CN218033892U - Cooling device in molecular sieve adsorbent preparation process - Google Patents

Abstract

The utility model discloses a cooling device in molecular sieve adsorbent preparation process relates to molecular sieve adsorbent cooling device field. The utility model discloses a device main part, the inside of device main part is provided with a lift-back section of thick bamboo, the motor is installed to the bottom of device main part, the output of motor is connected with the drive shaft, the utility model discloses when cooling off the molecular sieve adsorbent, the air exhauster carries out convulsions to storing up in the refrigerator, the ice-cube that stores up in the refrigerator refrigerates wind, make the temperature of air current reduce, the cold air current spouts to the inside of device main part through defeated tuber pipe and shower nozzle, it is rotatory that the motor makes the drive shaft drive spiral leaf, the spiral leaf is rotatory to make the continuous inside top that flows back to the device main part from the inside below of device main part of molecular sieve adsorbent, the action that the adsorbent was shed has been realized, and under the cushioning effect of first division board and second division board, can be more abundant to the cooling of molecular sieve adsorbent forced air cooling.

Description

Cooling device in molecular sieve adsorbent preparation process

Technical Field

The utility model relates to a molecular sieve adsorbent cooling device field specifically is cooling device in the molecular sieve adsorbent preparation process.

Background

The molecular sieve adsorbent is dried at 120 ℃ in the air atmosphere in the production process, the molecular sieve adsorbent is required to be put into a cooling device to be cooled to 30 ℃ after being dried, so that the dried molecular sieve adsorbent is obtained, and the finished modified adsorbent is obtained after the molecular sieve adsorbent is inspected to be qualified and packaged.

Most of the cooling methods of the existing molecular sieve adsorbent only adopt single air cooling or water cooling, so that the cooling speed of the cooling method is low, the molecular sieve adsorbent is easy to stack in the device main body, and further the adsorbent can not be fully contacted with a cold source, so that the adsorbent can not be rapidly cooled, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a cooling device in molecular sieve adsorbent preparation process to it is slow to solve the cooling rate, and work efficiency hangs down technical problem.

In order to achieve the above purpose, the utility model provides a following technical scheme: cooling device in molecular sieve adsorbent preparation process, including the device main part, the inside of device main part is provided with the section of thick bamboo that rises again, the motor is installed to the bottom of device main part, the output of motor is connected with the drive shaft, the surface of drive shaft is provided with the spiral leaf, the top of device main part is provided with storage refrigerator and air exhauster, the air inlet end of air exhauster communicates with the ice-storage box through the exhaust column, the air-out end of air exhauster is connected with defeated tuber pipe, the inside of the section of thick bamboo that rises again is provided with the water course, the inner wall of water course is provided with heat conduction fin, the inner wall of device main part is fixed with first division board, one side of the section of thick bamboo that rises again is provided with the second division board, inside one side of device main part is connected with the guide plate through the connecting axle, the hydraulic stem is installed to the bottom of guide plate.

Furthermore, a material return pipe, a temperature sensor and a material inlet pipe are respectively arranged on one side of the lifting cylinder, and one end of the material return pipe is arranged in a downward inclined mode.

Through adopting above-mentioned technical scheme, temperature sensor is convenient for detect the temperature of inside adsorbent, and the inlet pipe can flow the adsorbent back to the inside of a liter section of thick bamboo, and the feed back pipe is convenient for flow the adsorbent back to the inside of device main part.

Furthermore, a convex block is arranged below the inside of the refrigerator, ice blocks are arranged at the top of the convex block, and the inside of the refrigerator is communicated with the water channel through a water inlet pipe.

Through adopting above-mentioned technical scheme, the lug can be with ice-cube jack-up, and then makes the ice water of melting flow into the inside of water course through the inlet tube.

Furthermore, the top of the refrigerator storage is connected with a sealing cover, and the inner walls of the refrigerator storage and the sealing cover are both provided with heat insulation layers.

Through adopting above-mentioned technical scheme, sealed lid and heat preservation can keep warm to the ice-cube that the ice-cube storage box is inside for the ice-cube melts speed slower, and then has reduced the more frequency of ice-cube.

Furthermore, the heat conduction fins are provided with a plurality of groups, the plurality of groups are arranged at equal intervals from top to bottom, and the heat conduction fins are made of copper materials.

By adopting the technical scheme, the heat conduction fins made of the copper material are convenient for leading the heat exchange effect of the adsorbent and the ice water to be more ideal, and the cooling speed is improved.

Furthermore, the bottom of the water channel is communicated with a water collecting tank through a water return pipe.

By adopting the technical scheme, the ice water after heat exchange in the water channel enters the water collecting tank through the water return pipe, so that the ice water is convenient to recycle, and the use cost is reduced.

Furthermore, a plurality of air injection heads are arranged on one side of the air delivery pipe, and a moisture absorption layer is arranged in each air injection head.

