CN113354255A - Crucible heating and cooling system for manufacturing high borosilicate glass - Google Patents

Abstract

The invention discloses a crucible heating and cooling system for manufacturing high borosilicate glass, which comprises a temperature changing module, a power module, a water spraying module and a sealing module, wherein the temperature changing module comprises a workbench, a solid bottom cylinder body arranged at the top of the workbench, an arc-shaped plate fixedly connected with the solid bottom cylinder body, a ring body sleeved outside the arc-shaped plate, a sleeve plate arranged in the solid bottom cylinder body, and an L-shaped ring body sleeved outside the ring body and the solid bottom cylinder body. According to the invention, after the crucible is arranged on the sleeve plate, the refrigerating or heating transmission pipe is inserted into the air inlet pipe, then the motor is started, the motor enables the first bevel gear and the third bevel gear to rotate through the second bevel gear, the rotation directions of the first bevel gear and the third bevel gear are opposite, in the process, the gas entering the annular box body is discharged through the plurality of second through holes, the gas is uniformly blown to the outer surface of the rotating crucible, the outer surface of the crucible is uniformly heated or cooled, the heating or cooling efficiency of the crucible is improved, and the energy consumption is reduced.

Description

Crucible heating and cooling system for manufacturing high borosilicate glass

Technical Field

The invention relates to the technical field of processing of crucibles for manufacturing high borosilicate glass, in particular to a heating and cooling system for crucibles for manufacturing high borosilicate glass.

Background

High borosilicate glass (also called hard glass) is manufactured by melting glass by heating the glass inside by utilizing the conductive characteristic of the glass in a high-temperature state and processing the glass by an advanced production process, and the borosilicate glass is also called as ' 3.3 ' because the linear thermal expansion coefficient is (3.3 x 0.1) × 10-6/K '. The glass is a special glass material with low expansion rate, high temperature resistance, high strength, high hardness, high light transmittance and high chemical stability, and is widely applied to the industries of solar energy, chemical engineering, medical packaging, electric light sources, craft ornaments and the like due to the excellent performance of the glass material. The good performance of the solar cell is widely accepted by all the world, particularly the solar cell is more widely applied in the field of solar energy, and developed countries such as Germany, America and the like are more widely popularized.

When the crucible for manufacturing the high borosilicate glass is used for heating or cooling, the outer surface of the crucible cannot be uniformly heated or cooled, so that the purpose of heating or cooling can be finished only by consuming more time when the crucible is processed, the energy consumption is increased, and the heating and cooling efficiency is seriously reduced.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the temperature-raising and cooling system for the crucible for manufacturing the high borosilicate glass comprises a temperature-raising module, a power module, a water spraying module and a sealing module, wherein the temperature-raising module comprises a workbench, a solid bottom cylinder body arranged at the top of the workbench, an arc-shaped plate fixedly connected with the solid bottom cylinder body, a ring body sleeved outside the arc-shaped plate, a sleeve plate arranged in the solid bottom cylinder body, an L-shaped ring body sleeved outside the ring body and the solid bottom cylinder body, an annular box body arranged between the two L-shaped ring bodies, an air inlet pipe fixedly connected with the annular box body, a first bevel gear sleeved outside the annular box body and an electrical appliance assembly connected with the temperature-raising module;

the power module comprises a motor fixedly connected with the workbench, a second bevel gear sleeved outside an output shaft of the motor, a third bevel gear meshed with the second bevel gear and a rod body fixedly connected with the third bevel gear, the sprinkling module comprises a water receiving tank arranged between the workbench and the solid barrel, a water storage tank fixedly connected with the workbench, a pipe body connected between the water receiving tank and the water storage tank, a spray pipe fixedly connected with the water receiving tank and extending to the inside of the solid barrel, an output pipe fixedly connected with the water receiving tank, a water pump fixedly connected with the output pipe and a connecting pipe connected between the water pump and the water storage tank;

the sealing module comprises a first opening arranged on the ring body, a plate body movably arranged in the first opening and a cover body fixedly connected with the plate body.

