CN115124220A - Cooling device for processing waste glass fiber into glass clinker - Google Patents

Abstract

The invention relates to a cooling device, in particular to a cooling device for processing waste glass fibers into glass clinker. The invention aims to provide a cooling device for processing waste glass fibers into glass clinker, which can accelerate the cooling speed of high-temperature molten glass. The invention provides a cooling device for processing waste glass fibers into glass clinker, which comprises support frames, support legs and a cooling cylinder, wherein the support frames are symmetrically connected to the left side and the right side of the lower part of the outer side of the cooling cylinder in a front-back manner, and the support legs are connected to the bottoms of the four support frames. According to the invention, the motor is used as a driving force, the rotating rod can be driven to rotate, the rotating rod drives the supporting frame to rotate, and the supporting frame drives the material carrying frame to rotate, so that high-temperature glass metal can be driven to rotate, the cooling speed of the high-temperature glass metal can be increased, and the working efficiency can be improved.

Description

Cooling device for processing waste glass fiber into glass clinker

Technical Field

The invention relates to a cooling device, in particular to a cooling device for processing waste glass fibers into glass clinker.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, and when the glass clinker is prepared, the glass fiber is usually smelted to obtain high-temperature glass liquid, and then the high-temperature glass liquid is cooled to obtain the glass clinker.

Patent application CN202626008U, published No. 20121226, discloses a water filter tank for preparing glass clinker. It is mainly characterized in that: the water filter comprises a water filter box and a bracket for fixing the water filter box in an overhead manner, wherein a water outlet is formed in the upper part of the side wall of the water filter box, a groove-shaped sedimentation tank is formed in the center of the bottom of the water filter box, a movable filter screen is arranged between the sedimentation tank and the water filter box, and a water outlet is formed in the sedimentation tank; a discharging hole with the diameter of 150 mm-250 mm is arranged at the bottom of the deposition tank; the upper port of the discharging hole is provided with a cover plate and a sealing washer which are matched with each other, and the lower port is welded with a cross rod; the cover plate is provided with a hook matched with the cross rod. The invention has the characteristics of improving the output rate of the glass clinker, avoiding floating dust formed by shoveling the dried glass slag to influence the health of operators, and greatly reducing the labor intensity of manual shoveling and boxing, and is mainly used for a water filter box for cooling the glass clinker. Although the above-mentioned patent can cool off high temperature glass liquid, but high temperature glass liquid is motionless when placing in the drainage case, and the area of contact of high temperature glass liquid and water is limited, leads to cooling rate slower, influences work efficiency.

In view of the above, there is a need for a cooling device for processing waste glass fibers into glass clinker, which can drive the high-temperature molten glass to rotate, so as to solve the above problems.

Disclosure of Invention

The invention aims to overcome the defects that when the existing water filtering box for preparing glass clinker cools high-temperature glass liquid, the high-temperature glass liquid is placed in the water filtering box and is still, the contact area of the high-temperature glass liquid and water is limited, and the cooling speed is slow.

The invention is realized by the following technical approaches:

the utility model provides a cooling device that glass grog was processed into to useless glass fiber, is including support frame, stabilizer blade and cooling cylinder, and the left and right sides of cooling cylinder outside lower part all is connected with the support frame of symmetry formula around, and four support frame bottoms all are connected with the stabilizer blade, still including runner assembly and place the subassembly, are provided with on the cooling cylinder to be used for driving high temperature glass liquid and carry out pivoted runner assembly, are provided with on the runner assembly to be used for placing the subassembly of placing of high temperature glass liquid.

Optionally, the runner assembly is including bracing piece, a supporting bench, protective frame, motor and rotary rod, and the even interval in cooling cylinder upper portion is connected with three bracing piece, is connected with a supporting bench between the three bracing piece upper portion, and a supporting bench top intermediate junction has protective frame, and the protective frame inboard is connected with the motor, and the output shaft downside of motor is connected with the rotary rod, and the rotary rod rotary type runs through a supporting bench middle part.

