CN216572575U - Surface treatment agent agitator tank - Google Patents

Abstract

The utility model provides a surface treatment agent stirring tank, which comprises a tank body, wherein a first stirring device is arranged at the top of the tank body and extends towards the bottom of the tank body; the second stirring device is arranged at the bottom of the tank body and extends towards the top of the tank body; the first stirring device and the second stirring device are arranged in the tank body in a stacking manner along the height direction of the tank body; one end of the second stirring device is rotatably connected with one end of the first stirring device; the first stirring device and the second stirring device rotate in opposite directions; the first stirring device comprises a first stirring paddle which is obliquely arranged; the second stirring device comprises a second stirring paddle which is obliquely arranged; the turbulent flow generated by the first stirring paddle is mixed with the turbulent flow generated by the second stirring paddle and circularly flows in the tank body; the axial fluid motion generated by the first stirring paddle is overlapped with the motion direction of the axial fluid motion generated by the second stirring paddle; the axial motion fluid generated by the driving of the first stirring paddle and the axial motion fluid generated by the driving of the second stirring paddle are fully mixed in the tank body.

Description

Surface treatment agent agitator tank

Technical Field

The utility model relates to an agitator tank, concretely relates to surface treatment agent agitator tank.

Background

A stirring shaft is arranged in the stirring tank, and a stirring paddle extends outwards from the stirring shaft; the materials are stirred under the action of the stirring paddle; the existing stirring shaft can only stir materials along one direction; the materials are movably mixed in the stirring tank along one direction; such a stirring mechanism can not realize that the materials in the tank generate good collision shearing effect, so that the stirring effect can only be compensated by prolonging the stirring time, and meanwhile, the production efficiency is influenced and the energy conservation is not facilitated.

The patent documents with Chinese application number 201210079955.1 and application number 2012.03.26 disclose a reaction kettle; comprises a tank body, wherein a tank cover is arranged at the top end of the tank body, and a stirring mechanism extending into the tank body is arranged on the tank cover; the stirring mechanism comprises a first stirrer and a second stirrer which are fixed on the tank cover, and the first stirrer comprises a first motor, a first speed reducer base and a first stirring shaft; the second stirrer comprises a second motor, a second speed reducer base and a second stirring shaft, and the rotation directions of the first stirring shaft and the second stirring shaft are the same or opposite; the first stirrer and the second stirrer rotate in different directions respectively to eliminate the swirling phenomenon generated by material rotation.

Shown with reference to fig. 1 and 2; the stirring paddle arranged obliquely enables the materials in the tank body to generate axial fluid movement; the materials can circularly flow from the bottom to the top along the two sides of the stirring shaft; but the first stirrer of the reaction kettle is arranged at one side of the tank body; the second stirrer is arranged on the other side of the tank body; the first stirrer forms a flow area on one side of the tank body; the first stirrer forms another flowing area on the other side of the tank body; the overlapping area between the two flow areas is small, and the material slow-closing effect in the two flow areas is poor.

Disclosure of Invention

The utility model provides a surface treatment agent stirring tank, wherein a first stirring device and a second stirring device are arranged in the stirring tank in a vertically stacked manner, and a flow area formed by the first stirring device is completely overlapped with a flow area formed by the second stirring device; the axial force generated by the first stirring device is superposed with the axial force generated by the second stirring device; the material of axial flow circulates between the flow area that first agitating unit formed and the flow area that the second agitating unit formed, and the material mixes effectually.

In order to achieve the above purpose, the technical scheme of the utility model is that: a surface treating agent stirring tank comprises a tank body, wherein a first stirring device and a second stirring device are arranged in the tank body, and the first stirring device is arranged at the top of the tank body and extends towards the bottom of the tank body; the second stirring device is arranged at the bottom of the tank body and extends towards the top of the tank body; the first stirring device and the second stirring device are arranged in the tank body in a stacking manner along the height direction of the tank body; one end of the second stirring device is rotatably connected with one end of the first stirring device; the first stirring device and the second stirring device rotate in opposite directions; the first stirring device comprises a first stirring paddle which is obliquely arranged; the second stirring device comprises a second stirring paddle which is obliquely arranged; the turbulent flow generated by the first stirring paddle is mixed with the turbulent flow generated by the second stirring paddle and circularly flows in the tank body.