By adopting the technical scheme, the structural design of the temperature changing module and the power module is adopted, the outer surface of the crucible to be processed is uniformly heated or cooled, the temperature changing efficiency is improved, then the structural design of the water spraying module is adopted, the temperature changing speed of the crucible is further improved, and the energy consumption is reduced to a certain extent.

The present invention in a preferred example may be further configured to: the electric appliance assembly is composed of a high-temperature fan, an air cooler and two transmission pipes, the annular box body is located between the high-temperature fan and the air cooler, the bottoms of the high-temperature fan and the air cooler are fixedly connected with the top of the first bevel gear, the two transmission pipes are respectively installed on the outer sides of the high-temperature fan and the air cooler, and the transmission pipes are connected with the air inlet pipe in an inserted mode.

By adopting the technical scheme, the crucible can be heated or cooled differently through the high-temperature fan and the air cooler, the function is clear, and the operation is convenient.

The present invention in a preferred example may be further configured to: the arc sets up to a plurality of, and is a plurality of the arc is circular arrangement inside the solid end barrel, be formed with the cavity between solid end barrel and the ring body, the horizontal central line symmetry of L shape ring body about the cavity, annular box cup joints in a plurality of arc outsides, the intake pipe outer wall contacts with two L shape ring inner walls, the intake pipe passes through annular box and the inside intercommunication of cavity.

Through adopting above-mentioned technical scheme, the arc makes the connection of real end barrel and ring body more tend to stably, then the L shape ring body of symmetric distribution can be firmly spacing annular box, promote the structural stability of alternating temperature module.

The present invention in a preferred example may be further configured to: the motor is positioned on the front side of the solid-bottom cylinder, a second opening suitable for the rotation of the second bevel gear is formed in the workbench, the second bevel gear is positioned between the first bevel gear and the third bevel gear, and the second bevel gear is meshed with the first bevel gear and the third bevel gear.

Through adopting above-mentioned technical scheme, drive the rotation of second bevel gear through the motor, under meshing relation and mechanical transmission, realize that crucible and annular box carry out the rotation of opposite direction, make the crucible surface can be heated or receive the cold even, promote crucible machining efficiency.

The present invention in a preferred example may be further configured to: the rod body movably penetrates through the workbench, the water receiving tank and the solid-bottom barrel body, the top end of the rod body is fixedly connected with the bottom of the sleeve plate, and the rod body is movably connected with the water receiving tank through a sealing bearing.

Through adopting above-mentioned technical scheme, sealed bearing has increased the leakproofness of the body of rod with the water receiving case, reduces the probability that liquid water leaked.

The present invention in a preferred example may be further configured to: the water storage tank is located one side of the water receiving tank, the water storage tank is communicated with the inside of the water receiving tank through a pipe body, the water receiving tank is communicated with the inside of the water storage tank through a plurality of spray pipes, and the plurality of spray pipes are arranged on the outer side of the sleeve plate.

By adopting the technical scheme, the spray pipes are distributed in positions, so that the liquid water can uniformly wet the outer surface of the crucible, and the temperature change efficiency of the crucible is improved.

The present invention in a preferred example may be further configured to: the water receiving tank is characterized in that a water leakage hole communicated with the inside of the water receiving tank is formed in the bottom of the inner cavity of the solid bottom barrel body, the water leakage hole is located between the two spray pipes, an output pipe communicated with the water receiving tank penetrates through the water receiving tank and extends to the rear side of the water receiving tank, the water pump is communicated with the inside of the water receiving tank and the inside of the water storage tank through the output pipe and a connecting pipe respectively, and the bottom of the water pump is fixedly connected with the top of the workbench.

Through adopting above-mentioned technical scheme, set up the hole that leaks and can retrieve the liquid water that is located the solid end barrel, improve resource utilization.

The present invention in a preferred example may be further configured to: the radius of the cover body is equal to the inner diameter of the ring body, and the cover body is made of rubber materials.

