CN213652282U - Cooling device for glass production - Google Patents

Abstract

The utility model provides a cooling device for glass production, including braced frame and conveying mechanism, conveying mechanism connects on braced frame, last precooling mechanism, water-cooling mechanism and the dry mechanism of being provided with of braced frame, the exit end of precooling mechanism is connected in the entrance point of water-cooling mechanism, the exit end of water-cooling mechanism is connected in the entrance point of dry mechanism, just conveying mechanism passes precooling mechanism, water-cooling mechanism and the inside of dry mechanism in proper order, the utility model discloses utilize the spiral tuber pipe in the precooling mechanism to carry out precooling treatment to glass, make its temperature evenly descend, avoid appearing the glass burst phenomenon because of receiving the cold inequality or the difference in temperature is too big; the water cooling mechanism is used for spraying cooling liquid to the glass to take away heat on the glass, and the partition curtain arranged on the water cooling mechanism can prevent the cooling liquid from splashing outside the water cooling tank; carry out drying process to glass through drying mechanism, blow off remaining coolant liquid on the glass simultaneously, prevent to leave water stain on the glass.

Description

Cooling device for glass production

Technical Field

The utility model relates to a glass production and processing equipment technical field especially relates to a cooling device for glass production.

Background

The glass is a non-crystal inorganic non-metal material, generally made up by using several inorganic minerals as main raw material and adding a small quantity of auxiliary raw material, its main component is silicon dioxide and other oxides, and can be extensively used in the fields of building, daily use, art, medical treatment, chemistry, electronics, instruments and nuclear engineering, etc., and is one of the necessary materials in production and life. In the process of producing glass, the finished glass needs to be cooled, and there are many apparatuses for cooling glass products in the prior art. For example, chinese patent application No. CN211035686U, entitled "a cooling device for glass production", filed as 2019.10.28, discloses a cooling device for glass production, but in the use of the above-mentioned patent, because there is a large temperature difference between the cooling liquid and the glass, the problem of uneven cooling or excessive temperature difference occurs in the cooling process, and further the glass is prone to cracking, so the cooling effect on the glass is not good, and the production quality of the glass is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to solve the problems in the prior art and design a cooling device for glass production.

In order to solve the technical problem, the utility model discloses a technical scheme is: a cooling device for glass production comprises a supporting frame and a conveying mechanism, wherein the conveying mechanism is connected to the supporting frame, a pre-cooling mechanism, a water-cooling mechanism and a drying mechanism are sequentially and adjacently arranged on the supporting frame along the axis direction of the supporting frame, and the conveying mechanism sequentially penetrates through the interior of the pre-cooling mechanism, the water-cooling mechanism and the drying mechanism;

the pre-cooling mechanism comprises a pre-cooling box, a first fan and a spiral air pipe, the pre-cooling box is connected to the supporting frame, the first fan is connected to the pre-cooling box, an air outlet of the first fan is communicated with an air inlet of the spiral air pipe, the spiral air pipe is arranged on the inner wall of the pre-cooling box, and a plurality of groups of air exhaust holes are uniformly formed in the spiral air pipe;

drying mechanism includes drying cabinet, second fan and exhaust pipe, the drying cabinet is connected on braced frame, the second fan is connected on the drying cabinet, the air intake of exhaust pipe is connected in the air outlet of second fan.

Further, water cooling mechanism includes first water-cooling tank, first spray set and shower head, first water-cooling tank connects on braced frame, first spray set connects on first water-cooling tank, the shower head sets up on the interior roof of first water-cooling tank, just the water inlet of shower head communicates in first spray set's delivery port.

Further, the spray headers are arranged into a plurality of groups.

Further, the water cooling mechanism comprises a second water cooling tank, a second spraying device, a water supply pipeline and nozzles, the second water cooling tank is connected to the supporting frame, the second spraying device is connected to the second water cooling tank, the water supply pipeline is arranged on the inner wall of the second water cooling tank, a water inlet of the water supply pipeline is connected to a water outlet of the second spraying device, the nozzles are arranged into multiple groups, and the multiple groups of nozzles are evenly distributed on the water supply pipeline.

