CN111891582A

CN111891582A - Bentonite powder drying tank structure

Info

Publication number: CN111891582A
Application number: CN202010698273.3A
Authority: CN
Inventors: 王浩
Original assignee: Wuhu Penglei New Material Co ltd
Current assignee: Wuhu Penglei New Material Co ltd
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2020-11-06

Abstract

The invention provides a bentonite powder drying tank structure applied to the technical field of bentonite production, the rotary shaft (3) of the motor (2) arranged at the lower part of the tank body frame (1) of the bentonite powder drying tank body structure is connected with the bottom of the tank body (4), the upper surface of the tank body cover (5) is connected with the upper part of the tank body frame (1) through the telescopic cylinder (6), the lower surface of the tank body cover (5) is provided with the stirring shaft (7), the stirring shaft (7) is provided with a plurality of stirring blades (8) from top to bottom according to gaps, the stirring shaft (7) is provided with the water inlet pipeline (9) and the water return pipeline (10), the bentonite powder drying tank body structure has low cost, and can conveniently, reliably and lowly heat and dry bentonite powder according to requirements, and the powder is prevented from forming coagulum in the drying process, and the drying efficiency and the drying quality of the bentonite powder are improved.

Description

Bentonite powder drying tank structure

Technical Field

The invention belongs to the technical field of bentonite production, and particularly relates to a bentonite powder drying tank structure.

Background

Bentonite is a non-metallic mineral product, also called bentonite, having montmorillonite as the main mineral component. In the prior art, bentonite needs to be crushed to form powder in the production process, and then the powder needs to be dried. However, in the prior art, when the powder is dried, a quite complicated procedure and equipment are required, and the coagulum is easily formed, so that the quality cannot be guaranteed.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: to prior art's not enough, provide a simple structure, low in manufacturing cost can be as required convenient and reliable low to the bentonite powder heat drying process to avoid the powder to form the clot in drying process, thereby improve bentonite powder drying efficiency and powder drying quality's bentonite powder drying tank structure.

To solve the technical problems, the invention adopts the technical scheme that:

the invention relates to a bentonite powder drying tank structure, which comprises a tank body frame, wherein a vertically arranged motor is arranged at the lower part of the tank body frame, a rotating shaft of the motor is connected with the bottom of the tank body, the upper surface of a cover of the tank body is connected with the upper part of the tank body frame through a telescopic cylinder, a stirring shaft is arranged at the lower surface of the cover of the tank body, a plurality of stirring blades are arranged on the stirring shaft from top to bottom at intervals, a water inlet pipeline and a water return pipeline are arranged on the stirring shaft, the lower end of the water inlet pipeline is communicated with the lower end of the water return pipeline, the upper end of the water inlet pipeline is communicated with one end of a water inlet hose through a water inlet pipe orifice, the upper end of the water return pipeline is communicated with one end of a water return hose through a water return pipe orifice, the other end of the water inlet hose is communicated, set up a plurality of return water pipelines on the wet return and buckle, every return water pipeline buckles and sets up to the structure through a stirring leaf subassembly is inside.

Jar body one side be close to the upper end position and set up the powder feed inlet, jar body lower extreme one side sets up the powder discharge port of the shape of falling horn mouth.

The device frame lower part include the frame bottom plate, set up the groove that slides on the frame bottom plate, the activity of motor bottom clamps at the inslot that slides, still set up adjust cylinder I and adjust cylinder II on the frame bottom plate, adjust cylinder I and motor one side are connected, adjust cylinder II and motor opposite side are connected, adjust cylinder I and adjust cylinder II set up to be located same sharp structure, adjust cylinder I and the groove that slides are vertical arrangement structure, adjust cylinder II and the groove that slides are vertical arrangement structure. Adjusting cylinder I and adjusting cylinder II are connected with control unit respectively, and when control unit control adjusting cylinder I was flexible, control unit set up to the flexible structure of II of control adjusting cylinder simultaneously.

The telescopic cylinder is connected with a control part capable of controlling the telescopic cylinder to stretch, when the control part controls the telescopic cylinder to be in an extending state, the tank body cover is set to be in a closed state, and when the control part controls the telescopic cylinder to be in a contracting state, the tank body cover is set to be in an open state.