Optionally, the placing assembly comprises a supporting frame, loading frames and a handle, the supporting frame is connected to the lower portion of the rotating rod and located inside the cooling cylinder, the three loading frames are placed on the inner side of the supporting frame, and the handle is connected to the upper portion of the outer side of each loading frame.

Optionally, the cooling device further comprises a cooling component for circularly cooling water in the cooling cylinder, the cooling component comprises a circulating pipe, circulating pumps, cooling fins, a supporting shell and a fan, the circulating pipe is installed on the upper portion of the outer side of the cooling cylinder, two ends of the circulating pipe are connected and communicated with the cooling cylinder, the circulating pumps are symmetrically connected to the left and right of the lower portion of the rear side of the cooling cylinder in a bilateral mode, tops of the two circulating pumps are connected and communicated with the circulating pipe, bottoms of the two circulating pumps are connected and communicated with the cooling cylinder, the cooling fins are connected to the circulating pipe at intervals, the supporting shell is connected to the upper portion of the outer side of the cooling cylinder, the circulating pipe is located inside the supporting shell, the fans are connected to the upper portion of the supporting shell at even intervals, exhaust ports are evenly formed in the bottom of the supporting shell at intervals, and correspond to the fan one another exhaust port.

Optionally, still including being used for collecting the collection subassembly of clearance to the piece that the explodes and split the production, collect the subassembly including the filter screen, long-pending material frame, rotation axis and arc push rod, the inboard sub-unit connection of cooling cylinder has the filter screen, the carriage is located the filter screen top, cooling cylinder rear side sub-unit connection has long-pending material frame and communicates, long-pending material frame lower part front side is connected with the filter screen, filter screen middle part rotary type is provided with the rotation axis, the rotation axis rotary type runs through the cooling cylinder bottom, rotation axis upper portion is connected with arc push rod, arc push rod bottom and filter screen contact.

Optionally, still including the protection subassembly that is used for avoiding high temperature glass liquid to splash toward outer, the protection subassembly is including fixed frame, rotatory ring, the ring gear, the gear, lead screw and apron, be connected with fixed frame on the brace table, protection frame upper portion also is connected with fixed frame, the rotary type is provided with rotatory ring between two fixed frames, rotatory ring inboard is connected with the ring gear, rotary rod lower part slidingtype is provided with the apron, the apron blocks cooling cylinder upper portion, the even interval rotary type in the brace table outside is provided with three lead screws, three lead screw lower parts all with apron threaded connection, three lead screws are located the bracing piece inboard respectively, three lead screw upper portions all are connected with the gear, gear and ring gear meshing.

Optionally, still including being used for driving rotation axis pivoted drive assembly, drive assembly is including the guide block, the carriage, first spring, the slide bar, second spring and groove section of thick bamboo, long-pending material frame upper portion left and right sides all is connected with the guide block, the slidingtype is provided with the carriage between two guide blocks, two fixed frames are run through to carriage upper end slidingtype, the apron up-moving can contact with the carriage, all be connected with first spring between two guide block bottoms and the carriage, the sliding type that sideslips before the carriage lower part is provided with the slide bar, the rotation axis bottom is connected with the groove section of thick bamboo, the slide bar front end slides on the groove section of thick bamboo, be connected with the second spring between slide bar and the carriage.

Optionally, the first spring is a compression spring.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the motor is used as a driving force, the rotating rod can be driven to rotate, the rotating rod drives the supporting frame to rotate, and the supporting frame drives the material carrying frame to rotate, so that high-temperature glass metal can be driven to rotate, the cooling speed of the high-temperature glass metal can be increased, and the working efficiency can be improved.

2. According to the invention, by starting the circulating pump, the circulating pump can pump water in the cooling cylinder, so that the water in the cooling cylinder flows into the circulating pipe, the heat of the water can be absorbed by the radiating fins, and the cooled water flows back into the cooling cylinder, so that the water can be circularly cooled, and further the high-temperature molten glass can be better cooled.

