CN218722601U - Cooling device is used in aluminium fluoride production - Google Patents

Abstract

The utility model discloses a cooling device for aluminum fluoride production, which comprises a cooling and cleaning bin and a drying and cooling bin. Has the advantages that: the utility model discloses a cooling cleaning storehouse, the staff can drop into the aluminium fluoride that the crystallization was accomplished in the cooling cleaning storehouse, aluminium fluoride passes through raceway surface mounting's shower head below is carried to first conveyer belt, the raceway passes through water pump switch-on deionized water, deionized water passes through the shower head blowout, wash and the heat transfer cooling to aluminium fluoride crystal, aluminium fluoride crystal is carried the back through first conveyer belt and is fallen to second conveyer belt top surface along first conveyer belt other end, the second conveyer belt lasts carries aluminium fluoride crystal, and simultaneously, the shower head that is located second conveyer belt top lasts the blowout deionized water and carries out the washing and the cooling that last to aluminium fluoride crystal, deionized water directly sprays aluminium fluoride crystal surface in this device, cool off and wash, heat exchange efficiency is higher, the abluent process has also been accomplished in step simultaneously, and the production efficiency is improved.

Description

Cooling device is used in aluminium fluoride production

Technical Field

The utility model relates to an aluminium fluoride production technical field particularly, relates to a cooling device is used in aluminium fluoride production.

Background

Aluminum fluoride is an inorganic substance, is prepared by the reaction of aluminum hydroxide or metallic aluminum and hydrogen fluoride, can also be prepared by the action of aluminum trichloride, hydrofluoric acid and ammonia water, is colorless or white crystal, is insoluble in water and acid and alkali, has stable property, can be hydrolyzed under the condition of heating, and is mostly used as an electrolytic agent regulator and a catalyst when being used for electrolyzing aluminum.

After retrieval, the patent publication No. CN212619446U is named as a cooling device of low-density aluminum fluoride, and the application proposes that a refrigeration box is adopted to cool circulating cooling liquid, and a part of the cooled cooling liquid is pumped out by a first liquid pump, flows into a cooling cavity through a first liquid inlet pipe and a left rotary joint and then flows back into the refrigeration box through a right rotary joint and a first liquid outlet pipe; the other part of the refrigerant is pumped out by a second liquid pump, enters the spiral cavity through a second liquid inlet pipe, swirls from left to right in the spiral cavity, and then flows back to the refrigeration box through a second liquid outlet pipe; utilize the conveying screw to carry aluminium fluoride to the right, aluminium fluoride is when carrying right, the aluminium fluoride that is located more the outside passes through the coolant liquid heat transfer of body with the spiral intracavity, the inner wall that is located more inboard aluminium fluoride through the hollow shaft and the coolant liquid heat transfer in the cooling chamber, in addition under the effect of conveying screw, aluminium fluoride stirs from top to bottom, make aluminium fluoride can fully obtain refrigerated way, however, the coolant liquid does not directly contact with aluminium fluoride, and make and carry out the heat transfer through jar body and spiral chamber heat conduction layer upon layer, for the direct contact heat transfer, heat exchange efficiency receives the influence, thereby influence cooling and production efficiency, and can't carry out synchronous washing to aluminium fluoride, can further make the improvement.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a cooling device is used in aluminium fluoride production possesses the advantage that cooling efficiency is high, improved production efficiency, and then solves the problem among the above-mentioned background art.

(II) technical scheme

For realizing the advantage that above-mentioned cooling efficiency is high, improved production efficiency, the utility model discloses a concrete technical scheme as follows:

the utility model provides a cooling device is used in aluminium fluoride production, includes cooling cleaning storehouse and dry cooling storehouse, cooling cleaning storehouse is inside from last to having set gradually first conveyer belt, second conveyer belt and third conveyer belt down, and first conveyer belt, second conveyer belt and third conveyer belt staggered arrangement to first conveyer belt, second conveyer belt and third conveyer belt are the looks isostructure, first conveyer belt cooperation is used there is the drive roller, and drive roller both ends fixedly connected with roller, and the roller runs through cooling cleaning storehouse and washs the storehouse with the cooling and rotate and be connected, first conveyer belt includes endless belt and close mesh net, and the endless belt surface runs through and has seted up the hole of permeating water to endless belt outer wall fixed bonding has close mesh net, first conveyer belt cup joints in the drive roller outside and with drive roller roll connection, the cooling washs positive facade fixed mounting in storehouse has driving motor, and driving motor output and roller one end fixed connection, second conveyer belt and third conveyer belt are the same with first conveyer belt drive mode, first conveyer belt and second conveyer belt top are located the inside of cooling cleaning storehouse and erect the raceway, and are connected with the raceway surface through connection and spray the dry cooling storehouse head portion.