The lower surface of the cover of the tank body is provided with a plurality of fans, the fans are connected with a control part capable of controlling the fans to start and stop, and when the control part controls the fans to rotate, the fans are arranged into a structure capable of blowing downwards.

The motor is connected with a control part capable of controlling the motor to rotate, the upper end of a rotating shaft of the motor is connected with the lower end of the tank body through a flange, and a plurality of threaded rods which are screwed with threaded holes in the lower end of the tank body are arranged on the flange.

When the control component controls the telescopic cylinder to be in an extending state, a structure with a gap part is arranged between the lower surface of the cover of the tank body and the upper end surface of the tank body, and the gap part is arranged to be controlled between 0.5cm and 1 cm.

The heating component is a boiler or an electric heater.

By adopting the technical scheme of the invention, the following beneficial effects can be obtained:

the bentonite powder drying tank structure provided by the invention needs to be dried after bentonite is crushed to form bentonite powder. Through the institutional advancement, realize stirring, heating drying and prevent the clot, set up a jar body, set up jar body lid again, jar body lid can reciprocate through telescopic cylinder control to open when realizing shifting up, it is closed when moving down. And the body cover of the tank body can only move up and down and can not rotate. The tank body is connected with the motor, and the rotation is controlled by the motor, so that the tank body rotates relative to the tank body cover. At this in-process, a plurality of stirring leaves that the from the top down set up according to the clearance on the (mixing) shaft can stir this internal powder of jar, and at this in-process, the (mixing) shaft realizes the upset stirring of powder, and the heat transfer of inlet channel and return water pipeline output realizes the drying process of powder for the powder, effectively improves drying efficiency. And in the process of powder drying treatment, reliable overturning can be realized, and the powder is prevented from forming coagulum. When need carry out the raw materials heating, start the heater block, heater block heated circulation water, the circulating water gets into the water intake pipe through the hose of intaking, reentrant return water pipeline, rethread return water hose gets back to the heater block, realize hot water circulation, at the hot water circulation in-process, hydrothermal heat transmits the powder fast, realize the purpose of rapid heating stoving powder, and a plurality of stirring paddle leaf from the top down arranges according to the clearance, cover different aspect, make and stir the in-process, powder upset with higher speed, further improve the heating stoving effect, make the raw materials just realize drying process in short time. And set up a plurality of inlet channels on the inlet tube and buckle, every inlet channel buckles and sets up to the inside structure of stirring leaf subassembly through a stirring leaf, and the wet return sets up a plurality of return water pipelines on the road and buckles, and every return water pipeline buckles and sets up to the inside structure through a stirring leaf subassembly, effectively improves the coverage area of inlet channel and return water pipeline, effectively improves bentonite heating drying efficiency and quality. The bentonite powder drying tank body structure is simple in structure and low in cost, can be used for conveniently, reliably and lowly heating and drying bentonite powder according to needs, avoids the powder from forming coagulum in the drying process, and improves the drying efficiency and the drying quality of the bentonite powder.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

FIG. 1 is a schematic structural diagram of a bentonite powder drying tank structure according to the invention;

in the drawings, the reference numbers are respectively: 1. a tank frame; 2. a motor; 3. a rotating shaft; 4. a tank body; 5. a tank body cover; 6. a telescopic cylinder; 7. a stirring shaft; 8. stirring blades; 9. a water inlet pipeline; 10. a water return pipeline; 11. a water inlet pipe orifice; 12. a water inlet hose; 13. a return pipe opening; 14. a water return hose; 15. a heating member; 16. bending the water inlet pipeline; 17. a stirring blade assembly; 18. bending the water return pipeline; 19. a control component; 20. a gap portion; 21. a powder feed port; 22. a powder discharge port; 23. a frame floor; 24. a sliding groove; 25. an adjusting cylinder I; 26. an adjusting cylinder II; 27. a fan; 28. and a valve plate is opened and closed.