3. The cover plate can block the upper part of the cooling cylinder, and when the high-temperature molten glass is cracked, the cover plate can prevent the high-temperature molten glass from splashing outwards to cause accidental injury, and the safety is high.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic structural diagram of the rotating assembly of the present invention.

Fig. 4 is a schematic structural diagram of the placement component of the present invention.

Fig. 5 is a partial structural schematic diagram of the placement module of the present invention.

Fig. 6 is a schematic structural diagram of the cooling assembly of the present invention.

Fig. 7 is a partial structural schematic view of the cooling assembly of the present invention.

Fig. 8 is a schematic view of the structure of the collecting assembly of the present invention.

FIG. 9 is a schematic view of another embodiment of the collection assembly of the present invention.

Fig. 10 is a schematic structural view of the shield assembly of the present invention.

Fig. 11 is a partial structural schematic view of the shield assembly of the present invention.

Fig. 12 is a schematic structural diagram of the driving assembly of the present invention.

Fig. 13 is a schematic view of another driving assembly according to the present invention.

Fig. 14 is a partial structural schematic diagram of the driving assembly of the present invention.

Description of reference numerals: 1_ support frame, 2_ support leg, 3_ cooling cylinder, 4_ rotating component, 401_ support bar, 402_ support table, 403_ protective frame, 404_ motor, 405_ rotating bar, 5_ placing component, 501_ support frame, 502_ loading frame, 503_ handle, 6_ cooling component, 601_ circulating tube, 602_ circulating pump, 603_ cooling fin, 604_ support shell, 605_ fan, 606_ exhaust port, 7_ collecting component, 701_ filter screen, 702_ material collecting frame, 703_ rotating shaft, 704_ arc push rod, 8_ protective component, 801_ fixed frame, 802_ rotating ring, 803_ toothed ring, 804_ gear, 805_ screw rod, 806_ cover plate, 9_ driving component, 901_ guide block, 902_ sliding frame, 903_ first spring, 904_ sliding bar, 905_ second spring, 906_ groove barrel.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

A cooling device for processing waste glass fibers into glass clinker is shown in figures 1-5 and comprises support frames 1, support legs 2, a cooling cylinder 3, a rotating assembly 4, a placing assembly 5 and a cooling assembly 6, wherein the support frames 1 are symmetrically welded to the front and back of the left side and the right side of the lower portion of the outer side of the cooling cylinder 3, the support legs 2 are welded to the bottoms of the four support frames 1, the rotating assembly 4 is arranged on the cooling cylinder 3, and the placing assembly 5 is arranged on the rotating assembly 4.

Referring to fig. 1 and 3, the rotating assembly 4 includes a support rod 401, a support platform 402, a protection frame 403, a motor 404 and a rotating rod 405, the three support rods 401 are uniformly connected to the upper portion of the cooling cylinder 3 at intervals, the support platform 402 is welded between the upper portions of the three support rods 401, the protection frame 403 is welded in the middle of the top of the support platform 402, the motor 404 is bolted to the inner side of the protection frame 403, the rotating rod 405 is connected to the lower side of an output shaft of the motor 404, and the rotating rod 405 rotatably penetrates through the middle of the support platform 402.

Referring to fig. 2, fig. 4 and fig. 5, the placing assembly 5 comprises a supporting frame 501, a material carrying frame 502 and a handle 503, the supporting frame 501 is connected to the lower portion of the rotating rod 405, the supporting frame 501 is located inside the cooling cylinder 3, three material carrying frames 502 are placed on the inner side of the supporting frame 501, the starting motor 404 can drive the supporting frame 501 to rotate, the supporting frame 501 can drive the material carrying frame 502 to rotate, thereby high-temperature molten glass can be driven to rotate, the cooling speed of the high-temperature molten glass can be accelerated, and the handle 503 is welded on the upper portion of the outer side of the material carrying frame 502.

