CN222983752U - A salting out tank for salting out crystallization production - Google Patents

Abstract

The utility model discloses a salting-out tank for salting-out crystallization production, which comprises a tank body and a scraping assembly, wherein the scraping assembly comprises a stirring paddle, a scraping member and a driving member, the stirring paddle is rotationally arranged in the tank body, the scraping member and the stirring paddle are arranged at intervals, the stirring paddle is rotationally arranged in the tank body, the scraping member can slide relative to the tank body and movably abut against the inner wall of the tank body, the driving member is provided with a fixed end and a movable end, the fixed end of the driving member is connected with the tank body, the movable end of the driving member is connected with the scraping member and is used for driving the scraping member to rotate around a rotating shaft of the scraping member, and the scraping member is movably abut against the circumferential inner wall of the tank body. The utility model can effectively solve the problems that the material is shoveled from the inner wall of the tank body due to the fact that the material is adhered to the circumferential inner wall of the tank body and needs to be manually operated, thereby causing time and labor waste and low production efficiency.

Description

Salting-out tank for salting-out crystallization production

Technical Field

The utility model relates to the technical field of chemical salting-out crystallization equipment, in particular to a salting-out tank for salting-out crystallization production.

Background

In the chemical industry, salting-out devices are an important production facility that reduces the solubility of substances by adding inorganic salts, thereby allowing them to be separated from solution.

For example, the Chinese patent application number is CN202223380822.6, the name is a temperature control structure of an ultrafiltration concentration liquid-changing salting-out tank, the temperature control structure comprises a tank body, a heat preservation cylinder wrapped outside the tank body, a jacket cylinder arranged between the tank body and the heat preservation cylinder, a cavity formed between the jacket cylinder and the tank body, an annular guide plate arranged in the cavity and surrounding the tank body, and a water outlet pipe and a water inlet pipe arranged on the side wall of the heat preservation cylinder and communicated with the cavity, wherein the device utilizes the annular spiral guide plate to control the movement direction of cooling water to achieve the heat exchange effect. The material that salting out crystallization produced can adhere on the circumference inner wall of jar body in the reaction process for need manual operation to eradicate the material from the inner wall of jar body, not only waste time and energy, and lead to production efficiency low.

Therefore, there is a need for a salting-out tank for salting-out crystallization production, which is used for solving the problems of time and labor waste and low production efficiency caused by the fact that materials are shoveled from the inner wall of the tank body by manual operation due to adhesion on the circumferential inner wall of the tank body in the prior art.

Disclosure of utility model

The utility model aims to overcome the technical defects, and provides a salting-out tank for salting-out crystallization production, which solves the technical problems of time and labor waste and low production efficiency caused by the fact that materials are removed from the inner wall of a tank body by manual operation because the materials are adhered to the circumferential inner wall of the tank body in the prior art.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

In a first aspect, the present utility model provides a salting-out tank for use in production of salting-out crystals, comprising:

can body, and

The stirring paddle is rotated and is arranged in the tank body, the stirring paddle is arranged at intervals, the stirring paddle is rotated and is arranged in the tank body, the stirring paddle is arranged in the tank body in a rotating mode, the stirring paddle is arranged in the tank body in a sliding mode, the stirring paddle is movably abutted to the inner wall of the tank body, the driving piece is provided with a fixed end and a movable end, the fixed end of the driving piece is connected to the tank body, the movable end of the driving piece is connected to the stirring paddle, and the driving piece is used for driving the stirring paddle to rotate around a rotating shaft of the stirring paddle, and the stirring paddle is movably abutted to the circumferential inner wall of the tank body.

In some embodiments, the salting-out tank for salting-out crystallization production further comprises a main shaft, one end of the main shaft is rotatably arranged in the tank body, the other end of the main shaft is rotatably connected with the top of the tank body, and the stirring paddle is arranged along the axial direction of the main shaft and is connected with one end of the main shaft.

In some embodiments, the removing member includes a support, a rotating shaft, and at least one removing plate, one end of the support is connected to the spindle, the other end of the support extends radially along the tank body, the rotating shaft rotates to be connected to the other end of the support, the removing plate has a connection end and a removing end, the abutting end of the removing plate is opposite to the inner wall of the tank body, and can abut against the inner wall of the tank body, and the connection end of the removing plate is connected to the rotating shaft.

In some embodiments, the scooping end of the scooping panel has a gradually decreasing cross-sectional area in a direction approaching the inner wall of the can.

In some embodiments, the relief end of the relief plate is resilient.