By adopting the technical scheme, after the cover body made of the rubber material is superposed with the ring body, the cover body and the ring body are firmly connected by the elastic characteristic of the rubber material, so that the discharge speed of the refrigerating gas or the heating gas is reduced.

The present invention in a preferred example may be further configured to: the crucible heating and cooling system for manufacturing the high borosilicate glass further comprises a gas outlet assembly, wherein the gas outlet assembly is composed of a plurality of first through holes and a plurality of second through holes, the first through holes are formed in the plurality of arc-shaped plates respectively, and the second through holes are formed in the inner side of the annular box body respectively.

Through adopting above-mentioned technical scheme, the second through-hole makes the gaseous refrigeration or the heating gas in the ring box more even when blowing out.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, after the crucible is arranged on the sleeve plate, the refrigerating or heating transmission pipe is inserted into the air inlet pipe, then the motor is started, the motor enables the first bevel gear and the third bevel gear to rotate through the second bevel gear, the rotation directions of the first bevel gear and the third bevel gear are opposite, in the process, the gas entering the annular box body is discharged through the plurality of second through holes, the gas is uniformly blown to the outer surface of the rotating crucible, the outer surface of the crucible is uniformly heated or cooled, the heating or cooling efficiency of the crucible is improved, and the energy consumption is reduced.

2. According to the crucible heating and cooling device, water in the water receiving tank is input into the water storage tank through the output pipe and the connecting pipe by the water pump, the water in the water storage tank is injected into the water receiving tank again through the pipe body along with the continuous increase of the water in the water storage tank, then the spray pipe communicated with the water receiving tank sprays water to the rotating crucible, and the outer surface of the crucible is uniformly wetted by liquid water, so that the heating or cooling efficiency of the crucible is improved.

3. In the invention, after the crucible is placed on the sleeve plate, the plate body connected with the cover body is rotated, the cover body is tightly covered with the ring body, and the opening of the plate body which is placed in parallel at the moment is exposed to a small gap, so that gas entering the solid-bottom cylinder body and the ring body can be discharged outwards, the overlarge pressure in the solid-bottom cylinder body is avoided, and the discharge speed of heating gas or refrigerating gas is reduced.

Drawings

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a perspective view of the overall structure of the present invention;

FIG. 3 is a front sectional view of the overall structure of the present invention;

FIG. 4 is a front cross-sectional view of the overall structure of the present invention;

FIG. 5 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 6 is a front sectional view of a portion of the structure of the present invention;

FIG. 7 is a top view of the overall structure of the present invention;

FIG. 8 is an enlarged view of the portion A of FIG. 6 according to the present invention.

Reference numerals:

100. a temperature changing module; 110. a work table; 120. a solid-bottomed cylinder; 130. a ring body; 140. an arc-shaped plate; 150. sheathing; 160. an L-shaped ring body; 170. an annular box body; 180. an air inlet pipe; 190. a first bevel gear;

200. a power module; 210. a motor; 220. a second bevel gear; 230. a third bevel gear; 240. a rod body;

300. a sprinkling module; 310. a water receiving tank; 320. a water storage tank; 330. a pipe body; 340. a nozzle; 350. an output pipe; 360. a water pump; 370. a connecting pipe;

400. an electrical component; 410. a high temperature fan; 420. an air cooler; 430. a conveying pipe;

500. a sealing module; 510. a first opening; 520. a plate body; 530. a cover body;

600. an air outlet assembly; 610. a first through hole; 620. a second through hole;

700. a second opening.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.