When the device needs to be used, people firstly place the device at a specified position, then pour a proper amount of water into the cooling cylinder 3, and then pour high-temperature molten glass into the three material carrying frames 502 in sequence, the water in the cooling cylinder 3 can absorb heat in the high-temperature molten glass in the material carrying frames 502, so that the high-temperature molten glass in the material carrying frames 502 can be cooled, meanwhile, people can start the motor 404, the output shaft of the motor 404 rotates to drive the rotating rod 405 to rotate, the rotating rod 405 rotates to drive the supporting frame 501 to rotate, the supporting frame 501 rotates to drive the material carrying frames 502 to rotate, so that the high-temperature molten glass can be driven to rotate, the cooling speed of the high-temperature molten glass can be accelerated, when the high-temperature molten glass is cooled to a certain degree, the high-temperature molten glass can be exploded, the exploded high-temperature molten glass can form glass clinker, and the purpose of processing the molten glass into the glass clinker can be realized, after the glass liquid in the material loading frame 502 is completely exploded into the glass clinker, the motor 404 is turned off, so that the support frame 501 and the material loading frame 502 stop rotating, then people can hold the handle 503 tightly to take out the material loading frame 502, then take the processed glass clinker in the material loading frame 502 away, and then put the material loading frame 502 back to the original position.

Example 2

On the basis of embodiment 1, referring to fig. 1, 6 and 7, the cooling device further comprises a cooling assembly 6, wherein the cooling assembly 6 comprises a circulating pipe 601, a circulating pump 602, a heat sink 603, a supporting shell 604 and a fan 605, the circulating pipe 601 is installed at the upper part of the outer side of the cooling cylinder 3, two ends of the circulating pipe 601 are connected and communicated with the cooling cylinder 3, the circulating pumps 602 are symmetrically connected to the lower part of the rear side of the cooling cylinder 3 in a left-right manner, the tops of the two circulating pumps 602 are connected and communicated with the circulating pipe 601, the bottoms of the two circulating pumps 602 are connected and communicated with the cooling cylinder 3, the heat sink 603 is connected to the circulating pipe 601 at intervals, the circulating pump 602 is started to transmit water in the cooling cylinder 3 into the circulating pipe 601, at this time, the heat sink 603 can absorb heat of the water to achieve the purpose of cooling and dissipating heat of the water, the supporting shell 604 is welded at the upper part of the outer side of the cooling cylinder 3, the circulating pipe 601 is located inside the supporting shell 604, the upper portion of the supporting shell 604 is connected with fans 605 at regular intervals, the bottom of the supporting shell 604 is provided with air outlets 606 at regular intervals, and the air outlets 606 correspond to the fans 605 one by one.

When the device needs to be used, people can start the circulating pump 602 and the fan 605, the circulating pump 602 can extract water in the cooling cylinder 3, water in the cooling cylinder 3 flows into the circulating pipe 601, at the moment, the cooling fin 603 can absorb heat of the water, the purpose of cooling and radiating the water is achieved, the cooled water flows back into the cooling cylinder 3, water can be cooled circularly, high-temperature glass liquid can be cooled better, meanwhile, the fan 605 can blow downwards, the cooling fin 603 can be radiated, when the cooling fin 603 is radiated, hot air of the cooling fin 603 can be discharged outwards through the exhaust port 606, and when the device does not need to be used, people can close the circulating pump 602 and the fan 605.

Referring to fig. 2, fig. 8 and fig. 9, the collecting device 7 is further included, the collecting device 7 includes a filter screen 701, a material accumulation frame 702, a rotating shaft 703 and an arc push rod 704, the filter screen 701 is connected to the lower portion of the inner side of the cooling cylinder 3, the support frame 501 is located above the filter screen 701, the material accumulation frame 702 is welded to the lower portion of the rear side of the cooling cylinder 3 and communicated with the lower portion of the rear side of the cooling cylinder 3, the rotating shaft 703 is rotatably arranged in the middle of the filter screen 701, the rotating shaft 703 rotatably penetrates through the bottom of the cooling cylinder 3, the arc push rod 704 is connected to the upper portion of the rotating shaft 703, the bottom of the arc push rod 704 is in contact with the filter screen 701, and the arc push rod 704 rotates to scrape fragments on the filter screen 701 into the material accumulation frame 702, so that people can clean the filter screen 701 conveniently.

