CN211739727U - Drying device for titanium ore and titanium slag - Google Patents
Drying device for titanium ore and titanium slag Download PDFInfo
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- CN211739727U CN211739727U CN201921912750.0U CN201921912750U CN211739727U CN 211739727 U CN211739727 U CN 211739727U CN 201921912750 U CN201921912750 U CN 201921912750U CN 211739727 U CN211739727 U CN 211739727U
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Abstract
The utility model discloses a drying device for titanium ore and titanium slag. The drying device comprises a support, wherein a drying box is arranged above the support, four support frames are respectively and uniformly arranged on the inner walls of the left side and the right side of the drying box, rotating shafts are respectively and movably arranged on the support frames, first gears are respectively arranged on the rotating shafts, the first gears on the left side and the right side are respectively connected with annular racks through meshing, drying cylinders are arranged on the inner sides of the annular racks on the left side and the right side, spiral blades are uniformly distributed on the inner walls of the drying cylinders, a feeding cylinder is movably arranged in the left end of each drying cylinder, a feeding plate is obliquely arranged in each feeding cylinder, and the right side of each feeding; and a steam heating layer is arranged on the inner wall of the drying box. The utility model discloses it is simple to have material loading and the ejection of compact, can realize assembly line drying production, combines together with high pressure steam in the current production line, and the composition utilizes heat energy, and the energy consumption is low, simple structure, and is with low costs, and easy maintenance can satisfy the beneficial effect that my company actually produced the needs.
Description
Technical Field
The utility model relates to a drying device, in particular to a drying device for titanium ore and titanium slag.
Background
At present, the 10 ten thousand ton nanometer titanium dioxide newly built by our company is designed by taking the lithium titanate battery level, high purity level and high grade pigment level nanometer titanium dioxide as a product scheme, and the process flow is determined as follows: drying and crushing titanium ore and titanium slag; acid hydrolysis of titanium ore and titanium slag and acid hydrolysis tail gas treatment; thirdly, clarifying titanium acidolysis solution and filtering slurry; purifying and controlling the titanium liquid to be filtered; hydrolyzing the titanium liquid, and controlling a precursor generated by nanometer; sixthly, separating impurities by primary washing, bleaching and secondary washing; seventhly, performing salt treatment on metatitanic acid; subjecting metatitanic acid to filter pressing in front of a kiln, calcining and calcining tail gas treatment, and controlling the size of nanoparticles; ninthly, grinding before Raymond; processing and packaging in the ear. The production line adopts titanium ore and titanium slag as raw materials, and has the following technical problems if the existing device is adopted to dry the titanium ore and the titanium slag because the production line has large output: 1. the existing drying device is complex in feeding and discharging and is difficult to realize flow line drying production; 2. most of the existing drying devices adopt electric heating and natural gas heating for drying, so that the energy consumption is high, the cost is high, high-pressure steam is visible everywhere in a chemical production line, and the existing high-pressure steam heat source cannot be reasonably utilized; 3. the existing drying device has the disadvantages of complex structure, high cost and inconvenient maintenance, so that the drying device for titanium ore and titanium slag is developed by aiming at the problems and combining the actual production needs of the company.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a drying device of titanium ore deposit and titanium sediment. The utility model has the characteristics of material loading and the ejection of compact are simple, can realize the dry production of assembly line, and high pressure steam combines together in producing the line with current, and the composition utilizes heat energy, and the energy consumption is low, simple structure, and is with low costs, and easy maintenance can satisfy my company's actual production needs.
The technical scheme of the utility model: a drying device for titanium ore and titanium slag comprises a support, wherein a drying box is arranged above the support, four support frames are uniformly arranged on the inner walls of the left side and the right side of the drying box respectively, rotating shafts are movably arranged on the support frames respectively, first gears are arranged on the rotating shafts respectively, the first gears on the left side and the right side are respectively connected with annular racks through meshing, a drying cylinder is arranged on the inner side of each annular rack on the left side and the right side, spiral blades are uniformly distributed on the inner wall of the drying cylinder, a feeding cylinder is movably arranged in the left end of the drying cylinder, a feeding plate is obliquely arranged in the feeding cylinder, and the right side of the feeding plate is higher than the left; be equipped with the steam heating layer on the inner wall of drying cabinet, the right-hand member top of steam heating layer is equipped with the steam inlet pipe, and the left end below of steam heating layer is equipped with the steam discharging pipe.