Through adopting above-mentioned technical scheme, the shower nozzle is convenient for carry out the forced air cooling fast to the adsorbent, and the hygroscopic layer can dehumidify cold wind.

To sum up, the utility model discloses mainly have following beneficial effect: the utility model discloses a be provided with and store up the refrigerator, the air exhauster, defeated tuber pipe, the section of thick bamboo rises again, the spiral leaf, the drive shaft, first division board, the second division board, water course and heat conduction fin, when cooling off the molecular sieve adsorbent, the air exhauster is to storing up the interior convulsions of refrigerator, the ice-cube in the storage refrigerator refrigerates the wind, make the temperature of air current reduce, the cold air current is through defeated tuber pipe and the inside that the shower nozzle spouts the device main part, the motor makes the drive shaft drive the spiral leaf rotatory, the spiral leaf rotation makes the molecular sieve adsorbent constantly flow back to the inside top of device main part from the inside below of device main part, the action that the adsorbent was shed has been realized, and under the cushioning effect of first division board and second division board, can be more abundant to molecular sieve adsorbent air-cooled temperature; meanwhile, ice water after ice melts flows into the water channel through the water return pipe, the heat conduction fins can exchange heat with the adsorbent and the ice water, and therefore the purpose of liquid cooling of the molecular sieve adsorbent is achieved.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of an ice storage box according to the present invention;

FIG. 3 is a schematic side view of the moisture absorption layer of the present invention;

fig. 4 is an enlarged schematic structural diagram of a point a in fig. 1 of the present invention.

In the figure: 1. a device main body; 2. lifting the cylinder; 3. an exhaust fan; 4. a wind delivery pipe; 5. a blast head; 6. an exhaust pipe; 7. storing the refrigerator; 8. a sealing cover; 9. a bump; 10. a water inlet pipe; 11. a motor; 12. a drive shaft; 13. helical leaves; 14. a water return pipe; 15. a water collection tank; 16. a feeding pipe; 17. a first partition plate; 18. a second partition plate; 19. a connecting shaft; 20. a baffle; 21. a hydraulic rod; 22. a water channel; 23. heat-conducting fins; 24. a material returning pipe; 25. a moisture-absorbing layer; 26. a temperature sensor.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

A cooling device in a molecular sieve adsorbent preparation process, as shown in figures 1-4, comprises a device main body 1, a back-lifting cylinder 2 is arranged inside the device main body 1, a material return pipe 24, a temperature sensor 26 and a material feeding pipe 16 are respectively arranged on one side of the back-lifting cylinder 2, one end of a material return pipe 24 is arranged in a downward inclined manner, a temperature sensor 26 is convenient for detecting the temperature of the adsorbent inside, a feed pipe 16 can enable the adsorbent to flow back into the interior of the lifting cylinder 2, the material return pipe 24 is convenient for the adsorbent to flow back into the interior of the device main body 1, a motor 11 is installed at the bottom of the device main body 1, the output end of the motor 11 is connected with a driving shaft 12, spiral blades 13 are arranged on the outer surface of the driving shaft 12, a refrigerator storage 7 and an exhaust fan 3 are arranged at the top of the device main body 1, the air inlet end of the exhaust fan 3 is communicated with the refrigerator storage 7 through an exhaust pipe 6, the air outlet end of the exhaust fan 3 is connected with an air conveying pipe 4, a plurality of air injection heads 5 are installed on one side of the air conveying pipe 4, a moisture absorption layer 25 is arranged inside the air injection heads 5, and the air injection heads 5 are convenient for quickly air-cooling the adsorbent, the moisture absorption layer 25 can dehumidify cold air, the interior of the rising cylinder 2 is provided with a water channel 22, the inner wall of the water channel 22 is provided with a plurality of heat conduction fins 23, the heat conduction fins 23 are provided with a plurality of groups, the plurality of groups of heat conduction fins 23 are arranged from top to bottom at equal intervals, and heat conduction fin 23 adopts the copper material preparation to form, and the heat conduction fin 23 of copper material is convenient for make adsorbent and frozen water heat transfer effect more ideal, has improved the cooling rate, and the inner wall of device main part 1 is fixed with first division board 17, and one side of rising section of thick bamboo 2 is provided with second division board 18, and inside one side of device main part 1 is connected with guide plate 20 through connecting axle 19, and hydraulic stem 21 is installed to the bottom of guide plate 20.

Referring to fig. 1-2, a bump 9 is disposed below the inside of the ice storage box 7, ice cubes are disposed on the top of the bump 9, the inside of the ice storage box 7 is communicated with the water channel 22 through a water inlet pipe 10, and the bump 9 can jack up the ice cubes, so that the melted ice water flows into the water channel 22 through the water inlet pipe 10.