When high temperature glass liquid cools off to explode and splits, explode and split the in-process, high temperature glass liquid can explode out the piece, the piece can be toward splashing outward and drop on filter screen 701, filter screen 701 can filter the piece, when needs clear up the piece on filter screen 701, people can rotate rotation axis 703, rotation axis 703 rotates and drives arc push rod 704 and rotate, arc push rod 704 can scrape the piece on the filter screen 701 to long-pending material frame 702 in, when the piece is whole to scraping to long-pending material frame 702 in, stall rotation axis 703, then people can clear up the piece in long-pending material frame 702.

Referring to fig. 1, 10 and 11, the protection device 8 further comprises a protection assembly 8, the protection assembly 8 comprises a fixed frame 801, a rotating ring 802, a toothed ring 803, a gear 804, a screw rod 805 and a cover plate 806, the fixed frame 801 is welded on the support platform 402, the fixed frame 801 is also welded on the upper portion of the protection frame 403, the rotating ring 802 is rotatably arranged between the two fixed frames 801, the toothed ring 803 is connected to the inner side of the rotating ring 802, the cover plate 806 is slidably arranged on the lower portion of the rotating rod 405, the cover plate 806 blocks the upper portion of the cooling cylinder 3, when the high-temperature glass liquid is burst, the cover plate 806 can prevent the high-temperature glass liquid from being splashed outwards to cause accidental injury, the safety is high, three screw rods 805 are uniformly and rotatably arranged on the outer side of the support table 402 at intervals, the lower portions of the three screw rods 805 are in threaded connection with the cover plate 806, the three screw rods 805 are respectively located on the inner sides of the support rods 401, gears 804 are connected to the upper portions of the three screw rods 805, and the gears 804 are meshed with the toothed rings 803.

When the device needs to be used, people firstly rotate the rotating ring 802 forward, the rotating ring 802 forward drives the toothed ring 803 forward, the toothed ring 803 forward drives the gear 804 forward, the gear 804 forward drives the screw 805 forward, the screw 805 forward drives the cover plate 806 to move upwards to be opened, so that the cover plate 806 does not block the upper part of the cooling cylinder 3 any more, after the cover plate 806 is completely opened, the rotating ring 802 stops rotating, then high-temperature glass liquid is poured into the material loading frame 502, then the rotating ring 802 is rotated reversely, the toothed ring 803 is driven to rotate reversely, the gear 803 rotates reversely to drive the gear 804 to rotate reversely, the gear 804 rotates reversely to drive the screw 805 to rotate reversely, the screw 805 rotates reversely to drive the cover plate 806 to move downwards to reset, so that the cover plate 806 blocks the upper part of the cooling cylinder 3 again, when the high-temperature glass liquid is cracked, the cover plate 806 can avoid accidental injury caused by splashing of the high-temperature glass liquid, and the safety is high.

Referring to fig. 1, 12, 13 and 14, the device further includes a driving assembly 9, the driving assembly 9 includes guide blocks 901, a sliding frame 902, a first spring 903, a sliding rod 904, a second spring 905 and a grooved drum 906, the guide blocks 901 are welded on the left and right sides of the upper portion of the material stacking frame 702, the sliding frame 902 is slidably disposed between the two guide blocks 901, two fixing frames 801 slidably penetrate through the upper end of the sliding frame 902, the cover plate 806 moves upward and contacts with the sliding frame 902, the first spring 903 is connected between the bottom of the two guide blocks 901 and the sliding frame 902, the first spring 903 is a compression spring, the compression spring has a certain elasticity and can drive the sliding frame 902 to reset, the sliding rod 904 is movably disposed on the front side of the lower portion of the sliding frame 902, the grooved drum 906 is connected to the bottom of the rotating shaft 703, the front end of the sliding rod 904 slides on the grooved drum 906, the grooved drum 906 can drive the rotating shaft 703 to rotate, thereby replacing manual rotation of the rotating shaft 703, time and labor are saved, and a second spring 905 is connected between the sliding rod 904 and the sliding frame 902.