Furthermore, the top surface of the drying and cooling bin is connected with an air duct in a through mode, an axial flow fan is fixedly mounted inside the air duct, a fourth conveying belt is erected inside the drying and cooling bin, the fourth conveying belt and the first conveying belt are of the same structure, the driving form of the fourth conveying belt and the driving form of the first conveying belt are the same, and the fourth conveying belt extends to the lower side of the third conveying belt.

Furthermore, the first conveying belt, the second conveying belt and the third conveying belt are respectively provided with a first water receiving tank, a second water receiving tank and a third water receiving tank in a fixed frame manner, the first water receiving tank, the second water receiving tank and the third water receiving tank are arranged in a staggered manner, and one end of each of the first water receiving tank, the second water receiving tank and the third water receiving tank is connected with a sewage pipe in a penetrating manner.

Furthermore, one end of the water delivery pipe is connected with a water pump in a through mode, and the other end of the water pump is communicated with deionized water.

Furthermore, the other end of the top surface of the cooling and cleaning bin is connected with a feeding port in a through mode, and the top of the feeding port is of a funnel-shaped structure.

Furthermore, a scraper plate is obliquely and fixedly installed above the first conveying belt inside the cooling and cleaning bin.

Further, the outer wall of the driving roller is fixedly sleeved with a rubber sleeve, and the rubber sleeve is in rolling butt joint with the inner wall of the annular belt.

Further, the inside width in cooling washing storehouse equals the inside width in dry cooling storehouse, and the inside width in cooling washing storehouse equals first conveyer belt width.

Furthermore, the water outlet direction of the spray header is vertical downward, and a plurality of spray headers are arranged at equal intervals.

(III) advantageous effects

Compared with the prior art, the utility model provides a cooling device for aluminum fluoride production possesses following

Has the beneficial effects that:

(1) The utility model discloses a cooling cleaning storehouse, the staff can drop into the cooling cleaning storehouse with the aluminium fluoride that the crystallization was accomplished, first conveyer belt is carried aluminium fluoride through raceway surface mounting's shower head below, the raceway passes through water pump switch-on deionized water, deionized water passes through the shower head blowout, wash and the heat transfer cooling to aluminium fluoride crystal, aluminium fluoride crystal falls to second conveyer belt top surface along first conveyer belt other end after carrying through first conveyer belt, the second conveyer belt lasts carries aluminium fluoride crystal, and simultaneously, the shower head that is located second conveyer belt top lasts the blowout deionized water and carries out the washing and the cooling that last to aluminium fluoride crystal, deionized water directly sprays aluminium fluoride crystal surface in this device, cool off and wash, heat exchange efficiency is higher, the abluent process has also been accomplished in step simultaneously, production efficiency is improved, and simultaneously, this device accomplishes continuous transport through first conveyer belt and second conveyer belt, the process of washing and cooling, the continuity of production has been improved, and production efficiency is improved.

(2) The utility model discloses a third conveyer belt and dry cooling bin, the third conveyer belt top surface is dropped to the aluminium fluoride crystal after the transport of second conveyer belt, in the third conveyer belt transportation process, the aluminium fluoride crystal carries out the waterlogging caused by excessive rainfall, then, through the transport of third conveyer belt, the aluminium fluoride crystal falls fourth conveyer belt surface, enter into dry cooling bin, the axial fan that is located dry cooling bin top surface produces vertical wind-force, air-dry the aluminium fluoride crystal, at air-dried in-process, the evaporation of water is endothermic, further cool off the aluminium fluoride crystal, thereby further improved cooling efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a cooling device for aluminum fluoride production according to the present invention;

FIG. 2 is a front view of a cooling apparatus for aluminum fluoride production according to the present invention;

fig. 3 is a schematic structural diagram of a first conveyor belt according to the present invention;

fig. 4 is a schematic structural diagram of the driving roller according to the present invention.