Detailed Description

The following detailed description of the embodiments of the present invention, such as the shapes and structures of the components, the mutual positions and connection relations among the components, the functions and operation principles of the components, will be made by referring to the accompanying drawings and the description of the embodiments:

as shown in the attached figure 1, the invention is a bentonite powder drying tank structure, which comprises a tank body frame 1, wherein a vertically arranged motor 2 is arranged at the lower part of the tank body frame 1, a rotating shaft 3 of the motor 2 is connected with the bottom of a tank body 4, the upper surface of a tank body cover 5 is connected with the upper part of the tank body frame 1 through a telescopic cylinder 6, a stirring shaft 7 is arranged at the lower surface of the tank body cover 5, a plurality of stirring blades 8 are arranged on the stirring shaft 7 from top to bottom according to gaps, a water inlet pipeline 9 and a water return pipeline 10 are arranged on the stirring shaft 7, the lower end of the water inlet pipeline 9 is communicated with the lower end of the water return pipeline 10, the upper end of the water inlet pipeline 9 is communicated with one end of a water inlet hose 12 through a water inlet pipe orifice 11, the upper end of the water return pipeline 10 is communicated with one end of a water, the water inlet pipeline 9 on set up a plurality of water inlet pipeline 16 of buckling, every water inlet pipeline 16 of buckling sets up to the inside structure of stirring leaf subassembly 17 through a stirring leaf 8, set up a plurality of return water pipeline 18 of buckling on the return water pipeline 10, every return water pipeline 18 of buckling sets up to the inside structure of a stirring leaf subassembly 17. In the above-described structure, after the bentonite is pulverized to form the bentonite powder, the bentonite powder needs to be dried. Set up a jar body, set up jar body lid again, jar body lid can reciprocate through telescopic cylinder control to open when realizing shifting up, it is closed when moving down. And the body cover of the tank body can only move up and down and can not rotate. The tank body is connected with the motor, and the rotation is controlled by the motor, so that the tank body rotates relative to the tank body cover. At this in-process, a plurality of stirring leaves 8 that the from the top down set up according to the clearance on the (mixing) shaft 7 can stir this internal powder of jar, and at this in-process, the (mixing) shaft realizes the upset stirring of powder, and the heat transfer of inlet channel 9 and return water pipeline 10 output realizes the drying process of powder for the powder, effectively improves drying efficiency. And in the process of powder drying treatment, reliable overturning can be realized, and the powder is prevented from forming coagulum. When need carry out the raw materials heating, start the heater block, heater block heating circulating water, the circulating water gets into inlet channel 9 through the hose of intaking, reentrant return water pipeline, rethread return water hose gets back to the heater block, realize hot water circulation, in the hot water circulation in-process, hydrothermal heat transmits the powder fast, realize the purpose of rapid heating stoving powder, and a plurality of stirring paddle leaf from the top down arranges according to the clearance, cover different aspect, make and stir the in-process, powder upset with higher speed, further improve the heating stoving effect, make the raw materials just realize drying process in short time. And the last a plurality of water inlet pipe way of setting up of water inlet pipe way 9 is buckled 16, and every water inlet pipe way is buckled 16 and is set up to the inside structure of stirring leaf subassembly through a stirring leaf 8, sets up a plurality of return water pipe ways on the return water pipeline 10 and buckles 18, and every return water pipeline is buckled 18 and is set up to the inside structure through a stirring leaf subassembly, like this, effectively improves water inlet pipe way and return water pipeline's coverage area, effectively improves bentonite heating and drying efficiency and quality. The bentonite powder drying tank body structure is simple in structure and low in manufacturing cost, can be used for conveniently, reliably and lowly heating and drying bentonite powder according to needs, avoids the powder from forming coagulum in the drying process, and effectively improves the drying efficiency and the drying quality of the bentonite powder.

As an implementation mode, a telescopic cylinder is not needed to be arranged to control the tank body cover, and a powder feeding port and a powder discharging port are arranged. Jar body 1 one side be close to the upper end position and set up powder feed inlet 21, jar body 1 lower extreme one side set up the powder discharge port 22 of the shape of the horn mouth of falling. Above-mentioned structure, the slope of powder feed inlet sets up for add the non-powder of needs heat drying process to this internal to the body of body. And the powder discharge port is used for turning out the dried powder. Therefore, the powder is quite convenient to add and take out, and the use convenience is improved.