In some embodiments, the number of the removing plates in the removing assembly is plural, the plural removing plates are uniformly arranged along the circumferential direction of the rotating shaft, and the connection ends of the plural removing plates are connected to the rotating shaft.

In some embodiments, the driving member comprises a driving motor, wherein a fixed end of the driving motor is connected to the top of the tank body, and an output shaft is connected to the main shaft and is used for driving the main shaft and the bracket to rotate relative to the inner wall of the tank body.

In some embodiments, the driving member further includes an inner gear ring and a transmission gear, wherein the inner gear ring is coaxially disposed with the can body and connected to an inner wall of the can body, and the transmission gear is connected to the rotation shaft and meshed with the inner gear ring.

In some embodiments, the scraping assembly further comprises an auxiliary frame, wherein the auxiliary frame is L-shaped and is provided with a supporting end and a rotating end, the rotating end of the auxiliary frame is rotatably connected to the bottom of the tank body, and the rotating shaft is in transmission connection with the supporting end of the auxiliary frame.

In some embodiments, a first bearing hole is formed at the other end of the bracket, a second bearing hole is formed at the supporting end of the auxiliary bracket opposite to the first bearing hole, the shoveling assembly further comprises two rotating bearings, the two rotating bearings are respectively embedded in the first bearing hole and the second bearing hole, and two ends of the rotating shaft are respectively inserted in the two bearing holes of the rotating bearings.

Compared with the prior art, the salting-out tank for salting-out crystallization production has the beneficial effects that the stirring paddles are arranged in the tank body, the stirring paddles rotate to promote mixing of liquid in the tank body, the scraping pieces are arranged in the tank body at intervals with the stirring paddles, the scraping pieces are arranged in the tank body in a rotating mode, the scraping pieces can slide relative to the tank body and movably abut against the inner wall of the tank body, and under the driving of the driving pieces, the scraping pieces can scrape materials adhered to the inner wall of the tank body and can scrape materials on the circumferential inner wall of the tank body. Compared with the prior art, the inner wall through relative jar body sets up the piece of shoveling for under the drive of driving piece, the piece of shoveling can be shoveled the material of adhesion on the inner wall of jar body, the driving piece can also drive simultaneously and shoveling the piece and slide along the circumference inner wall of jar body, the piece of shoveling after the slip can realize the shoveling and the clearance of jar body circumference inner wall, not only simple structure and convenient operation can solve among the prior art because of the adhesion need manual operation on the circumference inner wall of jar body with the material from the inner wall of jar body, thereby lead to wasting time and energy and the low technical problem of production efficiency.

Drawings

FIG. 1 is a schematic three-dimensional structure of a salting-out tank for salting-out crystallization production according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a three-dimensional structure of a salting-out tank for salting-out crystallization production according to another embodiment of the present utility model;

FIG. 3 is an enlarged schematic view along A in FIG. 2;

FIG. 4 is a schematic three-dimensional structure diagram of a salting-out tank for salting-out crystallization production according to an embodiment of the present utility model at another view angle;

Fig. 5 is a schematic cross-sectional view of a connection between a rotating shaft and a scraper plate according to an embodiment of the present utility model.

Reference numerals illustrate:

A tank 1;

the removing assembly 2;

a stirring paddle 21;

a scraper 22;

a bracket 221;

A rotation shaft 222;

the plate 223 is removed;

A connection end 2231;

The terminal 2232 is removed;

a driving member 23;

A driving motor 231;

An inner ring gear 232;

A transmission gear 233;

an auxiliary frame 24;

a rotating bearing 25;

A main shaft 3.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In order to solve the technical problems that manual operation is needed to remove materials from the inner wall of the tank body 1 due to adhesion on the circumferential inner wall of the tank body, so that time and labor are wasted and production efficiency is low, the utility model provides a salting-out tank for salting-out crystallization production, which can remove the materials adhered on the inner wall of the tank body and avoid removing the materials from the inner wall of the tank body 1 due to manual operation.

It should be noted that, the salting-out tank for salting-out crystallization production according to the present utility model is used in, but not limited to, the technical field of chemical salting-out crystallization equipment, and for convenience of explanation, in the present utility model, only the application of the salting-out tank for salting-out crystallization production to the technical field of chemical salting-out crystallization equipment is described as an example, and the principle of the application of the salting-out tank for salting-out crystallization production to other types of equipment is substantially the same as the principle of the application of the salting-out tank for salting-out crystallization production to the technical field of chemical salting-out crystallization equipment, and is not repeated herein.