In the figure:

1. cooling and cleaning the bin; 2. a first conveyor belt; 3. a second conveyor belt; 4. a third conveyor belt; 5. a first water receiving tank; 6. a second water receiving tank; 7. a third water receiving tank; 8. a fourth conveyor belt; 9. a drying and cooling bin; 10. An air duct; 11. an axial flow fan; 12. a water delivery pipe; 13. a shower head; 14. a drive roller; 15. a water pump; 16. A squeegee; 17. a feeding port; 18. a roll shaft; 19. a sewage pipe; 20. a drive motor; 21. an endless belt; 22. Water permeable holes; 23. a dense mesh net; 24. a rubber sleeve.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a cooling device is used in aluminium fluoride production.

Referring to the drawings and the detailed description, as shown in fig. 1-4, a cooling device for aluminum fluoride production according to an embodiment of the present invention comprises a cooling and cleaning bin 1 and a drying and cooling bin 9, wherein the cooling and cleaning bin 1 is internally provided with a first conveyor belt 2, a second conveyor belt 3 and a third conveyor belt 4 in sequence from top to bottom, the first conveyor belt 2, the second conveyor belt 3 and the third conveyor belt 4 are arranged in a staggered manner, the first conveyor belt 2, the second conveyor belt 3 and the third conveyor belt 4 are of the same structure, the first conveyor belt 2 is cooperatively provided with a driving roller 14, two ends of the driving roller 14 are fixedly connected with a roller shaft 18, the roller shaft 18 penetrates through the cooling and cleaning bin 1 and is rotatably connected with the cooling and cleaning bin 1, the roller shaft 18 is rotatably connected with the outer wall of the cooling and cleaning bin 1 through a seal bearing to avoid water leakage, the first conveyer belt 2 comprises an annular belt 21 and a dense mesh net 23, the aperture of the dense mesh net 23 is smaller than the grain diameter of the aluminum fluoride crystal, the surface of the annular belt 21 is provided with water permeable holes 22, the water permeable holes 22 are densely arranged for facilitating water permeability, the outer wall of the annular belt 21 is fixedly bonded with the dense mesh net 23 for water permeability, the first conveyer belt 2 is sleeved outside the driving roller 14 and is connected with the driving roller 14 in a rolling way, the right vertical surface of the cooling and washing bin 1 is fixedly provided with a driving motor 20, the output end of the driving motor 20 is fixedly connected with one end of the roller shaft 18, the second conveyer belt 3 and the third conveyer belt 4 have the same driving mode as the first conveyer belt 2, a water pipe 12 is erected inside the cooling and washing bin 1 above the first conveyer belt 2 and the second conveyer belt 3, the surface of the water pipe 12 is connected with a spray head 13 in a penetrating way, wherein one end of the water pipe 12 is connected with a water pump 15 in a penetrating way, and the other end of the water pump 15 is connected with deionized water, wherein, shower head 13 goes out the vertical downwards of water direction, and shower head 13 equidistance has arranged a plurality ofly, 1 bottom one end through connection in cooling cleaning storehouse has dry cooling chamber 9, the staff can drop into cooling cleaning storehouse 1 with the aluminium fluoride that the crystallization was accomplished, first conveyer belt 2 carries aluminium fluoride through the shower head 13 below of raceway 12 surface mounting, raceway 12 passes through water pump 15 switch-on deionized water, deionized water is through shower head 13 blowout, wash and the heat transfer cooling to the aluminium fluoride crystal, the aluminium fluoride crystal drops to 3 top surfaces of second conveyer belt along first conveyer belt 2 other ends after carrying through first conveyer belt 2, second conveyer belt 3 lasts carries the aluminium fluoride crystal, and simultaneously, shower head 13 that is located 3 tops of second conveyer belt lasts the blowout deionized water and carries out lasting washing and cooling to the aluminium fluoride crystal, deionized water directly sprays the aluminium fluoride crystal surface in this device, cool off and wash, heat transfer efficiency is higher, the process of having accomplished the washing simultaneously in step, and improved production efficiency, and simultaneously, this device accomplishes the continuous transport of production through first conveyer belt 2 and second conveyer belt 3, the process of washing and cooling, the production efficiency has been improved, the continuity of production.