In the drying device for the titanium ore and the titanium slag, the outer side surface of the drying box is provided with the heat insulation layer.
In the drying device for the titanium ore and the titanium slag, one side of the rotating shaft is provided with the second gear, the second gear is connected with the third gear through meshing, one side of the third gear is connected with the motor, and the motor is fixedly connected to the outer side of the drying box.
In the drying device for the titanium ore and the titanium slag, the feeding cylinder is fixedly connected to the left end face of the drying box.
In the drying device for the titanium ore and the titanium slag, the drying cylinder is movably connected with the right end face of the drying box, and the drying cylinder is 30-50cm longer than the right end face of the drying box.
In the drying device for titanium ore and titanium slag, the steam heating layer is located between the drying cylinder and the inner wall of the drying box.
Compared with the prior art, the utility model has the advantages that when in use, the titanium ore and the titanium slag raw materials are conveyed to the upper part of the feeding plate in the feeding cylinder through the conveying belt, and because the feeding plate is obliquely arranged and the right side of the feeding plate is higher than the left side, the raw materials enter the left end of the drying cylinder through the feeding cylinder and the feeding plate under the action of gravity; the rotary shaft rotates to drive the first gear to rotate, the first gear drives the annular rack to rotate, the annular rack drives the drying cylinder to rotate, the drying cylinder 15 drives the helical blade on the inner wall to rotate, so that the raw material entering the left end of the drying cylinder is transported to the right end of the drying cylinder under the action of the helical blade, meanwhile, in the process, high-pressure steam is introduced through the steam heating layer through the steam inlet pipe, the high-pressure steam is discharged through the steam discharging pipe, the drying cylinder in the drying box is heated by the steam heating layer, the drying cylinder has the characteristics of combination with the high-pressure steam in the existing production line, heat energy is utilized as ingredients, and the energy consumption is low, so that the temperatures of the raw material in the drying cylinder, the drying cylinder and the helical blade are increased, the raw material in the drying cylinder is heated and dried, and the helical blade can also play a role of stirring on the raw material in the process, The drying cylinder and the helical blade are fully contacted, the heating and drying effects are good, and because the raw materials are transported to the right end of the drying cylinder under the action of the rotation of the helical blade, the stroke in the stroke of the drying cylinder is increased, the time of the raw materials in the drying cylinder is long, and the drying effect is good; after accomplishing the drying in the drying cylinder, under helical blade pivoted effect, originally between through drying cylinder right-hand member unloading, realize material loading and ejection of compact simple, can realize assembly line drying production, simple structure, with low costs, easy maintenance can satisfy my company's actual production needs.
To sum up, the utility model discloses it is simple to have material loading and the ejection of compact, can realize the dry production of assembly line, combines together with high pressure steam in the current production line, and the composition utilizes heat energy, and the energy consumption is low, simple structure, and is with low costs, and easy maintenance can satisfy the beneficial effect that my company actually produced the needs.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a front view of the present invention;
fig. 3 is a right side view of the present invention.
The labels in the figures are: 1-support, 2-motor, 3-third gear, 4-second gear, 5-rotating shaft, 6-steam discharging pipe, 7-steam heating layer, 8-feeding plate, 9-feeding cylinder, 10-heat insulating layer, 11-drying box, 12-support frame, 13-first gear, 14-annular rack, 15-drying cylinder, 16-helical blade and 17-steam feeding pipe.
Detailed Description
The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.