Device 1 lower part include frame bottom plate 23, set up sliding groove 24 on the frame bottom plate 23, the activity of 2 bottoms of motor clamps in sliding groove 24, still set up adjust cylinder I25 and adjust cylinder II 26 on the frame bottom plate 23, adjust cylinder I25 and motor 2 one side are connected, adjust cylinder II 26 and motor 2 opposite side are connected, adjust cylinder I25 and adjust cylinder II 26 set up to be located same sharp structure, adjust cylinder I25 and sliding groove 24 are vertical layout structure, adjust cylinder II 26 and sliding groove 24 are vertical layout structure. The adjusting cylinder I25 and the adjusting cylinder II 26 are respectively connected with the control part 19, and when the control part 18 controls the adjusting cylinder I25 to stretch, the control part 19 is set to be of a structure capable of simultaneously controlling the adjusting cylinder II 26 to stretch. Above-mentioned structure, the groove that slides realizes spacing to the motor for the motor can be for the groove horizontal migration that slides under the circumstances of no binding power, and through the setting of adjusting cylinder I25 and adjusting cylinder II 26, then realizes the horizontal migration control of motor along the groove that slides. Like this, when the motor drives the body and rotates for the (mixing) shaft, realize the reciprocating motion of body along the horizontal direction, form the swing to make this internal powder of jar shake with higher speed.

The telescopic cylinder 6 is connected with a control part 19 capable of controlling the telescopic cylinder 6 to stretch, when the control part 19 controls the telescopic cylinder 6 to be in an extending state, the tank body cover 5 is set to be in a closed state, and when the control part 19 controls the telescopic cylinder 6 to be in a contracting state, the tank body cover 5 is set to be in an open state. Above-mentioned structure, as another embodiment, can be without setting up solitary powder feed inlet 21, but through controlling jar body lid to shift up, form great clearance at jar body lid and jar body upper end, be convenient for add the bentonite powder that needs drying process to jar body. Above-mentioned structure through the telescopic cylinder of control part control, realizes that jar body lid shifts up and moves down, and the back that moves up, jar body lid are kept away from jar body upper end, are convenient for add new raw materials. After the cover of the tank body moves downwards, the tank body is sealed. In the sealing process, sundries are prevented from entering, and the operation safety is ensured.

The plurality of fans 27 are arranged on the lower surface of the can body cover 5, the fans 27 are connected with the control part 19 capable of controlling the start and stop of the fans 27, and when the control part 19 controls the fans 27 to rotate, the fans 27 are arranged to blow downwards. Above-mentioned structure, because the bentonite powder in drying process, need the stirring make the bentonite powder to raise, and the bentonite powder can produce the ash of raising when raising, upwards wafts, piles up at body lid lower surface, and the setting of fan, when the fan rotates, forms the wind-force of blowing downwards, can effectively the separation ash of raising upwards wafts.

The motor 2 is connected with a control part 19 capable of controlling the motor 2 to rotate, the upper end of a rotating shaft 3 of the motor 2 is connected with the lower end of the tank body 1 through a flange, and a plurality of threaded rods which are screwed with threaded holes in the lower end of the tank body 1 are arranged on the flange. Above-mentioned structure, flange are the spherical surface structure of concave yield, and laminate with jar body lower extreme, then connect through the screw rod, and the jar body can be changed.

When the control component 19 controls the telescopic cylinder 6 to be in an extending state, a structure with a gap part 20 is arranged between the lower surface of the tank body cover 5 and the upper end surface of the tank body 4, and the gap part 20 is arranged to be controlled between 0.5cm-1 cm. Above-mentioned structure, the setting of clearance portion avoids jar body rotation process and jar body lid to take place the friction, improves the life-span.