In an embodiment, the top surface of the drying cooling bin 9 is connected with the air duct 10 in a penetrating manner, and the inside fixed mounting of the air duct 10 has the axial flow fan 11, the air duct 10 and the axial flow fan 11 are arranged at equal intervals, and the inside of the drying cooling bin 9 is provided with the fourth conveyer belt 8, the fourth conveyer belt 8 and the first conveyer belt 2 are of the same structure, and the fourth conveyer belt 8 and the first conveyer belt 2 are in the same driving form, and the fourth conveyer belt 8 extends to the lower part of the third conveyer belt 4, the aluminum fluoride crystal drops to the top surface of the third conveyer belt 4 after being conveyed by the second conveyer belt 3, in the conveying process of the third conveyer belt 4, the aluminum fluoride crystal drops to the surface of the fourth conveyer belt 8, and enters the drying cooling bin 9, the axial flow fan 11 positioned on the top surface of the drying cooling bin 9 generates vertical wind force, the aluminum fluoride crystal is air-dried, in the air-dried process, the moisture evaporation and heat absorption, the aluminum fluoride crystal is further cooled, and the cooling efficiency is further improved.

In one embodiment, a first water receiving tank 5, a second water receiving tank 6 and a third water receiving tank 7 are respectively arranged below the first conveying belt 2, the second conveying belt 3 and the third conveying belt 4 in a fixed frame manner, the first water receiving tank 5, the second water receiving tank 6 and the third water receiving tank 7 are arranged in a staggered manner, and one end of each of the first water receiving tank 5, the second water receiving tank 6 and the third water receiving tank 7 is connected with a sewage pipe 19 in a penetrating manner, so that water receiving and sewage discharging are facilitated, and the sewage pipe 19 is connected with a sewage recovery device, which is a common device in the field and is not shown in the figure.

In one embodiment, the other end of the top surface of the cooling and cleaning bin 1 is connected with a feeding port 17 in a penetrating manner, the top of the feeding port 17 is in a funnel-shaped structure, and the synthesized aluminum fluoride crystals are thrown into the cooling and cleaning bin 1 from the feeding port 17.

In one embodiment, a scraper 16 is fixedly installed inside the cooling and cleaning bin 1 above the first conveyor belt 2 in an inclined manner, so as to smooth the accumulated aluminum fluoride crystals and further homogenize the materials.

In one embodiment, the outer wall of the driving roller 14 is fixedly sleeved with the rubber sleeve 24, the rubber sleeve 24 is in rolling contact with the inner wall of the annular belt 21, and the outer wall of the rubber sleeve 24 is subjected to roughening treatment, so that the friction force is improved, the slippage is reduced, and the conveying stability is improved.

In one embodiment, the internal width of the cooling and cleaning bin 1 is equal to the internal width of the drying and cooling bin 9, so as to avoid the problems of material leakage and material falling, and the internal width of the cooling and cleaning bin 1 is equal to the width of the first conveyor belt 2, so as to avoid the problems of material leakage and material falling.

The working principle is as follows:

the staff can put the aluminum fluoride that the crystallization was accomplished into cooling washing storehouse 1, the first conveyer belt 2 carries aluminum fluoride and passes through below the shower head 13 of raceway 12 surface mounting, raceway 12 switches on the deionized water through water pump 15, the deionized water is spout through shower head 13, wash and heat transfer cooling to the aluminum fluoride crystal, the aluminum fluoride crystal drops to the top surface of second conveyer belt 3 along first conveyer belt 2 other end after carrying through first conveyer belt 2, second conveyer belt 3 continues to carry the aluminum fluoride crystal, simultaneously, shower head 13 that is located second conveyer belt 3 top continues to spout the deionized water and carries out lasting washing and cooling to the aluminum fluoride crystal, deionized water directly sprays to the aluminum fluoride crystal surface in this device, cool and wash, heat exchange efficiency is higher, the abluent process has also been accomplished in step simultaneously, improved production efficiency, and simultaneously, this device accomplishes the continuous conveyor through first conveyer belt 2 and second conveyer belt 3, washing and refrigerated process, the continuity of production has been improved, and the production efficiency is improved, and simultaneously, the aluminium fluoride crystal drops 4 top surfaces of third conveyer belt after the transport of second conveyer belt 3, in the 4 transportation process of third conveyer belt, the aluminium fluoride crystal carries out the waterlogging caused by excessive rainfall, then, through the transport of third conveyer belt 4, the aluminium fluoride crystal drops 8 surfaces of fourth conveyer belt, enter into dry cooling chamber 9, the axial fan 11 that is located dry cooling chamber 9 top surface produces vertical wind-force, air-dry the aluminium fluoride crystal, at air-dried in-process, the moisture evaporation is endothermic, further cool off the aluminium fluoride crystal, thereby further improved cooling efficiency.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a cooling device for aluminum fluoride production, characterized in that, includes cooling washing storehouse (1) and dry cooling storehouse (9), cooling washing storehouse (1) is inside from last to having set gradually first conveyer belt (2), second conveyer belt (3) and third conveyer belt (4) down, and first conveyer belt (2), second conveyer belt (3) and third conveyer belt (4) staggered arrangement to first conveyer belt (2), second conveyer belt (3) and third conveyer belt (4) are the same structure, first conveyer belt (2) cooperation is used has drive roller (14), and drive roller (14) both ends fixedly connected with roller (18), and roller (18) run through cooling washing storehouse (1) and rotate with cooling washing storehouse (1) and be connected, first conveyer belt (2) includes endless belt (21) and close mesh net (23), and endless belt (21) surface runs through and has seted up hole (22) of permeating water to endless belt (21) outer wall is fixed and has bonded close mesh net (23), first conveyer belt (2) cup joint in the conveyer belt (14) outside and drive roller (14) roll the drive roller (20) and drive motor (20) and drive roller (18) and upright the motor is installed, the second conveying belt (3) and the third conveying belt (4) are the same as the first conveying belt (2) in driving mode, a water conveying pipe (12) is erected inside the cooling and cleaning bin (1) above the first conveying belt (2) and the second conveying belt (3), a spray header (13) is connected to the surface of the water conveying pipe (12) in a penetrating mode, and a drying and cooling bin (9) is connected to one end of the bottom of the cooling and cleaning bin (1) in a penetrating mode.

2. The cooling device for aluminum fluoride production according to claim 1, wherein an air duct (10) is connected to the top surface of the drying and cooling bin (9) in a penetrating manner, an axial flow fan (11) is fixedly installed inside the air duct (10), a fourth conveying belt (8) is erected inside the drying and cooling bin (9), the fourth conveying belt (8) and the first conveying belt (2) are of the same structure, the driving form of the fourth conveying belt (8) and the first conveying belt (2) is the same, and the fourth conveying belt (8) extends to the lower side of the third conveying belt (4).

3. The cooling device for aluminum fluoride production according to claim 1, wherein a first water receiving tank (5), a second water receiving tank (6) and a third water receiving tank (7) are respectively arranged below the first conveying belt (2), the second conveying belt (3) and the third conveying belt (4) in a fixed frame manner, the first water receiving tank (5), the second water receiving tank (6) and the third water receiving tank (7) are arranged in a staggered manner, and one end of each of the first water receiving tank (5), the second water receiving tank (6) and the third water receiving tank (7) is connected with a sewage pipe (19) in a penetrating manner.

4. The cooling device for aluminum fluoride production as recited in claim 1, wherein one end of the water pipe (12) is connected with a water pump (15) in a through manner, and the other end of the water pump (15) is connected with deionized water.

5. The cooling device for aluminum fluoride production according to claim 1, wherein the other end of the top surface of the cooling and cleaning bin (1) is connected with a feeding port (17) in a through manner, and the top of the feeding port (17) is of a funnel-shaped structure.

6. The cooling device for aluminum fluoride production according to claim 1, wherein a scraper (16) is obliquely and fixedly installed above the first conveyor belt (2) in the cooling and cleaning bin (1).

7. The cooling device for aluminum fluoride production as recited in claim 1, wherein a rubber sleeve (24) is fixedly sleeved on the outer wall of the driving roller (14), and the rubber sleeve (24) is in rolling contact with the inner wall of the endless belt (21).

8. The cooling device for aluminum fluoride production according to claim 1, wherein the internal width of the cooling and cleaning bin (1) is equal to the internal width of the drying and cooling bin (9), and the internal width of the cooling and cleaning bin (1) is equal to the width of the first conveyor belt (2).

9. The cooling device for aluminum fluoride production according to claim 1, wherein the outlet direction of the spray header (13) is vertically downward, and a plurality of spray headers (13) are arranged at equal intervals.

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