According to the arrangement, the first stirring paddle and the second stirring paddle stir the materials in opposite directions; the tangential fluid motion generated by the first stirring device and the tangential fluid motion generated by the second stirring device are mutually offset; the materials in the tank body are not rotated; the materials are mixed more uniformly in the tank body; meanwhile, the first stirring device and the second stirring device are arranged in an up-down stacking mode, and the axial fluid motion generated by the first stirring paddle is overlapped with the axial fluid motion generated by the second stirring paddle in the motion direction; the axial motion fluid generated by the driving of the first stirring paddle and the axial motion fluid generated by the driving of the second stirring paddle are fully mixed in the tank body; simultaneously, the axial force generated by the first stirring paddle and the axial force generated by the second stirring paddle generate a superposition effect; further driving the material to flow.

Further, the first stirring device comprises a first stirring drive and a first stirring shaft; the first stirring drive is arranged at the top of the tank body and connected with the first stirring shaft, and the first stirring drive drives the first stirring shaft to rotate; the first stirring paddle is formed by extending outwards on the surface of the first stirring shaft.

According to the arrangement, the first stirring shaft is driven to rotate by the first stirring drive; the structure is simple.

Further, the first stirring shaft is a hollow shaft; the first stirring shaft is provided with a mounting hole; the second stirring device comprises a second stirring drive and a second stirring shaft; the second stirring drive is arranged at the bottom of the tank body and is connected with one end of the second stirring shaft; the other end of the second stirring shaft extends into the mounting hole; the second stirring drive drives the second stirring shaft to rotate along the opposite rotation direction of the first stirring shaft; the second stirring paddle is formed by extending outwards on the surface of the second stirring shaft.

In the arrangement, the second stirring shaft is driven to rotate by the second stirring drive; the structure is simple; meanwhile, one end of the second stirring shaft extends into the first stirring shaft; the second stirring shaft is rotatably connected with the first stirring shaft; therefore, the rotation directions of the first stirring shaft and the second stirring shaft cannot interfere with each other; when the first stirring shaft rotates clockwise, the second stirring shaft rotates anticlockwise; when the first stirring shaft rotates anticlockwise, the first stirring shaft rotates clockwise.

Furthermore, more than two groups of first stirring paddles are arranged; each set of first paddles has two blades. Thus improving the stirring effect.

Further, the agitator tank includes a heating assembly; the heating component is arranged close to the bottom of the tank body; the heating assembly comprises more than two heating devices, and the more than two heating devices are arranged on one side of the tank body at intervals; one end of the heating device is connected with the inner wall surface of the tank body; the other end of the heating component extends to the middle part of the tank body; more than two heating devices are gradually close to each other along the length direction of the heating devices.

According to the arrangement, the heating assembly is used for heating the material; mixing the materials in the heating process; the mixing effect is further improved; if the liquid level of the materials in the tank body is too high during stirring, the tank body can shake due to inertia after the materials are stirred, so that a certain distance is reserved between the added materials in the tank body and the top of the tank body; the heating component is arranged close to the bottom of the tank body; the material is heated more uniformly; heating the material to boil to generate bubbles; the material rises along with the bubbles and is attached to the top of the tank body; the heating component is arranged close to the bottom of the tank body, so that the situation that the attached material is burnt due to the temperature rise of the tank body after the water in the bubbles at the top of the side of the tank body is evaporated can be prevented.

Furthermore, more than two groups of raised structures surrounding the first stirring device are arranged on the inner wall surface of the tank body; the convex structure extends towards the middle part of the tank body; the group of the convex structures comprises more than two convex pieces; more than two protruding pieces are arranged at intervals along the height direction of the tank body.

