KR102296313B1 - Apparatus for dispersing slurry of internal circulation type - Google Patents

Abstract

The present invention relates to an internal circulation type slurry dispersing device, comprising a stirring tank part, a stirring part, and a driving part. The stirring tank part comprises a mixing container and a reflux container. An upper part of the mixing container is in connection with a lower part of the reflux container. A lower part of the mixing container is in connection with the lower part of the reflux container through the stirring part. According to the present invention, the lower part of the mixing container is in connection with the lower part of the reflux container through the stirring part, and after stirring, a raw material passes through the reflux container and enters the mixing container again to be sufficiently mixed, thereby increasing mixing uniformity.

Description

Apparatus for dispersing slurry of internal circulation type

The present invention relates to a circulation-resistant slurry dispersing device, and more particularly, a high-speed blade-type dispersing device and a dispersion method for dispersing through internal circulation to produce a high-efficiency, uniformly dispersed slurry from low to high viscosity within a short time. It's about the device.

A conventional slurry dispersing apparatus is an apparatus for preparing a slurry by mixing a powder raw material and a liquid raw material, and there are conventional slurry mixers and dispersing apparatuses having various types. As a method of crushing and dispersing raw materials and liquids at high speed, it is a method of pulverizing and mixing two or more kinds of raw materials with a dispersing blade rotating at high speed in a container, and circulating and dispersing and mixing the slurry using a circulation device as necessary. .

However, this high-speed rotation method of the dispersing blades has disadvantages in that it is difficult to achieve uniform mixing within a short time, it is not easy to completely disperse the powdered raw material in the liquid, and the dispersion time is very long. Also, it may cause a problem in that the object to be dispersed is contaminated by the wear of the dispersing blade due to friction between the medium to be dispersed and the dispersing blade. In addition to the method using the dispersing blade, there are various types of devices for manufacturing slurry using ceramic, glass, or metal beads as a dispersing medium. Precise sealing devices are added to prevent it from happening, and the price is high, and after the dispersion process, the equipment must be dismantled and the beads and the inside must be cleaned, and there are operational inconveniences.

In addition, in the case of a conventional slurry dispersing device circulating in a single container, the slurry that has passed through the dispersing device is continuously mixed with the slurry that has not yet gone through the dispersing device, so that all the slurries to be dispersed pass through the dispersing device to achieve uniform dispersion. There is a problem that the dispersion time is long because it takes a lot of time to dry. A high-performance circulation pump is essential to smoothly transport the slurry of

An object of the present invention to solve the above problems is an anti-circulation type slurry dispersing device that has a simple structure in an internal circulation method using a blade-type dispersion device, and can dramatically increase the slurry productivity with a high mixing uniformity within a short time. is to provide

The internal circulation type slurry dispersing device of the present invention for achieving the above object is a device composed of an internal mixing vessel, an external reflux vessel, and a high-speed rotating blade-type mixing and dispersing unit in the lower portion of the two vessels, the lower end of the inner mixing vessel and the outer The lower end of the reflux vessel has a structure connected by a dispersing device, and the raw material mixture introduced into the inner circulating vessel is introduced into the external reflux vessel through a high-speed rotating dispersing device installed at the lower end, and the slurry introduced into the external reflux vessel is transferred to the external reflux vessel. It is composed of a structure that performs continuous grinding and dispersion through internal circulation by flowing back into the mixing vessel through the upper part of the

As described above, according to the internal circulation type slurry dispersing device of the present invention, the lower part of the mixing container is connected to the lower part of the reflux container through the stirring device part, and the process of the raw material passing through the reflux container and entering the mixing container again after stirring is repeated. Sufficient mixing and uniform dispersion can be achieved at a high speed.

In addition, according to the circulation resistant slurry dispersing device of the present invention, it is an internal circulation method using the discharge power of gravity and the blade type dispersing device, and since a circulation pump for forced circulation is not used, the device can be simplified and high viscosity dispersion is possible, and the separated The effect of full pass dispersion can be secured by internal circulation between containers.