Examples are given. A drying device for titanium ore and titanium slag is shown in figures 1-3 and comprises a support 1, a drying box 11 is arranged above the support 1, four support frames 12 are respectively and uniformly arranged on the inner walls of the left side and the right side of the drying box 11, rotating shafts 5 are respectively and movably arranged on the support frames 12, first gears 13 are respectively arranged on the rotating shafts 5, the first gears 13 on the left side and the right side are respectively connected with annular racks 14 through meshing, drying cylinders 15 are arranged on the inner sides of the annular racks 14 on the left side and the right side, spiral blades 16 are uniformly distributed on the inner walls of the drying cylinders 15, a feeding cylinder 9 is movably arranged in the left side end of the drying cylinders 15, a feeding plate 8 is obliquely arranged in the feeding cylinder 9, and the right side of the feeding plate 8 is higher than the; be equipped with steam heating layer 7 on the inner wall of drying cabinet 11, steam heating layer 7's right-hand member top is equipped with steam inlet pipe 17, and steam heating layer 7's left end below is equipped with steam discharging pipe 6.
When the utility model is used, the titanium ore and titanium slag raw materials are conveyed to the upper part of the feeding plate 8 in the feeding cylinder 9 through the conveying belt, because the feeding plate 8 is arranged obliquely and the right side of the feeding plate 8 is higher than the left side, the raw materials enter the left end of the drying cylinder 15 through the feeding cylinder 9 and the feeding plate 8 under the action of gravity; the rotary shaft 5 rotates, the rotary shaft 5 rotates to drive the first gear 13 to rotate, the first gears 13 on the left side and the right side are respectively connected with the annular rack 14 through meshing, the first gear 13 drives the annular rack 14 to rotate, the annular rack 14 drives the drying cylinder 15 to rotate, as the spiral blades 16 are uniformly distributed on the inner wall of the drying cylinder 15, the drying cylinder 15 drives the spiral blades 16 on the inner wall to rotate, so that raw materials entering the left end of the drying cylinder 15 are transported to the right end of the drying cylinder 15 under the action of the spiral blades 16, meanwhile, in the process, high-pressure steam is introduced through the steam inlet pipe 17 through the steam heating layer 7 and is discharged through the steam discharging pipe 6, and the steam heating layer 7 heats the drying cylinder 15 in the drying box 11 The temperatures of the drying cylinder 15 and the spiral blade 16 are increased, the raw materials in the drying cylinder 15 are heated and dried, and in the process of transporting the raw materials to the right end of the drying cylinder 15, the spiral blade 16 can also play a role in stirring the raw materials, the raw materials are fully contacted with the air in the drying cylinder 15, the drying cylinder 15 and the spiral blade 16, the heating and drying effects are good, and because the raw materials are transported to the right end of the drying cylinder 15 under the action of the rotation of the spiral blade 16, the stroke in the stroke of the drying cylinder 15 is increased, the time for the raw materials to be positioned in the drying cylinder 15 is long, and the drying effects are good; after the drying is completed in the drying cylinder 15, under the action of rotation of the spiral blades 16, feeding and discharging are simple in the prior art through discharging at the right end of the drying cylinder 15, assembly line drying production can be realized, the structure is simple, the cost is low, the maintenance is convenient, and the actual production needs of our company can be met.
The heat preservation layer 10 is arranged on the surface of the outer side of the drying box 11, so that the heat loss of the drying box 11 is reduced, and the utilization efficiency of the pressure steam heat energy is improved.
One side of one of the rotating shafts 5 is provided with a second gear 4, the second gear 4 is connected with a third gear 3 through meshing, one side of the third gear 3 is connected with a motor 2, and the motor 2 is fixedly connected to the outer side of the drying box 11. Rotate through motor 2, motor 2 drives third gear 3 and rotates, under second gear 4 is connected with third gear 3's effect through the meshing, third gear 3 drives second gear 4 and rotates, second gear 4 drives one of them pivot 5 and rotates, realize rotating through one of them pivot 5, pivot 5 rotates and drives first gear 13 and rotates, first gear 13 in the left and right sides is equallyd divide and is connected with under the effect of annular rack 14 through the meshing respectively, first gear 13 drives annular rack 14 and rotates, annular rack 14 drives drying cylinder 15 and rotates, because evenly distributed has helical blade 16 on drying cylinder 15's inner wall, drying cylinder 15 drives helical blade 16 on the inner wall and rotates.