Referring to fig. 1 to 4, fig. 1 and 2 are schematic structural diagrams of a salting-out tank for salting-out crystallization production in an embodiment of the present utility model, the salting-out tank for salting-out crystallization production includes a tank body 1 and a scraping component 2, the scraping component 2 includes a stirring paddle 21, a scraping member 22 and a driving member 23, the stirring paddle 21 is rotatably disposed in the tank body 1, the scraping member 22 is disposed at a distance from the stirring paddle, and is rotatably disposed in the tank body 1, the scraping member 22 can slide relative to the tank body 1 and movably abuts against an inner wall of the tank body 1, the driving member 23 has a fixed end and a movable end, the fixed end of the driving member 23 is connected to the tank body 1, and the movable end of the driving member 23 is connected to the scraping member 22 for driving the scraping member 22 to rotate around a rotation shaft thereof, and enables the scraping member 22 to movably abut against a circumferential inner wall of the tank body 1.

In this device, the inside of jar body 1 is provided with stirring rake 21, and stirring rake 21 rotates and can promote the mixing of jar body 1 internal liquid, still is provided with the piece 22 of shoveling in the jar body 1 simultaneously, and the piece 22 of shoveling sets up with the stirring rake interval, and rotates the internal jar body 1 of arranging in, and the piece 22 of shoveling can slide relative jar body 1 to movable butt is in the inner wall of jar body 1, under the drive of driver 23, the piece 22 of shoveling can shovel the material of adhesion on the inner wall of jar body 1, and can shovel the material on the circumference inner wall of jar body 1.

Compared with the prior art, through setting up the piece 22 of shoveling off relative jar inner wall of body 1 for under the drive of driving piece 23, the piece 22 of shoveling off can be shoveled off the material of adhesion on the inner wall of body 1, driving piece 23 can also drive simultaneously and shoveling off 22 along jar circumference inner wall slip of body 1, and the piece 22 of shoveling off after the slip can realize the shoveling off and the clearance of body 1 circumference inner wall, not only simple structure and convenient operation can solve in the prior art because of the manual operation needs on the circumference inner wall of body 1 of adhesion with the material from the inner wall of body 1, thereby leads to wasting time and energy and the low technical problem of production efficiency.

Further, still be provided with the feed inlet that is used for adding the raw materials to jar body 1 in the top of the body 1 in this device, jar body 1 is intermediate layer insulation construction simultaneously, is provided with the guide plate that is the heliciform in the intermediate layer, still is provided with cooling water import and the cooling water export that are linked together with the intermediate layer on jar body 1, and this is the conventional setting that the person skilled in the art knows, and this is not repeated here.

In this embodiment, as shown in fig. 2, the device further includes a main shaft 3, one end of the main shaft 3 is rotatably disposed in the tank 1, the other end is rotatably connected to the top of the tank 1, and the stirring paddle 21 is disposed along the axial direction of the main shaft 3 and is connected to one end of the main shaft 3.

The stirring paddle 21 is in rotary connection with the tank body 1 through the main shaft 3.

Further, the stirring paddle 21 is a stirring device which is common in the market and is easy to purchase, and is a conventional arrangement known to those skilled in the art, and will not be described in detail.

In this embodiment, as shown in fig. 3, the removing member 22 includes a support 221, a rotation shaft 222 and at least one removing plate 223, one end of the support 221 is connected to the spindle 3, the other end is arranged along the radial extension of the can 1, the rotation shaft 222 is rotatably connected to the other end of the support 221, the removing plate 223 has a connection end 2231 and a removing end 2232, the abutting end of the removing plate 223 is arranged opposite to the inner wall of the can 1 and can abut against the inner wall of the can 1, and the connection end 2231 of the removing plate 223 is connected to the rotation shaft 222.

The bracket 221 supports and connects the rotation shaft 222 and the spindle 3.

Further, the scraping plate 223 is abutted against the inner wall of the can 1, and can be movably abutted against the circumferential inner wall of the can 1 under the drive of the spindle 3.

As one embodiment, the scooping end 2232 of the scooping panel 223 is gradually reduced in cross-sectional area in a direction approaching the inner wall of the can 1, as shown in fig. 5.

The cross-sectional area of the removing end 2232 of the removing plate 223 is gradually reduced, so that the dead weight of the device can be reduced, and the removing effect can be improved.

Wherein as another embodiment the stripping end 2232 of the stripping plate 223 is resilient.

The removing end 2232 of the removing plate 223 having elasticity can improve the degree of adhesion between the removing end and the inner wall of the can 1, and improve the removing effect.