The heating component 15 is a boiler or an electric heater. Above-mentioned structure, the effect of heating part is to continuously providing the higher circulation hot water of temperature in the jar body, realizes the raw materials drying.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments disclosed, but is intended to cover various modifications, changes and equivalents of the embodiments of the invention, and its application to other applications without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a dry tank structure of bentonite powder which characterized in that: comprises a tank body frame (1), a vertically arranged motor (2) is arranged at the lower part of the tank body frame (1), a rotating shaft (3) of the motor (2) is connected with the bottom of a tank body (4), the upper surface of a tank body cover (5) is connected with the upper part of the tank body frame (1) through a telescopic cylinder (6), a stirring shaft (7) is arranged at the lower surface of the tank body cover (5), a plurality of stirring blades (8) are arranged on the stirring shaft (7) from top to bottom according to gaps, a water inlet pipeline (9) and a water return pipeline (10) are arranged on the stirring shaft (7), the lower end of the water inlet pipeline (9) is communicated with the lower end of the water return pipeline (10), the upper end of the water inlet pipeline (9) is communicated with one end of a water inlet hose (12) through a water inlet pipe orifice (11), the upper end of the water return pipeline (10) is communicated with one end of a water return, return water hose (14) other end and heater block (15) wet return intercommunication, inlet channel (9) on set up a plurality of inlet channel and buckle (16), every inlet channel buckles (16) and sets up to the inside structure of stirring leaf subassembly (17) through a stirring leaf (8), set up a plurality of return water pipeline on return water pipeline (10) and buckle (18), every return water pipeline buckles (18) and sets up to the inside structure through a stirring leaf subassembly (17).

2. The bentonite powder drying tank structure as set forth in claim 1, wherein: jar body (1) one side be close to the upper end position and set up powder feed inlet (21), jar body (1) lower extreme one side set up powder discharge port (22) of the shape of falling horn mouth.

3. The bentonite powder drying tank structure as claimed in claim 1 or 2, wherein: device frame (1) lower part include frame bottom plate (23), set up sliding groove (24) on frame bottom plate (23), motor (2) bottom activity card dress is in sliding groove (24), still set up adjust cylinder I (25) and adjust cylinder II (26) on frame bottom plate (23), adjust cylinder I (25) and motor (2) one side are connected, adjust cylinder II (26) and motor (2) opposite side are connected, adjust cylinder I (25) and adjust cylinder II (26) and set up to be located the structure of same straight line, adjust cylinder I (25) and sliding groove (24) are perpendicular arrangement structure, adjust cylinder II (26) and sliding groove (24) are perpendicular arrangement structure.

4. The bentonite powder drying tank structure as set forth in claim 3, wherein: the adjusting cylinder I (25) and the adjusting cylinder II (26) are respectively connected with the control component (19), and when the control component (18) controls the adjusting cylinder I (25) to stretch, the control component (19) is set to be of a structure capable of controlling the adjusting cylinder II (26) to stretch simultaneously.

5. The bentonite powder drying tank structure as set forth in claim 4, wherein: the telescopic cylinder (6) is connected with a control part (19) capable of controlling the telescopic cylinder (6) to stretch, when the control part (19) controls the telescopic cylinder (6) to be in a stretching state, the tank body cover (5) is set to be in a closed state, and when the control part (19) controls the telescopic cylinder (6) to be in a contracting state, the tank body cover (5) is set to be in an open state.

6. The bentonite powder drying tank structure as claimed in claim 1 or 2, wherein: the lower surface of the tank body cover (5) is provided with a plurality of fans (27), the fans (27) are connected with a control part (19) capable of controlling the fans (27) to start and stop, and when the control part (19) controls the fans (27) to rotate, the fans (27) are arranged in a structure capable of blowing downwards.

7. The bentonite powder drying tank structure as claimed in claim 1 or 2, wherein: the motor (2) is connected with a control part (19) capable of controlling the motor (2) to rotate, the upper end of a rotating shaft (3) of the motor (2) is connected with the lower end of the tank body (1) through a flange, and a plurality of threaded rods screwed with threaded holes in the lower end of the tank body (1) are arranged on the flange.

8. The bentonite powder drying tank structure as set forth in claim 5, wherein: when the control component (19) controls the telescopic cylinder (6) to be in an extending state, a structure with a gap part (20) is arranged between the lower surface of the tank body cover (5) and the upper end surface of the tank body (4), and the gap part (20) is arranged to be controlled between 0.5cm and 1 cm.

9. The bentonite powder drying tank structure as claimed in claim 1 or 2, wherein: the heating component (15) is a boiler or an electric heater.