Furthermore, a water collecting tank is arranged at the bottom of the supporting frame, and a water inlet of the water collecting tank is communicated with a water outlet of the water cooling mechanism.

Further, a ventilation pipeline is arranged on the water cooling mechanism, and a ventilation fan is arranged on the ventilation pipeline.

Furthermore, the inlet end and the outlet end of the water cooling mechanism are respectively provided with a partition curtain.

Further, the air conditioner is provided with a fan,

further, conveying mechanism includes carriage, driving motor, drive assembly and transfer roller, the carriage is connected on braced frame, and inside this carriage passed precooling mechanism, water-cooling mechanism and drying mechanism in proper order, driving motor connects on the carriage, and this driving motor's output connects in the input of conveying assembly, drive assembly's output is connected in the input of transfer roller, the transfer roller rotates to be set up as to on the carriage.

The utility model has the advantages and positive effects that: the utility model has simple structure, stability and reliability, carries out pre-cooling treatment on the glass through the pre-cooling mechanism, gradually reduces the temperature, utilizes the spiral air pipe in the pre-cooling mechanism to cool the glass in a plurality of directions, leads the glass to be cooled more evenly, has better pre-cooling effect, and avoids the occurrence of burst phenomenon due to uneven cooling or overlarge temperature difference; the water cooling mechanism is used for further cooling the glass, so that the cooling liquid sprayed by the spray head or the nozzle can take away the heat on the glass, and meanwhile, the partition curtains arranged at the inlet end and the outlet end of the water cooling mechanism can prevent the cooling liquid from splashing outside the water cooling tank; carry out the drying to glass through dry mechanism, can also utilize the second fan to blow off remaining coolant liquid on with glass simultaneously, prevent that the coolant liquid from leaving the water stain on glass.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a sectional view of embodiment 1.

Fig. 3 is a block diagram of the electrical connection relationship among the driving motor, the first fan, the second fan, the first spraying device, the ventilating fan and the controller in embodiment 1.

FIG. 4 is a sectional view of embodiment 2.

Fig. 5 is a block diagram showing an electrical connection relationship among the driving motor, the first fan, the second spraying device, the ventilating fan and the controller in embodiment 2.

In the figure: the device comprises a supporting frame 1, a conveying mechanism 2, a conveying frame 21, a driving motor 22, a transmission assembly 23, a conveying roller 24, a precooling mechanism 3, a precooling box 31, a first fan 32, a spiral air pipe 33, a water cooling mechanism 4, a first water cooling box 411, a first spraying device 412, a spraying head 413, a second water cooling box 421, a second spraying device 422, a water supply pipe 423, a nozzle 424, a drying mechanism 5, a drying box 51, a second fan 52, an exhaust pipe 53, a water collecting tank 6, a ventilation pipeline 7, a ventilation fan 8 and a partition curtain 9.

Detailed Description

For a better understanding of the present invention, the following further description is given in conjunction with the following embodiments and accompanying drawings.

Example 1

As shown in fig. 1 to 3, a cooling device for glass production comprises a supporting frame 1 and a conveying mechanism 2, wherein the conveying mechanism 2 is connected to the supporting frame 1, a pre-cooling mechanism 3, a water-cooling mechanism 4 and a drying mechanism 5 are sequentially and adjacently arranged on the supporting frame 1 along the axis direction, the conveying mechanism 2 sequentially penetrates through the pre-cooling mechanism 3, the water-cooling mechanism 4 and the drying mechanism 5, the conveying mechanism 2 sequentially conveys glass to the pre-cooling mechanism 3, the water-cooling mechanism 4 and the drying mechanism 5 for processing, and the pre-cooling mechanism 3 is used for pre-cooling the glass, so that the glass is gradually cooled, and the cracking of the glass caused by overlarge temperature difference or uneven cooling during cooling is prevented; meanwhile, the sprayed cooling liquid in the water cooling mechanism 4 is used for further cooling the glass, the heat on the glass is taken away by the cooling liquid, the cooling and cooling of the glass are realized, the glass subjected to the water cooling is dried in the drying mechanism 5, the cooling liquid attached to the glass can be blown off, and water stains on the surface of the glass are prevented from being formed.