In the arrangement, the convex structures are arranged; the material flows in the tank body and contacts with the convex structure to generate turbulence; further promoting the mixing of the materials; the material generates turbulence with the convex structure in the tangential flow direction through the convex structure arranged around the first stirring device; the material generates turbulence with the protruding structure in the axial flow direction through the protruding piece arranged along the height direction of the tank body.

Furthermore, a concave structure is formed at one end of the convex part close to the middle part of the tank body; the concave structure comprises a first cambered surface and a second cambered surface; the first cambered surface is arranged on one side of the protruding part; the second cambered surface is arranged on the other side of the protruding piece.

According to the arrangement, the first cambered surface and the second cambered surface are arranged to guide the material; set up respectively in the both sides of bellying through first cambered surface and second cambered surface, and then the material can both produce the water conservancy diversion effect when clockwise flow or anticlockwise flow.

Drawings

FIG. 1 is a schematic representation of the axial fluid movement of prior art agitators disposed on either side of a tank.

Fig. 2 is a schematic diagram of the present invention.

Fig. 3 is a schematic view of the axial fluid motion of the present invention.

Fig. 4 is a schematic view of the stirring mechanism, the heating assembly and the protruding member of the present invention.

Fig. 5 is a schematic view of the middle protrusion member of the present invention.

Fig. 6 is a top view of the present invention.

Fig. 7 is a schematic view of the feeding opening of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 2-7; a surface treatment agent stirring tank comprises a tank body 1, a stirring mechanism and a heating assembly 2; the stirring mechanism and the heating component 2 are arranged in the tank body 1; the stirring mechanism is used for stirring the materials; the heating assembly 2 is used for heating the materials.

A cover plate is arranged at the top of the tank body 1; the cover plate comprises a fixed cover plate 11 and a movable cover plate 12; the fixed cover plate 11 is positioned at one side of the tank body 1, and the movable cover plate 12 is positioned at the other side of the tank body 1; the movable cover plate 12 is hinged with the fixed cover plate 11; a feeding port 13 is formed between the movable cover plate 12 and the tank body 1; the feeding port 13 is used for adding materials.

The stirring mechanism comprises a first stirring device 21 and a second stirring device 22, and the first stirring device 21 is arranged at the top of the tank body 1 and extends towards the bottom of the tank body 1; the second stirring device 22 is arranged at the bottom of the tank body 1 and extends towards the top of the tank body 1; the first stirring device 21 and the second stirring device 22 are arranged in a stacking manner in the tank body 1 along the height direction of the tank body 1; one end of the second stirring device 22 is rotatably connected to one end of the first stirring device 21.

The first stirring device 21 includes a first stirring drive 211 and a first stirring shaft 212; the first stirring driver 211 is installed on the fixed cover plate 11; the first stirring shaft 212 is positioned in the tank body 1 and penetrates through the fixed cover plate 11 to be connected with the output end of the first stirring driver 211. The first stirring driver 211 drives the first stirring shaft 212 to rotate; more than two groups of first stirring paddles 213 obliquely arranged extend outwards from the surface of the first stirring shaft 212. In this embodiment, two sets of the first stirring paddles 213 are provided; each set of first paddles 213 has two blades 214. The two blades are inclined in opposite directions. Thus improving the stirring effect. The first stirring shaft 212 is driven to rotate by the first stirring driver 211; the structure is simple.