As another preferred embodiment, as shown in fig. 3 to 5, the number of the removing plates 223 in the removing assembly 2 is plural, the plurality of removing plates 223 are uniformly arranged along the circumferential direction of the rotating shaft 222, and the connecting ends 2231 of the plurality of removing plates 223 are connected to the rotating shaft 222.

The plurality of plates 223 evenly distributed and the circumference outer wall of axis of rotation 222 for a plurality of plates 223 after the rotation all can the butt in the inner wall of jar body 1, not only can promote the effect of shoveling, can reduce the wearing and tearing of plates 223 simultaneously, hoisting device's stability.

In this embodiment, as shown in fig. 1 and 2, the driving member 23 includes a driving motor 231, and a fixed end of the driving motor 231 is connected to the top of the tank 1, and an output shaft is connected to the spindle 3, so as to drive the spindle 3 and the bracket 221 to rotate relative to the inner wall of the tank 1.

Through the driving force that driving motor 231 provided, can realize stirring rake 21 and take off board 223 and rotate relative jar body 1 simultaneously, can realize promoting the effect of liquid mixing and taking off the material on jar body 1 inner wall respectively, can reduce manufacturing cost effectively.

Further, the driving motor 231 is a device that is common and easy to purchase in the market, and is a conventional arrangement known to those skilled in the art, and will not be described in detail herein.

In one embodiment, referring to fig. 3 and 4, the driving member 23 further includes an annular gear 232 and a transmission gear 233, wherein the annular gear 232 is coaxially disposed with the can 1 and is connected to an inner wall of the can 1, and the transmission gear 233 is connected to the rotation shaft 222 and is meshed with the annular gear 232.

Through the meshing of the transmission gear 233 and the ring gear 232, the rotation shaft 222 can rotate relative to the bracket 221, and the rotated rotation shaft 222 and the removing plate 223 can improve the removing effect and the production efficiency.

Further, the ring gear 232 and the driving gear 233 are common and easy to purchase in the market, and are conventional as known to those skilled in the art, and will not be repeated here.

In one embodiment, referring to fig. 2 and 4, the removing assembly 2 further includes an auxiliary frame 24, the auxiliary frame 24 has an L-shape and has a supporting end and a rotating end, the rotating end of the auxiliary frame 24 is rotatably connected to the bottom of the tank 1, and the rotating shaft 222 is in driving connection with the supporting end of the auxiliary frame 24.

The auxiliary frame 24 is connected with the rotation shaft 222 and can rotate relative to the bottom of the tank 1, and is used for supporting the rotation shaft 222 and the scraping plate 223, so as to improve the running stability of the device.

In one embodiment, referring to fig. 3, a first bearing hole is formed at the other end of the bracket 221, a second bearing hole is formed at the supporting end of the auxiliary frame 24 opposite to the first bearing hole, the shoveling assembly 2 further includes two rotating bearings 25, the two rotating bearings 25 are respectively embedded in the first bearing hole and the second bearing hole, and two ends of the rotating shaft 222 are respectively inserted in the bearing holes of the two rotating bearings 25.

By providing the rotation bearing 25 at the junction between the rotation shaft 222 and the bracket 221 and the auxiliary frame 24, friction force in the rotation process can be effectively reduced, and stability of the operation of the device can be improved.

Further, the rolling bearing 25 is a common and easily purchased arrangement in the market, and is a conventional arrangement known to those skilled in the art, and will not be described in detail herein.

For a better understanding of the present utility model, the following details of the technical solution of the present utility model are described with reference to fig. 1 to 5:

According to the concrete working process, the stirring paddles 21 are arranged in the tank body 1, the stirring paddles 21 rotate to promote mixing of liquid in the tank body 1, meanwhile, the scraping pieces 22 are arranged in the tank body 1 at intervals with the stirring paddles, the scraping pieces 22 are arranged in the tank body 1 in a rotating mode, the scraping pieces 22 can slide relative to the tank body 1 and movably abut against the inner wall of the tank body 1, and under the driving of the driving piece 23, the scraping pieces 22 can scrape materials adhered to the inner wall of the tank body 1 and scrape materials on the circumferential inner wall of the tank body 1. Compared with the prior art, the scraping piece 22 is arranged through the inner wall of the relative tank body 1, so that the scraping piece 22 can be driven by the driving piece 23 to scrape off materials adhered to the inner wall of the tank body 1, meanwhile, the driving piece 23 can also drive the scraping piece 22 to slide along the circumferential inner wall of the tank body 1, and the scraping piece 22 after sliding can be used for scraping off and cleaning the circumferential inner wall of the tank body 1, so that the device is simple in structure and convenient to operate.