Further, the pre-cooling mechanism 3 includes a pre-cooling box 31, a first fan 32 and a spiral duct 33, the pre-cooling box 31 is connected to the supporting frame 1, the first fan 32 is connected to the pre-cooling box 31, an air outlet of the first fan 32 is communicated with an air inlet of the spiral duct 33, the spiral duct 33 is arranged on an inner wall of the pre-cooling box 31, and a plurality of groups of air exhaust holes are uniformly arranged on the spiral duct 33, because the spiral duct 33 is arranged inside the pre-cooling box 31, the first fan 32 enters the generated air flow into the spiral duct 33 from the air outlet thereof, and then the generated air flow is blown out from the air exhaust holes arranged on the spiral duct 33, so that the glass is pre-cooled in multiple directions.

Further, water cooling mechanism 4 includes first water-cooling tank 411, first spray set 412 and shower head 413, first water-cooling tank 411 is connected on braced frame 1, first spray set 412 is connected on first water-cooling tank 411, shower head 413 sets up on the interior roof of first water-cooling tank 411, and the water inlet of shower head 413 communicates in first spray set 412's delivery port, shower head 413 sets up to the multiunit, enter into first water-cooling tank 411 when glass, the coolant liquid in first spray set 412 flows into in shower head 413, the coolant liquid sprays on glass through shower head 413, cool off glass by the coolant liquid, take away the heat on the glass, thereby realize the further cooling to glass.

Furthermore, a water collecting tank 6 is arranged at the bottom of the supporting frame 1, a water inlet of the water collecting tank 6 is communicated with a water outlet of the water cooling mechanism 4, a ventilation pipeline 7 is arranged on the water cooling mechanism 4, a ventilation fan 8 is arranged on the ventilation pipeline 7, and partition curtains 9 are respectively arranged at an inlet end and an outlet end of the water cooling mechanism 4, when glass is cooled, the cooling liquid can be gasified and evaporated due to heating, gas generated by evaporation is discharged from the water cooling mechanism 4 by the ventilation fan 8, and is discharged out of the water cooling tank through the ventilation pipeline 7, and meanwhile, the partition curtains 9 arranged at the inlet end and the outlet end of the water cooling mechanism 4 can prevent the cooling liquid from splashing outside the water cooling tank.

Further, the drying mechanism 5 includes a drying box 51, a second fan 52 and an exhaust duct 53, the drying box 51 is connected to the support frame 1, the second fan 52 is connected to the drying box 51, an air inlet of the exhaust duct 53 is connected to an air outlet of the second fan 52, the second fan 52 and the exhaust duct 53 are used for drying the glass entering the drying mechanism 5, and simultaneously, the cooling liquid attached to the surface of the glass is blown off.

Further, conveying mechanism 2 includes carriage 21, driving motor 22, drive assembly 23 and transfer roller 24, carriage 21 connects on braced frame 1, and this carriage 21 passes precooling mechanism 3 in proper order, inside water- cooling mechanism 4 and 5 dry mechanisms, driving motor 22 connects on carriage 21, and the output of this driving motor 22 connects in the input of transfer assembly, the output of drive assembly 23 is connected in the input of transfer roller 24, transfer roller 24 rotates and sets up on carriage 21, driving motor 22 drives transfer roller 24 through the drive assembly 23 of being connected rather than the output and rotates, utilize pivoted transfer roller 24 to carry glass to precooling mechanism 3 in proper order, handle in water-cooling mechanism 4 and the dry mechanism 5.