The first stirring shaft 212 is a hollow shaft; the first stirring shaft 212 is formed with a mounting hole (not shown in the drawings); the second stirring device 22 comprises a second stirring driver 221 and a second stirring shaft 222; the second stirring driver 221 is installed at the bottom of the tank 1 and connected with one end of the second stirring shaft 222; the other end of the second stirring shaft 222 extends into the mounting hole; the second stirring driver 221 drives the second stirring shaft 222 to rotate along the opposite rotation direction of the first stirring shaft 212; more than one set of second stirring paddles 223 obliquely arranged are formed on the surface of the second stirring shaft 222 in an outward extending manner. The second paddle 223 is identical in structure to the first paddle 213. The second stirring shaft 222 is driven to rotate by the second stirring driver 221; the structure is simple; meanwhile, one end of the second stirring shaft 222 extends into the first stirring shaft 212; the second stirring shaft 222 is rotatably connected with the first stirring shaft 212; so that the rotation directions of the first stirring shaft 212 and the second stirring shaft 222 do not interfere with each other; when the first stirring shaft 212 rotates clockwise, the second stirring shaft 222 rotates counterclockwise; when the first agitating shaft 212 rotates counterclockwise, the first agitating shaft 212 rotates clockwise.

The turbulent flow generated by the first stirring paddle 213 is mixed with the turbulent flow generated by the second stirring paddle 223 and circulates in the tank 1. The first stirring paddle 213 and the second stirring paddle 223 stir the materials in opposite directions; as shown with reference to FIG. 4; the first stirring paddle 213 drives the material to rotate clockwise along the direction A; the second stirring paddle 223 drives the material to rotate anticlockwise in the direction B; the tangential fluid motion generated by the first stirring device 21 and the tangential fluid motion generated by the second stirring device 22 are mutually offset; the materials in the tank body 1 do not rotate; the materials are mixed more uniformly in the tank body 1; meanwhile, the first stirring device 21 and the second stirring device 22 are arranged in an up-and-down stacking mode, and the movement directions of the axial fluid movement generated by the first stirring paddle and the axial fluid movement generated by the second stirring paddle are overlapped; the axial motion fluid driven by the first stirring paddle and the axial motion fluid driven by the second stirring paddle are fully mixed in the tank body 1; simultaneously, the axial force generated by the first stirring paddle and the axial force generated by the second stirring paddle generate a superposition effect; further driving the material to flow.

The heating component 2 is arranged close to the bottom of the tank body 1; the heating assembly 2 comprises more than two heating devices 21, and the more than two heating devices 21 are arranged at one side of the tank body 1 at intervals; in the present embodiment, three heating devices 21 are provided. The heating device 21 is an electric heating tube. One end of the heating device 21 is connected with the inner wall surface of the tank body 1; the other end of the heating component 2 extends to the middle part of the tank body 1; the two or more heating means 21 are gradually brought closer along the length of the heating means 21. Heating the material by the heating component 2; mixing the materials in the heating process; the mixing effect is further improved; if the liquid level of the materials in the tank body 1 is too high during stirring, the tank body 1 can rock due to inertia after the materials are stirred, so that a certain distance is reserved between the added materials in the tank body 1 and the top of the tank body 1; the heating component 2 is arranged close to the bottom of the tank body 1; the material is heated more uniformly; heating the material to boil to generate bubbles; the material rises along with the bubbles and is attached to the top of the tank body 1; the heating component 2 is arranged close to the bottom of the tank body 1, so that the situation that the attached material is burnt due to the temperature rise of the tank body 1 caused by the temperature rise of the tank body 1 after the bubble moisture at the top of the side of the tank body 1 is evaporated can be prevented.

More than two groups of convex structures arranged around the first stirring device are arranged on the inner wall surface of the tank body 1; the convex structure extends towards the middle part of the tank body 1; a set of raised structures comprises more than two raised elements 14; two or more projections 14 are provided at intervals in the height direction of the can body 1. By arranging the convex structure; the material also generates turbulence when flowing in the tank body 1 and contacting with the convex structure; further promoting the mixing of the materials; by means of the raised structure arranged around the first stirring device 21, the material generates turbulence with the raised structure in the tangential flow direction; by means of the projections 14 arranged in the height direction of the can body 1, the material is turbulent in the axial flow direction with the projection arrangement.