When the novel energy-saving tank is used, a user firstly passes raw materials into the tank 1 from the top of the tank 1, and turns on cooling circulating water to circulate the cooling water, then controls the driving motor 231 to rotate and drives the main shaft 3 to rotate, the rotated main shaft 3 can drive the stirring paddles 21 and the support 221 to synchronously rotate, then the support 221 rotates, the transmission gear 233 is continuously meshed with the annular gear 232, and finally the rotating shaft 222 and the shoveling plate 223 are driven to rotate relative to the circumferential inner wall of the tank 1, so that the effect of shoveling the materials on the inner wall of the tank 1 can be achieved, and the novel energy-saving tank has a simple structure, is time-saving and labor-saving, and saves production cost.

Through the structure, the device can solve the technical problems that in the prior art, materials are shoveled from the inner wall of the tank body 1 due to the fact that the materials are required to be manually operated on the circumferential inner wall of the tank body 1, so that time and labor are wasted and production efficiency is low.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A salting-out tank for salting-out crystallization production, comprising:

can body, and

The stirring paddle is rotated and is arranged in the tank body, the stirring paddle is arranged at intervals, the stirring paddle is rotated and is arranged in the tank body, the stirring paddle is arranged in the tank body in a rotating mode, the stirring paddle is arranged in the tank body in a sliding mode, the stirring paddle is movably abutted to the inner wall of the tank body, the driving piece is provided with a fixed end and a movable end, the fixed end of the driving piece is connected to the tank body, the movable end of the driving piece is connected to the stirring paddle, and the driving piece is used for driving the stirring paddle to rotate around a rotating shaft of the stirring paddle, and the stirring paddle is movably abutted to the circumferential inner wall of the tank body.

2. The salting-out tank for salting-out crystallization production according to claim 1, further comprising a main shaft, wherein one end of the main shaft is rotatably arranged in the tank body, the other end of the main shaft is rotatably connected with the top of the tank body, and the stirring paddle is arranged along the axial direction of the main shaft and is connected with one end of the main shaft.

3. The salting-out tank for salting-out crystallization production according to claim 2, wherein the scooping member comprises a bracket, a rotating shaft and at least one scooping plate, one end of the bracket is connected to the main shaft, the other end of the bracket extends along the radial direction of the tank body, the rotating shaft is rotatably connected to the other end of the bracket, the scooping plate is provided with a connecting end and a scooping end, the abutting end of the scooping plate is opposite to the inner wall of the tank body and can abut against the inner wall of the tank body, and the connecting end of the scooping plate is connected to the rotating shaft.

4. A salting-out tank for salting-out crystallization production according to claim 3, wherein a scooping end of the scooping panel is gradually reduced in cross-sectional area in a direction approaching an inner wall of the tank body.

5. The salting-out tank for salting-out crystallization production according to claim 4, wherein a scooping end of the scooping panel has elasticity.

6. The salting-out tank for salting-out crystallization production according to claim 5, wherein the number of the scooping plates in the scooping assembly is plural, the plural scooping plates are uniformly arranged along the circumferential direction of the rotation shaft, and the connection ends of the plural scooping plates are connected to the rotation shaft.

7. The salting-out tank for salting-out crystallization production according to claim 6, wherein the driving member comprises a driving motor, a fixed end of the driving motor is connected to the top of the tank body, and an output shaft is connected to the main shaft and is used for driving the main shaft and the bracket to rotate relative to the inner wall of the tank body.

8. The salting-out tank for salting-out crystallization production according to claim 7, wherein the driving member further comprises an inner gear ring and a transmission gear, the inner gear ring is coaxially arranged with the tank body and connected to an inner wall of the tank body, and the transmission gear is connected to the rotating shaft and meshed with the inner gear ring.

9. The salting-out tank for salting-out crystallization production according to claim 8, wherein the scooping assembly further comprises an auxiliary frame, wherein the auxiliary frame is L-shaped and has a supporting end and a rotating end, the rotating end of the auxiliary frame is rotatably connected to the bottom of the tank body, and the rotating shaft is in transmission connection with the supporting end of the auxiliary frame.

10. The salting-out tank for salting-out crystallization production according to claim 9, wherein a first bearing hole is formed in the other end of the bracket, a second bearing hole is formed in the supporting end of the auxiliary frame opposite to the first bearing hole, the shoveling assembly further comprises two rotating bearings, the two rotating bearings are respectively embedded in the first bearing hole and the second bearing hole, and two ends of the rotating shaft are respectively inserted in the bearing holes of the two rotating bearings.