Example 2

As shown in fig. 4 and 5, the present embodiment is different from embodiment 1 in that, further, the water cooling mechanism 4 includes a second water cooling tank 421, a second spraying device 422, a water supply line 423 and a nozzle 424, the second water cooling tank 421 is connected to the support frame 1, the second spraying device 422 is connected to the second water cooling tank 421, the water supply line 423 is disposed on the inner wall of the second water cooling tank 421, the water inlet of the spray nozzle is connected with the water outlet of the second spray device 422, the spray nozzles 424 are arranged into a plurality of groups, and a plurality of groups of nozzles 424 are uniformly arranged on the water supply line 423, the second spraying device 422 delivers the cooling liquid to the water supply line 423, and enters the nozzle 424 through the water supply line 423, sprays the cooling liquid onto the glass through the nozzle 424, therefore, the cooling treatment of the glass is realized, and compared with the embodiment 1, the cooling liquid sprayed to the glass by the nozzle is more uniform, and the cooling effect is better.

In addition, the pre-cooling tank 31, the first water-cooling tank 411, the second water-cooling tank 421, the drying tank 51, the conveying frame 21 and the supporting frame 1 can be connected in a welding manner, and the first spraying device 412 and the first water-cooling tank 411, the second spraying device 422 and the second water-cooling tank 421, the driving motor 22 and the conveying frame 21, the first fan 32 and the pre-cooling tank 31, the second fan 52 and the drying tank 51, and the water collecting tank and the water cooling mechanism 4 can be connected by bolts; the transmission assembly 23 can adopt belt transmission or chain transmission, and the adjacent transmission rollers 24 on the conveying frame 21 can adopt chain transmission; the specific structures and the working principles of the driving motor 22, the first spraying device 412, the second spraying device 422, the first fan 32, the second fan 52, the ventilating fan 8 and the partition curtain 9 all belong to the prior art in the technical field, and the application does not improve the prior art; wherein, the specific electrical connection structure, the electrical connection mode and the electrical connection relationship among the driving motor 22, the first fan 32, the second fan 52, the first spraying device 412, the second spraying device 422, the ventilating fan 8 and the cooling device controller for glass production all belong to the prior art in the technical field, and the application does not improve the specific electrical connection structure, the electrical connection mode and the electrical connection relationship, so that the detailed description is omitted.

The utility model has simple structure, stability and reliability, carries out pre-cooling treatment on the produced glass through the pre-cooling mechanism 3, gradually reduces the temperature, utilizes the spiral air pipe 33 in the pre-cooling mechanism 3 to cool the glass in multiple directions, leads the glass to be cooled more evenly, has better pre-cooling effect, and avoids the glass from cracking because of uneven cooling or overlarge temperature difference; the water cooling mechanism 4 is used for further cooling the glass, so that the cooling liquid sprayed by the spray header 413 or the nozzle 424 takes away the heat on the glass, and meanwhile, the partition curtains 9 arranged at the inlet end and the outlet end of the water cooling mechanism 4 can prevent the cooling liquid from splashing outside the water cooling box body; can dry glass through second fan 52 in the drying mechanism 5, can also blow off the coolant liquid on the glass simultaneously, prevent to leave water stain on the glass to example 2, the utility model discloses a concrete working process as follows:

starting the cooling device for glass production, so that the driving motor 22, the first fan 32, the second fan 52, the first spraying device 412, the second spraying device 422 and the ventilation fan 8 start to work, placing the glass to be cooled on the conveying mechanism 2, driving the conveying roller 24 to rotate by the driving motor 22 through the transmission assembly 23, so that the glass positioned on the conveying roller 24 moves and enters the precooling mechanism 3, and uniformly precooling the glass entering the precooling box 31 by the first fan 32 in the precooling mechanism 3 through the air exhaust hole of the spiral air pipe 33 so as to slowly reduce the temperature of the glass; the precooled glass enters the water cooling mechanism 4 from the precooling mechanism 3, the second spraying device 422 in the water cooling mechanism 4 conveys cooling liquid to the nozzle 424 through the water supply pipe 423, the nozzle 424 sprays the cooling liquid to cool the glass in the second water cooling tank 421, the heat on the glass is taken away by the cooling liquid, the used cooling liquid is discharged into the water collecting tank through the water outlet of the water cooling mechanism 4, and is converted into gas due to heating in the cooling process, and the gas is discharged out of the device through the gas exchange pipeline 7 by the gas exchange function of the gas exchange fan 8; in the middle of water-cooled glass enters into drying mechanism 5 by water-cooling mechanism 4, second fan 52 in drying mechanism 5 is through drying and blowing to glass, when drying to glass, also can blow off the adnexed coolant liquid on the glass surface, prevents that it from leaving water stain on glass, and the glass through drying process is exported by the exit end of drying cabinet 51 to utilize conveying mechanism 2 to carry glass to appointed placement area.