When the cover plate 806 moves upwards, the cover plate 806 contacts with the sliding frame 902, the cover plate 806 can extrude the sliding frame 902 to move upwards, the guide block 901 plays a role in guiding, the first spring 903 is compressed, the sliding frame 902 moves upwards to drive the sliding rod 904 to move upwards, the sliding rod 904 moves upwards to drive the groove barrel 906 to rotate, the groove barrel 906 rotates to drive the rotating shaft 703 to rotate, thereby replacing manual rotating of the rotating shaft 703, time and labor are saved, when the cover plate 806 moves downwards, the cover plate 806 can be separated from the sliding frame 902, the first spring 903 recovers the original state, the sliding frame 902 and the sliding rod 904 are driven to move downwards to reset, the groove barrel 906 can extrude the sliding rod 904 to move backwards, the second spring 905 is compressed, after the sliding rod 904 completely resets, the second spring 905 recovers the original state, the sliding rod 904 can be driven to move forwards to reset, and the front end of the sliding rod 904 can be clamped on the groove barrel 906.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. The utility model provides a waste glass fiber processes into glass grog's cooling device, including support frame (1), stabilizer blade (2) and cooling cylinder (3), the equal front and back symmetry formula in the left and right sides of cooling cylinder (3) outside lower part is connected with support frame (1), four support frame (1) bottoms all are connected with stabilizer blade (2), a serial communication port, still including runner assembly (4) and place subassembly (5), be provided with on cooling cylinder (3) and be used for driving high temperature glass liquid and carry out pivoted runner assembly (4), be provided with on runner assembly (4) and be used for placing high temperature glass liquid place subassembly (5).

2. The cooling device for processing the waste glass fibers into the glass clinker as claimed in claim 1, wherein the rotating assembly (4) comprises supporting rods (401), a supporting platform (402), a protecting frame (403), a motor (404) and a rotating rod (405), the three supporting rods (401) are uniformly connected to the upper part of the cooling cylinder (3) at intervals, the supporting platform (402) is connected between the upper parts of the three supporting rods (401), the protecting frame (403) is connected to the middle of the top of the supporting platform (402), the motor (404) is connected to the inner side of the protecting frame (403), the rotating rod (405) is connected to the lower side of the output shaft of the motor (404), and the rotating rod (405) rotatably penetrates through the middle of the supporting platform (402).

3. The cooling device for processing the waste glass fiber into the glass clinker according to claim 2, wherein the placing assembly (5) comprises a supporting frame (501), a material loading frame (502) and a handle (503), the supporting frame (501) is connected to the lower portion of the rotating rod (405), the supporting frame (501) is located inside the cooling cylinder (3), three material loading frames (502) are placed on the inner side of the supporting frame (501), and the handle (503) is connected to the upper portion of the outer side of each material loading frame (502).

