixedly provided with a clamp plate A603, the front end of the clamp plate A603 is connected with a clamp plate B604 through a bolt, the two ends of the outer wall of the clamp plate A603 are fixedly provided with electric telescopic rods B605, the other end of the electric telescopic rod B605 is fixedly provided with a clamp plate C606, the outer surfaces of the clamp plate A603, the clamp plate B604 and the clamp plate C606 are provided with strip-shaped convex blocks, when a worker needs to cool glass which is produced and toughened and heated, the worker carries the toughened and heated glass to a work site and places the toughened and heated glass between the front ends of the clamp plate A603, at the moment, the worker controls the electric telescopic rods B605 to shrink the clamp plate C606, so that the four clamp plates C606 are respectively contacted with the corners of the upper side and the lower side of the two ends of the glass, the glass is clamped, the worker screws the bolt between the clamp plate B604 and the clamp plate A603, the upper and lower sides of the front and rear ends of the glass are contacted with the surfaces of the clamping plate A603 and the clamping plate B604, and then the glass is completely limited and clamped.

Referring to fig. 1 and 2, further, two air outlets 302 are embedded between two ends of the bottom of the rear side of the air guiding chamber 3 and the cooling chamber 1, the air outlets 302 are arranged in parallel at equal intervals, fans 4 are fixedly installed at two ends of the inner side of the air guiding chamber 3, an air guiding pipe 401 is embedded between the rear side of each fan 4 and the air outlet 302, two ends of the top of the air guiding chamber 3, which are close to the top of each fan 4, are connected with dust-proof plates 301 through bolts, air guiding plates 103 are fixedly installed at four corners of the inner wall of the cooling chamber 1, and the air guiding plates 103 are arranged in an arc shape, when a worker fixes tempered and heated glass to be cooled to the middle of a supporting frame B6, the worker controls a screw rod slide rail 2 to drive the supporting frame B6 to move to the middle of the inside of the cooling chamber 1 through a slide block, the worker opens the fan 4 to blow cold air to the air outlets 302 through the air guiding pipe 401, and then guides the cold air into the cooling chamber 1 through the air outlets 302, when the cold air contacts the surfaces of the air guide plates 103 at the four corners of the cooling chamber 1, the cold air is circulated around the glass to be cooled inside the cooling chamber 1 by the surfaces of the arc-shaped air guide plates 103, thereby cooling the glass.

Referring to fig. 1, 3 and 4, further, the angle adjusting mechanism is composed of a servo motor 5, a support plate 501, an electric roller 502 and a chute 601;

the opposite surfaces of the supporting frame A201 are fixedly provided with servo motors 5, the other ends of the servo motors 5 are connected with a supporting plate 501 through output shafts, the supporting plate 501 is arranged in an arc shape, the front side and the rear side of the two ends of the opposite surface of the supporting plate 501 are respectively provided with electric rollers 502 in a rotating mode through bearings, the outer wall of the supporting frame B6 is embedded with a sliding groove 601, the electric rollers 502 are arranged on the inner side of the sliding groove 601 in a matching and rotating mode, when workers open a fan 4 to guide cold air into the cooling chamber 1 through an air outlet 302 and circularly cool the periphery of glass, the workers control the servo motors 5 to drive the glass in the middle of the supporting frame B6 to rotate leftwards or rightwards through the output shafts, the workers control motors matched with the electric rollers 502 to drive the electric rollers 502 to rotate on the inner side of the sliding groove 601, the supporting frame B6 performs circular motion in the same direction while driving the glass in the middle of the supporting frame B6 to perform circular motion in the same direction, after the glass is adjusted to different angles, cold air can be uniformly blown on the surface of the glass, and the glass is uniformly cooled.

Referring to fig. 1 to 3, further, the electric roller 502 is electrically connected to the battery through a matching motor, the electric telescopic rod a602 and the electric telescopic rod B605 are electrically connected to the battery through a control panel, and the screw rod slide rail 2, the fan 4 and the servo motor 5 are electrically connected to an external power supply through a control panel.

Referring to fig. 1 and 3, further, the outer surfaces of the clamping plates a603, B604 and C606 are made of PE, and since the PE has the characteristics of adhesion resistance and high toughness, the clamping plates a603, B604 and C606 can be contacted with the surface of the tempered and heated glass, and after the tempered and heated glass is clamped, the glass can be prevented from being adhered to the surfaces of the clamping plates a603, B604 and C606 when being cooled.

As shown in fig. 1 and 3, the present invention has another embodiment except that the outer surface materials of the clamping plates a603, B604 and C606 are PE, and the outer surface materials of the clamping plates a603, B604 and C606 are ptfe. Because of the excellent characteristics such as polytetrafluoroethylene material has high lubrication, non-adhesion, can make splint A603, splint B604 and splint C606 contact the glass surface after tempering heating, after the glass centre gripping after heating tempering, can prevent that glass from when the cooling adhesion is in splint A603, splint B604 and splint C606 surface, have the polytetrafluoroethylene material of resistant high low temperature characteristic, can make splint A603, splint B604 and splint C606 contact the glass surface after the tempering heating of higher temperature for a long time, can not make splint A603, splint B604 and splint C606 cause the damage.