The embodiments of the present invention have been described in detail, but the present invention is only the preferred embodiments of the present invention, and the present invention is not to be considered as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims (8)

1. The utility model provides a cooling device for glass production, includes braced frame (1) and conveying mechanism (2), conveying mechanism (2) are connected on braced frame (1), its characterized in that: the supporting frame (1) is sequentially and adjacently provided with a pre-cooling mechanism (3), a water cooling mechanism (4) and a drying mechanism (5) along the axis direction, and the conveying mechanism (2) sequentially penetrates through the pre-cooling mechanism (3), the water cooling mechanism (4) and the drying mechanism (5);

the pre-cooling mechanism (3) comprises a pre-cooling box (31), a first fan (32) and a spiral air pipe (33), the pre-cooling box (31) is connected to the supporting frame (1), the first fan (32) is connected to the pre-cooling box (31), an air outlet of the first fan (32) is communicated with an air inlet of the spiral air pipe (33), the spiral air pipe (33) is arranged on the inner wall of the pre-cooling box (31), and multiple groups of air exhaust holes are uniformly formed in the spiral air pipe (33);

drying mechanism (5) include drying cabinet (51), second fan (52) and exhaust pipe (53), drying cabinet (51) are connected on braced frame (1), second fan (52) are connected on drying cabinet (51), exhaust pipe (53) set up in drying cabinet (51) on the roof, its air intake connection is in the air outlet of second fan (52).

2. The cooling device for glass production according to claim 1, characterized in that: water-cooling mechanism (4) include first water-cooling tank (411), first spray set (412) and shower head (413), first water-cooling tank (411) is connected on braced frame (1), first spray set (412) are connected on first water-cooling tank (411), shower head (413) set up on the interior roof of first water-cooling tank (411), just the water inlet of shower head (413) communicates in the delivery port of first spray set (412).

3. The cooling device for glass production according to claim 2, characterized in that: the spray headers (413) are arranged in multiple groups.

4. The cooling device for glass production according to claim 1, characterized in that: water-cooling mechanism (4) include second water-cooling case (421), second spray set (422), water supply line (423) and nozzle (424), second water-cooling case (421) are connected on braced frame (1), second spray set (422) are connected on second water-cooling case (421), water supply line (423) set up on the inner wall of second water-cooling case (421), and its water inlet is connected in the delivery port of second spray set (422), nozzle (424) set up to the multiunit, and multiunit nozzle (424) evenly lay on water supply line (423).

5. The cooling device for glass production according to claim 1, characterized in that: the water cooling device is characterized in that a water collecting tank (6) is arranged at the bottom of the supporting frame (1), and a water inlet of the water collecting tank (6) is communicated with a water outlet of the water cooling mechanism (4).

6. The cooling device for glass production according to claim 1, characterized in that: be provided with air exchange pipeline (7) on water-cooling mechanism (4), be provided with ventilation fan (8) on air exchange pipeline (7).

7. The cooling device for glass production according to claim 1, characterized in that: and the inlet end and the outlet end of the water cooling mechanism (4) are respectively provided with a separation curtain (9).

8. The cooling device for glass production according to claim 1, characterized in that: conveying mechanism (2) include carriage (21), driving motor (22), drive assembly (23) and transfer roller (24), carriage (21) are connected on braced frame (1), and inside this carriage (21) passed precooling mechanism (3), water-cooling mechanism (4) and drying mechanism (5) in proper order, driving motor (22) are connected on carriage (21), and the output of this driving motor (22) is connected in the input of conveying assembly, the input in transfer roller (24) is connected to the output of drive assembly (23), transfer roller (24) rotate to set up on carriage (21).

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