The feeding cylinder 9 is fixedly connected to the left end face of the drying box 11. The conveyer belt can be installed in 8 tops of the feed plate of a feed cylinder 9, and when the raw materials fell into the feed plate 8 through the conveyer belt, because 9 fixed connection of a feed cylinder realized that 8 and 9 atress of a feed plate are good on the left side terminal surface of drying cabinet 11, the material loading was convenient, long service life, reliable characteristics.
The drying cylinder 15 is movably connected with the right end face of the drying box 11, so that the drying cylinder 15 rotates in the drying box 11, and the drying cylinder 15 is 30-50cm longer than the right end face of the drying box 11, so that the dried raw materials at the right end of the drying cylinder 15 can be fed conveniently.
The steam heating layer 7 is positioned between the drying cylinder 15 and the inner wall of the drying box 11. The steam heating layer 7 heats the inside of the drying cylinder 15 and the drying box 11. The temperature of the inside of the drying cylinder 15, the drying cylinder 15 and the spiral blade 16 is raised, and the raw material in the drying cylinder 15 is heated and dried.
Claims (6)
1. The utility model provides a drying device of titanium ore and titanium sediment which characterized in that: the drying device comprises a support (1), a drying box (11) is arranged above the support (1), four support frames (12) are respectively and uniformly arranged on the inner walls of the left side and the right side of the drying box (11), rotating shafts (5) are respectively and movably arranged on the support frames (12), first gears (13) are respectively arranged on the rotating shafts (5), the first gears (13) on the left side and the right side are respectively connected with annular racks (14) through meshing, drying cylinders (15) are arranged on the inner sides of the annular racks (14) on the left side and the right side, spiral blades (16) are uniformly distributed on the inner walls of the drying cylinders (15), a feeding cylinder (9) is movably arranged in the left side end of each drying cylinder (15), a feeding plate (8) is obliquely arranged in each feeding cylinder (9), and the right side of each feeding plate; be equipped with steam heating layer (7) on the inner wall of drying cabinet (11), the right-hand member top of steam heating layer (7) is equipped with steam inlet pipe (17), and the left end below of steam heating layer (7) is equipped with steam discharging pipe (6).
2. The drying apparatus for titanium ore and titanium slag according to claim 1, wherein: and a heat-insulating layer (10) is arranged on the outer side surface of the drying box (11).
3. The drying apparatus for titanium ore and titanium slag according to claim 1, wherein: one side of the rotating shaft (5) is provided with a second gear (4), the second gear (4) is connected with a third gear (3) through meshing, one side of the third gear (3) is connected with a motor (2), and the motor (2) is fixedly connected to the outer side of the drying box (11).
4. The drying apparatus for titanium ore and titanium slag according to claim 1, wherein: the feeding cylinder (9) is fixedly connected to the left end face of the drying box (11).
5. The drying apparatus for titanium ore and titanium slag according to claim 1, wherein: the drying cylinder (15) is movably connected with the right side end face of the drying box (11), and the drying cylinder (15) is 30-50cm longer than the right side end face of the drying box (11).
6. The drying apparatus for titanium ore and titanium slag according to claim 1, wherein: the steam heating layer (7) is positioned between the drying cylinder (15) and the inner wall of the drying box (11).
Priority Applications (1)
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CN201921912750.0U CN211739727U (en) | 2019-11-07 | 2019-11-07 | Drying device for titanium ore and titanium slag |
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CN201921912750.0U CN211739727U (en) | 2019-11-07 | 2019-11-07 | Drying device for titanium ore and titanium slag |
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CN211739727U true CN211739727U (en) | 2020-10-23 |
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CN201921912750.0U Active CN211739727U (en) | 2019-11-07 | 2019-11-07 | Drying device for titanium ore and titanium slag |
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GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: A drying device for titanium ore and titanium slag Effective date of registration: 20220621 Granted publication date: 20201023 Pledgee: China Construction Bank Corporation Qiannan Prefecture Branch Pledgor: Guizhou Shengwei Fuquan Chemical Co.,Ltd. Registration number: Y2022520000025 |
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PE01 | Entry into force of the registration of the contract for pledge of patent right |