The heating and cooling system for the high borosilicate glass manufacturing crucible provided by some embodiments of the present invention is described below with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1-8 and fig. 1-8, the crucible heating and cooling system for manufacturing borosilicate glass provided by the present invention includes a temperature varying module 100, a power module 200, a water spraying module 300, and a sealing module 500, where the temperature varying module 100 includes a workbench 110, a solid bottom cylinder 120 installed on the top of the workbench 110, an arc plate 140 fixedly connected to the solid bottom cylinder 120, and a ring body 130 sleeved on the outer side of the arc plate 140, the arc plate 140 is used to complete the connection between the ring body 130 and the solid bottom cylinder 120 and a sleeve plate 150 embedded in the solid bottom cylinder 120, in this embodiment, the sleeve plate 150 is used to fix a crucible, an L-shaped ring body 160 sleeved on the outer side of the ring body 130 and the solid bottom cylinder 120, and the L-shaped ring body 160 is used to limit the annular box body 170, so that the annular box body 170 can stably rotate around the crucible, and the annular box body 170 installed between the two L-shaped ring bodies 160, The crucible temperature-changing device comprises an air inlet pipe 180 fixedly connected with the annular box body 170, a first bevel gear 190 sleeved outside the annular box body 170 and an electrical component 400 connected with the temperature-changing module 100, wherein the electrical component 400 inputs high-temperature gas or low-temperature gas into the annular box body 170 through the air inlet pipe 180, and then heats or cools the crucible through the gas flowing out of the annular box body 170;

the power module 200 comprises a motor 210 fixedly connected with the worktable 110, a second bevel gear 220 sleeved outside an output shaft of the motor 210, a third bevel gear 230 engaged with the second bevel gear 220, and a rod body 240 fixedly connected with the third bevel gear 230; in this embodiment, the output shaft of the motor 210 drives the second bevel gear 220 to rotate, and then, under the meshing relationship, the first bevel gear 190 and the third bevel gear 230 rotate along with the second bevel gear and rotate in opposite directions, the first bevel gear 190 drives the annular box 170 to rotate clockwise, and the third bevel gear 230 drives the bushing plate 150 provided with the crucible to rotate counterclockwise through the rod 240, so that the crucible can more comprehensively contact with the gas in the annular box 170, and the purpose of heating or cooling is achieved;

the sprinkling module 300 comprises a water receiving tank 310 arranged between the workbench 110 and the solid-bottom cylinder 120, the water receiving tank 310 is used for recovering liquid water in the solid-bottom cylinder 120 and improving the resource utilization rate, a water storage tank 320 fixedly connected with the workbench 110 is used for delivering water into the water receiving tank 310 in real time, so that a spray pipe 340 can heat or cool a crucible, a pipe body 330 connected between the water receiving tank 310 and the water storage tank 320 is used for conveying water in the water storage tank 320 into the water receiving tank 310, the spray pipe 340 fixedly connected with the water receiving tank 310 and extending into the solid-bottom cylinder 120, an output pipe 350 fixedly connected with the water receiving tank 310, a water pump 360 fixedly connected with the output pipe 350, a connecting pipe 370 connected between the water pump 360 and the water storage tank 320, and the water in the water receiving tank 310 is pumped out by the water pump 360, and then the pumped out water is conveyed back into the water storage tank 320 again through the connecting pipe 370, the water resource is utilized to form circulation;

the sealing module 500 includes a first opening 510 opened on the ring body 130, a plate 520 movably installed inside the first opening 510, and a cover 530 fixedly connected to the plate 520; when the cover 530 and the ring 130 are closed by the plate 520, the plate 520 is in a horizontal state, and then the first opening 510 exposes a small gap, so that the gas entering the solid-bottom cylinder 120 and the ring 130 can be discharged outwards, thereby avoiding the excessive pressure inside the solid-bottom cylinder 120, and meanwhile, the exposed small gap controls the discharge speed of the gas inside the solid-bottom cylinder 120, and improving the heating or cooling effect of the crucible.

Specifically, the electrical appliance assembly 400 is composed of a high-temperature fan 410, an air cooler 420 and two transmission pipes 430, the annular box body 170 is located between the high-temperature fan 410 and the air cooler 420, the bottoms of the high-temperature fan 410 and the air cooler 420 are fixedly connected with the top of the first bevel gear 190, the two transmission pipes 430 are respectively installed on the outer sides of the high-temperature fan 410 and the air cooler 420, the transmission pipes 430 are connected with the air inlet pipe 180 in an inserted manner, when heating or cooling operation is performed, only the two transmission pipes 430 need to be distinguished, then the transmission pipes 430 are connected with the air inlet pipe 180 in an inserted manner, and gas for heating or cooling can be input into the annular box body 170, so that the purpose of heating or cooling is achieved.