4. The cooling device for processing the waste glass fiber into the glass clinker according to claim 3, further comprising a cooling component (6) for cooling the water in the cooling cylinder (3) in a circulating manner, wherein the cooling component (6) comprises circulating pipes (601), circulating pumps (602), cooling fins (603), a supporting shell (604) and a fan (605), the circulating pipes (601) are installed at the upper part of the outer side of the cooling cylinder (3), both ends of the circulating pipes (601) are connected and communicated with the cooling cylinder (3), the circulating pumps (602) are symmetrically connected to the lower part of the rear side of the cooling cylinder (3) in a left-right manner, the tops of the two circulating pumps (602) are connected and communicated with the circulating pipes (601), the bottoms of the two circulating pumps (602) are connected and communicated with the cooling cylinder (3), the cooling fins (603) are connected to the circulating pipes (601) at intervals, the supporting shell (604) is connected to the upper part of the outer side of the cooling cylinder (3), the circulating pipe (601) is located inside the supporting shell (604), the fans (605) are connected to the upper portion of the supporting shell (604) at uniform intervals, exhaust ports (606) are formed in the bottom of the supporting shell (604) at uniform intervals, and the exhaust ports (606) correspond to the fans (605) one by one.

5. The cooling device for processing waste glass fiber into glass clinker according to claim 4, the device is characterized by further comprising a collecting assembly (7) for collecting and cleaning fragments generated by explosion cracking, wherein the collecting assembly (7) comprises a filter screen (701), a material accumulation frame (702), a rotating shaft (703) and an arc push rod (704), the lower part of the inner side of the cooling cylinder (3) is connected with the filter screen (701), a supporting frame (501) is positioned above the filter screen (701), the lower part of the rear side of the cooling cylinder (3) is connected with the material accumulation frame (702) and communicated with the material accumulation frame, the front side of the lower part of the material accumulation frame (702) is connected with the filter screen (701), the rotating shaft (703) is rotatably arranged in the middle of the filter screen (701), the rotating shaft (703) rotatably penetrates through the bottom of the cooling cylinder (3), the arc push rod (704) is connected to the upper part of the rotating shaft (703), and the bottom of the arc push rod (704) is in contact with the filter screen (701).

6. The cooling device for processing the waste glass fiber into the glass clinker according to claim 5, characterized in that the cooling device further comprises a protection component (8) for preventing the high-temperature glass liquid from splashing outward, the protection component (8) comprises a fixed frame (801), a rotating ring (802), a toothed ring (803), a gear (804), a screw rod (805) and a cover plate (806), the fixed frame (801) is connected to the support platform (402), the fixed frame (801) is also connected to the upper part of the protection frame (403), the rotating ring (802) is rotatably arranged between the two fixed frames (801), the toothed ring (803) is connected to the inner side of the rotating ring (802), the cover plate (806) is slidably arranged at the lower part of the rotating rod (405), the cover plate (806) blocks the upper part of the cooling cylinder (3), three screw rods (805) are rotatably arranged at the outer side of the support platform (402) at even intervals, the lower parts of the three screw rods (805) are all in threaded connection with the cover plate (806), the three screw rods (805) are respectively positioned at the inner sides of the supporting rods (401), the upper parts of the three screw rods (805) are respectively connected with a gear (804), and the gear (804) is meshed with the gear ring (803).

7. The cooling device for processing the waste glass fiber into the glass clinker as claimed in claim 6, further comprising a driving assembly (9) for driving the rotation shaft (703) to rotate, wherein the driving assembly (9) comprises guide blocks (901), a sliding frame (902), a first spring (903), a sliding rod (904), a second spring (905) and a groove barrel (906), the guide blocks (901) are connected to the left and right sides of the upper portion of the material stacking frame (702), the sliding frame (902) is slidably arranged between the two guide blocks (901), two fixing frames (801) are slidably penetrated through the upper end of the sliding frame (902), the cover plate (806) moves upwards to contact with the sliding frame (902), the first spring (903) is connected between the bottoms of the two guide blocks (901) and the sliding frame (902), the sliding rod (904) is slidably arranged on the front side of the lower portion of the sliding frame (902), the groove barrel (906) is connected to the bottom of the rotation shaft (703), the front end of the sliding rod (904) slides on the grooved drum (906), and a second spring (905) is connected between the sliding rod (904) and the sliding frame (902).

8. A cooling device for waste glass fibre processed into glass clinker according to claim 7, characterized in that the first spring (903) is a compression spring.

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