One end of the convex part 14 close to the middle part of the tank body 1 forms a concave structure; the concave structure comprises a first cambered surface and a second cambered surface; the first cambered surface is arranged on one side of the convex part 14; the second arc is provided on the other side of the projecting member 14. The first cambered surface and the second cambered surface are arranged to play a role in guiding the material; set up respectively in the both sides of bellying 14 through first cambered surface and second cambered surface, and then the material can both produce the water conservancy diversion effect when clockwise flow or anticlockwise flow. Referring to fig. 5, the first arc surface generates a flow guiding effect on the clockwise rotating material, and the material is close to the stirring mechanism along the length direction of the first arc surface; the second cambered surface produces the water conservancy diversion effect to anticlockwise pivoted material, and the material is close to rabbling mechanism along the length direction of second cambered surface. Further creating turbulence enhancing mixing effects. In this embodiment, the material is a liquid material, specifically a surface treatment agent.

Claims (7)

1. The utility model provides a surface treatment agent agitator tank, includes a jar body, at the internal first agitating unit and the second agitating unit of being equipped with of jar, its characterized in that: the first stirring device is arranged at the top of the tank body and extends towards the bottom of the tank body; the second stirring device is arranged at the bottom of the tank body and extends towards the top of the tank body; the first stirring device and the second stirring device are arranged in the tank body in a stacking manner along the height direction of the tank body; one end of the second stirring device is rotatably connected with one end of the first stirring device; the first stirring device and the second stirring device rotate in opposite directions; the first stirring device comprises a first stirring paddle which is obliquely arranged; the second stirring device comprises a second stirring paddle which is obliquely arranged; the turbulent flow generated by the first stirring paddle is mixed with the turbulent flow generated by the second stirring paddle and circularly flows in the tank body.

2. The surface-treating-agent agitation tank according to claim 1, wherein: the first stirring device comprises a first stirring drive and a first stirring shaft; the first stirring drive is arranged at the top of the tank body and connected with the first stirring shaft, and the first stirring drive drives the first stirring shaft to rotate; the first stirring paddle is formed by extending outwards on the surface of the first stirring shaft.

3. A surface-treating-agent agitation tank according to claim 2, wherein: the first stirring shaft is a hollow shaft; the first stirring shaft is provided with a mounting hole; the second stirring device comprises a second stirring drive and a second stirring shaft; the second stirring drive is arranged at the bottom of the tank body and is connected with one end of the second stirring shaft; the other end of the second stirring shaft extends into the mounting hole; the second stirring shaft is rotatably connected with the first stirring shaft; the second stirring drive drives the second stirring shaft to rotate along the opposite rotation direction of the first stirring shaft; the second stirring paddle is formed by extending outwards on the surface of the second stirring shaft.

4. The surface-treating-agent agitation tank according to claim 1, wherein: more than two groups of first stirring paddles are arranged; each set of first paddles has two blades.

5. The surface-treating-agent agitation tank according to claim 1, wherein: the stirring tank comprises a heating component; the heating component is arranged close to the bottom of the tank body; the heating assembly comprises more than two heating devices, and the more than two heating devices are arranged on one side of the tank body at intervals; one end of the heating device is connected with the inner wall surface of the tank body; the other end of the heating component extends from the middle part of the tank body; more than two heating devices are gradually close to each other along the length direction of the heating devices.

6. The surface-treating-agent agitation tank according to claim 1, wherein: more than two groups of convex structures arranged around the first stirring device are arranged on the inner wall surface of the tank body; the convex structure extends towards the middle part of the tank body; the group of the convex structures comprises more than two convex pieces; more than two protruding pieces are arranged at intervals along the height direction of the tank body.

7. The surface-treating-agent agitation tank according to claim 6, wherein: one end of the convex part close to the middle part of the tank body forms a concave structure; the concave structure comprises a first cambered surface and a second cambered surface; the first cambered surface is arranged on one side of the protruding part; the second cambered surface is arranged on the other side of the protruding piece.

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