Further, the arc 140 sets up to a plurality of, and is a plurality of the arc 140 is circular arrangement inside real end barrel 120, and a plurality of arcs 140 make the connection of real end barrel 120 and ring body 130 more firm, be formed with the cavity between real end barrel 120 and the ring body 130, L shape ring body 160 is symmetrical about the horizontal central line of cavity, has promoted overall structure's aesthetic property, annular box 170 cup joints in a plurality of arc 140 outsides, and arc 140 carries on spacingly to annular box 170, makes its motion more stable, intake pipe 180 outer wall and two L shape ring body 160 inner walls contact, intake pipe 180 passes through annular box 170 and the inside intercommunication of cavity.

Further, the motor 210 is located at the front side of the solid-bottom cylinder 120, the workbench 110 is provided with a second opening 700 suitable for the rotation of the second bevel gear 220, the second opening 700 enables the second bevel gear 220 to normally rotate, so as to ensure the normal operation of the power module 200, the second bevel gear 220 is located between the first bevel gear 190 and the third bevel gear 230, the second bevel gear 220 is meshed with the first bevel gear 190 and the third bevel gear 230, and under the meshing relationship, the first bevel gear 190 and the third bevel gear 230 can simultaneously rotate and reverse in rotation, so that the whole crucible can be heated or cooled more uniformly.

Further, the rod 240 movably penetrates through the workbench 110, the water receiving tank 310 and the solid-bottom cylinder 120, the top end of the rod 240 is fixedly connected with the bottom of the sleeve plate 150, the rod 240 is movably connected with the water receiving tank 310 through a sealing bearing, when the third bevel gear 230 rotates, the rod 240 drives the sleeve plate 150 provided with the crucible to rotate anticlockwise and then is matched with the annular box body 170 rotating clockwise, and the crucible is heated and cooled more uniformly.

Further, the storage water tank 320 is located one side of the water receiving tank 310, the storage water tank 320 is communicated with the inside of the water receiving tank 310 through the pipe body 330, the water receiving tank 310 is communicated with the inside of the storage water tank 320 through the spray pipes 340, the spray pipes 340 are arranged in a plurality of numbers, the spray pipes 340 are all arranged on the outer side of the sleeve plate 150, the crucible arranged on the sleeve plate 150 is surrounded by the spray pipes 340, and in addition, the crucible is in a rotating state, so that the whole outer surface of the crucible can be influenced by hot water or cold water, and the heating or cooling efficiency of the crucible is improved.

Further, the hole that leaks that communicates with the inside of water receiving tank 310 is seted up to real end barrel 120 inner chamber bottom, the hole that leaks is located between two spray tubes 340, sets up the hole that leaks and can prevent that the liquid water in real end barrel 120 from spilling over, effectively retrieves liquid water, improves the utilization ratio of liquid water, with the output tube 350 of water receiving tank 310 intercommunication passes water receiving tank 310 and extends to the water receiving tank 310 rear side, water pump 360 communicates with the inside of water receiving tank 310 and the inside of storage water tank 320 through output tube 350 and connecting pipe 370 respectively, 360 bottom and workstation 110 top rigid couplings of water pump, and water pump 360 accomplishes the circulation of liquid water between storage tank 320 and the water receiving tank 310 through output tube 350 and connecting pipe 370.

Example two:

with reference to fig. 1-4 and 7, on the basis of the first embodiment, the radius of the cover 530 is equal to the inner diameter of the ring body 130, and the cover 530 is made of a rubber material, and by adopting the structural design, the cover 530 can exactly seal the inner diameter of the ring body 130, so that the exhaust speed of air in the solid-bottom cylinder 120 is reduced, and the heating or cooling efficiency of the crucible is improved.