The working principle is as follows: firstly, when a worker needs to cool glass which is produced and toughened and heated, the worker carries the toughened and heated glass to a work place, the toughened and heated glass is placed between the front ends of the clamping plates A603, at the moment, the worker controls the electric telescopic rod B605 to shrink the clamping plates C606, so that the four clamping plates C606 are respectively contacted with the corners of the upper side and the lower side of the two ends of the glass, after the glass is clamped, the worker screws bolts between the clamping plates B604 and the clamping plates A603, so that the upper side and the lower side of the front end and the rear end of the glass are contacted with the surfaces of the clamping plates A603 and the clamping plates B604, the glass is completely limited and clamped, then the worker controls the screw rod slide rail 2 to drive the support frame B6 to move to the middle inside the cooling chamber 1 through the slide block, the worker opens the fan 4 to blow cold air to the air outlet 302 through the air guide pipe 401, and then guides the cold air into the cooling chamber 1 through the air outlet 302, when the cold air contacts the surfaces of the air deflectors 103 at the four corners of the cooling chamber 1, the surface of the arc-shaped air deflector 103 enables the cold air to circulate around the glass to be cooled inside the cooling chamber 1 continuously, finally, the worker controls the servo motor 5 to drive the glass in the middle of the support frame B6 to rotate leftwards or rightwards through the output shaft, the worker controls the motor matched with the electric roller 502 to drive the electric roller 502 to rotate inside the chute 601, the support frame B6 moves circumferentially while driving the glass in the middle of the support frame B6 to move circumferentially in the same direction, after adjusting the glass to different angles, the cold air can be blown onto the surface of the glass uniformly, after the glass is cooled uniformly, the worker controls the screw rod slide rail 2 to drive the glass in the middle of the support frame B6 to slide out of the cooling chamber 1 through the slide block, and takes off the glass by the worker, and cooling the next tempered and heated glass in the same way.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A cooling device for processing glass comprises a cooling chamber (1), a fixing frame (101), an air guide chamber (3), a support rod (102), a screw rod slide rail (2), a support frame A (201) and a support frame B (6), wherein the air guide chamber (3) is fixedly arranged at the top of the cooling chamber (1), the fixing frame (101) is fixedly arranged on the upper side and the lower side of the two ends of the outer wall of the cooling chamber (1), the support rod (102) is fixedly arranged between the fixing frames (101) at the two ends of the bottom of the cooling chamber (1), the screw rod slide rail (2) is fixedly arranged between the fixing frames (101) at the two ends of the top of the cooling chamber (1), the support frame A (201) is arranged on the opposite surfaces of the screw rod slide rail (2) and the support rod (102) in a sliding mode through a slide block, the support frame B (6) is arranged between the support frames A (201), and the support frame B (6) is arranged in a ring shape, the method is characterized in that: both ends all are provided with fixture about support frame B (6) outer wall, be provided with angle adjusting mechanism between support frame A (201) and support frame B (6).

2. A cooling apparatus for processing glass as defined in claim 1, wherein: the clamping mechanism is composed of an electric telescopic rod A (602), a clamping plate A (603), a clamping plate B (604), an electric telescopic rod B (605) and a clamping plate C (606);

the left and right sides at both ends all is provided with electric telescopic handle A (602) about support frame B (6) outer wall, electric telescopic handle A (602) opposite face all is provided with splint A (603), there is splint B (604) splint A (603) front end through bolted connection, the equal fixed mounting in splint A (603) outer wall both ends has electric telescopic handle B (605), the electric telescopic handle B (605) other end is provided with splint C (606), splint A (603), splint B (604) and splint C (606) surface all is provided with the bar lug.

3. A cooling apparatus for processing glass as defined in claim 1, wherein: the air conditioner is characterized in that air outlets (302) are embedded between two ends of the bottom of the rear side of the air guide chamber (3) and the cooling chamber (1), the number of the air outlets (302) is two, the air outlets are arranged in parallel at equal intervals, fans (4) are arranged at two ends of the inner side of the air guide chamber (3), an air guide pipe (401) is embedded between the rear side of each fan (4) and the corresponding air outlet (302), dust-proof plates (301) are connected to two ends of the top of the air guide chamber (3) close to the top of each fan (4) through bolts, air guide plates (103) are fixedly mounted at four corners of the inner wall of the cooling chamber (1), and the air guide plates (103) are arranged in an arc shape.

4. A cooling apparatus for processing glass as defined in claim 1, wherein: the angle adjusting mechanism is composed of a servo motor (5), a supporting plate (501), an electric roller (502) and a sliding groove (601);

support frame A (201) opposite face all is provided with servo motor (5), servo motor (5) other end has backup pad (501) through output shaft, backup pad (501) are the arc form setting, both sides all are provided with electronic gyro wheel (502) through the bearing activity around backup pad (501) opposite face both ends, support frame B (6) outer wall embedding is provided with spout (601), and just electronic gyro wheel (502) agree with to rotate and set up inboard in spout (601).

5. A cooling apparatus for processing glass as defined in claim 2, wherein: the outer surfaces of the clamping plate A (603), the clamping plate B (604) and the clamping plate C (606) are all made of PE.

6. A cooling apparatus for processing glass as defined in claim 2, wherein: the outer surfaces of the clamping plate A (603), the clamping plate B (604) and the clamping plate C (606) are all made of polytetrafluoroethylene.