Referring to fig. 1-2, the top of the ice storage tank 7 is connected with a sealing cover 8, the inner walls of the ice storage tank 7 and the sealing cover 8 are both provided with a heat insulation layer, and the sealing cover 8 and the heat insulation layer can insulate the ice inside the ice storage tank 7, so that the ice melting speed is slower, and the frequency of the ice is further reduced.

Referring to fig. 1 and 4, the bottom of the water channel 22 is communicated with the water collecting tank 15 through the water return pipe 14, and the ice water after heat exchange in the water channel 22 enters the water collecting tank 15 through the water return pipe 14, so that the ice water is convenient to recycle, and the use cost is reduced.

The implementation principle of the embodiment is as follows: when the molecular sieve adsorbent cooling device is used, a worker puts the molecular sieve adsorbent into the device main body, when the molecular sieve adsorbent is cooled, the exhaust fan 3 exhausts air from the ice storage box 7, ice cubes in the ice storage box 7 refrigerate air, the temperature of air flow is reduced, the cold air flow is sprayed into the device main body 1 through the air conveying pipe 4 and the air spray head 5, the motor 11 enables the driving shaft 12 to drive the spiral blade 13 to rotate, the spiral blade 13 rotates to enable the molecular sieve adsorbent to continuously flow back to the upper portion of the inside of the device main body 1 from the lower portion of the inside of the device main body 1, the adsorbent throwing action is achieved, and the molecular sieve adsorbent can be cooled more fully under the buffering action of the first partition plate 17 and the second partition plate 18; meanwhile, ice water after ice melting flows into the water channel 22 through the water return pipe 14, the heat conduction fins 23 can exchange heat between the adsorbent and the ice water, and therefore the purpose of liquid cooling of the molecular sieve adsorbent is achieved, when the temperature sensor 26 detects that the internal temperature is about 30 ℃, a worker starts the hydraulic rod 21, the guide plate 20 is made to incline downwards, and the cooled adsorbent is discharged out of the device main body 1.

While embodiments of the invention have been illustrated and described, it is not intended to limit the invention to the exact construction and operation illustrated and described, and that various other features, structures, materials, or characteristics may be substituted for those illustrated and described without departing from the spirit and scope of the invention.

Claims (7)

1. Cooling device in molecular sieve adsorbent preparation process, including device main part (1), its characterized in that: the utility model discloses a refrigerator air conditioner, including device main part (1), motor (11), air exhauster (3), air inlet end of air exhauster (3), air outlet end of air exhauster (3) are linked together through exhaust column (6) and ice storage box (7), the surface of drive shaft (12) is provided with spiral leaf (13), the top of device main part (1) is provided with storage refrigerator (7) and air exhauster (3), the air inlet end of air exhauster (3) is linked together through exhaust column (6) and ice storage refrigerator (7), the air-out end of air exhauster (3) is connected with air transmission pipe (4), the inside of lift-back section of thick bamboo (2) is provided with water course (22), the inner wall of water course (22) is provided with heat conduction fins (23), the inner wall of device main part (1) is fixed with first partition board (17), one side of lift-back section of thick bamboo (2) is provided with second partition board (18), inside one side of device main part (1) is connected with guide plate (20) through connecting axle (19), hydraulic stem (21) are installed to the bottom of guide plate (20).

2. The cooling device in the preparation process of the molecular sieve adsorbent according to claim 1, characterized in that: and a material return pipe (24), a temperature sensor (26) and a material inlet pipe (16) are respectively arranged on one side of the lifting cylinder (2), and one end of the material return pipe (24) is arranged in a downward inclined mode.

3. The cooling device in the preparation process of the molecular sieve adsorbent according to claim 1, characterized in that: the ice storage refrigerator is characterized in that a bump (9) is arranged below the inside of the refrigerator storage body (7), ice blocks are arranged at the top of the bump (9), and the inside of the refrigerator storage body (7) is communicated with a water channel (22) through a water inlet pipe (10).

4. The cooling device in the preparation process of molecular sieve adsorbent according to claim 1, characterized in that: the top of the refrigerator storage body (7) is connected with a sealing cover (8), and the inner walls of the refrigerator storage body (7) and the sealing cover (8) are both provided with heat insulation layers.

5. The cooling device in the preparation process of the molecular sieve adsorbent according to claim 1, characterized in that: the heat conduction fins (23) are provided with a plurality of groups, the plurality of groups are arranged at intervals from top to bottom, and the heat conduction fins (23) are made of copper materials.

6. The cooling device in the preparation process of molecular sieve adsorbent according to claim 1, characterized in that: the bottom of the water channel (22) is communicated with a water collecting tank (15) through a water return pipe (14).

7. The cooling device in the preparation process of molecular sieve adsorbent according to claim 1, characterized in that: a plurality of air injection heads (5) are arranged on one side of the air delivery pipe (4), and a moisture absorption layer (25) is arranged in each air injection head (5).

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