Example three:

referring to fig. 1 and fig. 3 to 6, in the above embodiment, the temperature rising and cooling system for a crucible used for manufacturing borosilicate glass further includes a gas outlet assembly 600, where the gas outlet assembly 600 is composed of a plurality of first through holes 610 and a plurality of second through holes 620, the plurality of first through holes 610 are respectively opened on the plurality of arc-shaped plates 140, the plurality of second through holes 620 are respectively opened inside the annular box 170, the plurality of first through holes 610 opened on the arc-shaped plates 140 can reduce the obstruction of the arc-shaped plates 140 to the gas flowing out of the annular box 170, and then the plurality of second through holes 620 make the gas in the annular box 170 flow out more uniformly.

The working principle and the using process of the invention are as follows: in the initial state, the crucible is installed in the bushing plate 150, then the cover 530 seals the ring body 130, the speed of the loss of the refrigerating gas or the heating gas at the periphery of the crucible is reduced, then the refrigerating or heating transmission pipe 430 is connected with the air inlet pipe 180, then the water in the water storage tank 320 is heated or refrigerated, when the invention is put into practical use, the motor 210 drives the second bevel gear 220 to rotate, under the meshing relationship, the second bevel gear 220 simultaneously drives the first bevel gear 190 and the third bevel gear 230 to rotate, the rotating directions of the first bevel gear 190 and the third bevel gear 230 are opposite, during the period, the ring-shaped box body 170 rotates clockwise along with the first bevel gear 190, the bushing plate 150 provided with the crucible rotates counterclockwise along with the third bevel gear 230 through the rod body 240, then the refrigerating or heating gas entering the ring-shaped box body 170 through the air inlet pipe 180 is blown to the rotating crucible through the plurality of second through holes 620, the crucible surface is by even heating or refrigeration, the crucible intensification or cooling efficiency has been improved, meanwhile, water pump 360 passes through the output tube 350 and carries the liquid water in the water receiving tank 310 to the storage water tank 320 in through connecting pipe 370, along with the water increase in the storage water tank 320, its inside water pours into to the water receiving tank 310 through body 330 in, then begin to spray water with a plurality of spray tubes 340 of water receiving tank 310 intercommunication, high temperature or microthermal liquid water evenly drenches the crucible surface, help the crucible promote the speed of intensification or cooling, reduce the consumption of the energy, then in the liquid water that flows down along the crucible outer wall gets back to the water receiving tank 310 again through leaking the hole, resource utilization has been improved when avoiding liquid water to leak.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be understood that when an element is referred to as being "mounted to," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (9)

1. High borosilicate glass makes with crucible intensification cooling system, its characterized in that includes:

the temperature changing module (100) comprises a workbench (110), a solid bottom cylinder (120) arranged at the top of the workbench (110), an arc-shaped plate (140) fixedly connected with the solid bottom cylinder (120), ring bodies (130) sleeved outside the arc-shaped plate (140), a sleeve plate (150) arranged in the solid bottom cylinder (120), L-shaped ring bodies (160) sleeved outside the ring bodies (130) and the solid bottom cylinder (120), an annular box body (170) arranged between the two L-shaped ring bodies (160), an air inlet pipe (180) fixedly connected with the annular box body (170), a first bevel gear (190) sleeved outside the annular box body (170) and an electrical appliance assembly (400) connected with the temperature changing module (100);

the power module (200) comprises a motor (210) fixedly connected with the workbench (110), a second bevel gear (220) sleeved outside an output shaft of the motor (210), a third bevel gear (230) meshed with the second bevel gear (220) and a rod body (240) fixedly connected with the third bevel gear (230);

the sprinkling module (300) comprises a water receiving tank (310) arranged between the workbench (110) and the solid-bottom cylinder body (120), a water storage tank (320) fixedly connected with the workbench (110), a pipe body (330) connected between the water receiving tank (310) and the water storage tank (320), a spraying pipe (340) fixedly connected with the water receiving tank (310) and extending to the inside of the solid-bottom cylinder body (120), an output pipe (350) fixedly connected with the water receiving tank (310), a water pump (360) fixedly connected with the output pipe (350) and a connecting pipe (370) connected between the water pump (360) and the water storage tank (320);

the sealing module (500) comprises a first opening (510) formed in the ring body (130), a plate body (520) movably mounted in the first opening (510), and a cover body (530) fixedly connected with the plate body (520).

2. The heating and cooling system for the crucible for manufacturing the high borosilicate glass according to claim 1, wherein the electrical component (400) is composed of a high temperature fan (410), an air cooler (420) and two transmission pipes (430), the annular box body (170) is located between the high temperature fan (410) and the air cooler (420), the bottoms of the high temperature fan (410) and the air cooler (420) are fixedly connected with the top of the first bevel gear (190), the two transmission pipes (430) are respectively installed on the outer sides of the high temperature fan (410) and the air cooler (420), and the transmission pipes (430) are connected with the air inlet pipe (180) in an inserting mode.

3. The heating and cooling system for the high borosilicate glass manufacturing crucible according to claim 1, wherein the arc-shaped plates (140) are provided in plurality, the arc-shaped plates (140) are circularly arranged inside the solid bottom cylinder (120), a cavity is formed between the solid bottom cylinder (120) and the ring body (130), the L-shaped ring body (160) is symmetrical about the horizontal center line of the cavity, the annular box body (170) is sleeved outside the arc-shaped plates (140), the outer wall of the air inlet pipe (180) is in contact with the inner walls of the two L-shaped ring bodies (160), and the air inlet pipe (180) is communicated with the inside of the cavity through the annular box body (170).

4. The heating and cooling system for the high borosilicate glass manufacturing crucible according to claim 1, wherein the motor (210) is located at the front side of the solid bottom cylinder (120), the workbench (110) is provided with a second opening (700) suitable for the rotation of the second bevel gear (220), the second bevel gear (220) is located between the first bevel gear (190) and the third bevel gear (230), and the second bevel gear (220) is meshed with the first bevel gear (190) and the third bevel gear (230).

5. The heating and cooling system for the high borosilicate glass manufacturing crucible according to claim 1, wherein the rod body (240) movably penetrates through the workbench (110), the water receiving tank (310) and the solid bottom cylinder (120), the top end of the rod body (240) is fixedly connected with the bottom of the sleeve plate (150), and the rod body (250) is movably connected with the water receiving tank (310) through a sealed bearing.

6. The heating and cooling system for the high borosilicate glass manufacturing crucible according to claim 1, wherein the water storage tank (320) is located on one side of the water receiving tank (310), the water storage tank (320) is communicated with the inside of the water receiving tank (310) through a pipe body (330), the water receiving tank (310) is communicated with the inside of the water storage tank (320) through a plurality of nozzles (340), the plurality of nozzles (340) are arranged in plurality, and the plurality of nozzles (340) are all arranged on the outer side of the sleeve plate (150).

7. The heating and cooling system for the high borosilicate glass manufacturing crucible according to claim 1, wherein the bottom of the inner cavity of the solid bottom cylinder (120) is provided with a water leakage hole communicated with the inside of the water receiving tank (310), the water leakage hole is positioned between the two spray pipes (340), an output pipe (350) communicated with the water receiving tank (310) penetrates through the water receiving tank (310) and extends to the rear side of the water receiving tank (310), the water pump (360) is respectively communicated with the inside of the water receiving tank (310) and the inside of the water storage tank (320) through the output pipe (350) and a connecting pipe (370), and the bottom of the water pump (360) is fixedly connected with the top of the workbench (110).

8. The elevated temperature and cooling system for a high borosilicate glass crucible according to claim 1, wherein the radius of the cover (530) is equal to the inner diameter of the ring body (130), and the cover (530) is made of a rubber material.

9. The system for heating and cooling a crucible for manufacturing borosilicate glass according to any one of claims 1 to 8, further comprising a gas outlet member (600), wherein the gas outlet member (600) is composed of a plurality of first through holes (610) and a plurality of second through holes (620), the plurality of first through holes (610) are opened in the plurality of arc-shaped plates (140), and the plurality of second through holes (620) are opened in the inner side of the annular box (170).

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