In addition, according to the circulation-resistant slurry dispersing device of the present invention, by using a blade-type disperser rotating at a high speed, it is possible to maximize the effect of dispersion and pulverization very efficiently even with a simple structure that occupies a minimum space.

1 is a cross-sectional view of an anti-circulation type slurry dispersion device according to the present invention.
FIG. 2 is an enlarged view of position A' of FIG. 1 .
3 is a partial structural cross-sectional view of an anti-circulation type slurry dispersing device according to the present invention.
4 is a structural diagram of the dispersion ring of the internal circulation type slurry dispersing device according to the present invention.
5 is a structural diagram of the dispersion derivative of the internal circulation type slurry dispersing device according to the present invention.
6 is a structural diagram of an impeller of an anti-circulation type slurry dispersing device according to the present invention.
7 is another impeller structural diagram of the internal circulation type slurry dispersion device according to the present invention.
8 is another impeller structural diagram of the internal circulation type slurry dispersion device according to the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

Then, a preferred embodiment of the internal circulation type slurry dispersing device according to the present invention will be described in detail.

1 is a cross-sectional view of a circulation-resistant slurry dispersing apparatus according to the present invention, FIG. 2 is an enlarged view of the position A' of FIG. 1, and FIG. 3 is a partial structural cross-sectional view of a circulation-resistant slurry dispersion apparatus according to the present invention, FIG. 4 is a structural diagram of a dispersion ring of the internal circulation type slurry dispersing device according to the present invention, FIG. 5 is a dispersion derivative structure diagram of the internal circulation type slurry dispersing device according to the present invention, and FIG. 6 is an internal circulation type slurry dispersing device according to the present invention. is a structural diagram of the impeller, FIG. 7 is a structural diagram of another impeller of the internal circulation type slurry dispersing device according to the present invention, and FIG. 8 is another impeller structural diagram of the internal circulation type slurry dispersing device according to the present invention

1 to 8 , the internal circulation type slurry dispersing apparatus according to the present invention is configured to include a tank for stirring (1), a stirring unit (A), and a driving unit (2).

It includes a mixing vessel (3) and a reflux vessel (4) installed inside the stirring tank (1).

The upper portion of the mixing vessel (3) is connected to the upper portion of the reflux vessel (4), and the lower portion of the mixing vessel (3) is connected to the lower portion of the reflux vessel (4) through the stirring unit (A).

To explain the principle of operation of the present invention, the raw materials are stirred and mixed in the mixing vessel (3), and the initially mixed raw materials pass through the stirring unit (A) at the bottom of the mixing vessel (3) and enter the reflux vessel (4). Then, it passes through the raw material discharge end of the reflux vessel (4) and enters the mixing vessel (3) to be mixed again. That is, the lower portion of the mixing vessel 3 is connected to the lower portion of the reflux vessel 4 through the stirring unit 20, and after stirring, the raw material passes through the reflux vessel 4 and enters the mixing vessel 3 again and is sufficiently mixed. The mixing uniformity is increased.

The stirring unit (A) includes a dispersion derivative (5) and a dispersion wheel (Disperse Wheel) (6).

One side of the dispersion derivative (5) is connected to the raw material outlet end of the mixing vessel (3), and the other side of the dispersion derivative (5) is connected to the raw material inlet end of the reflux vessel (4).

On the other hand, the dispersion derivative (5) includes a hopper (51) and a derivative (52), the hopper (51) is connected to the mixing vessel (3), and the dispersion ring (6) is installed in the derivative (52) .

Here, the hopper 51 can easily collect the raw material in the mixing vessel 3, and the raw material passes through the derivative 52 and is sufficiently mixed in the dispersion ring 6 to increase the mixing uniformity.

In addition, a guide hole 53 is formed in the lower portion of the dispersion derivative 5 , and the guide hole 53 is installed to face the raw material inlet end of the reflux vessel 4 . Here, the guide hole 53 can prevent the raw material that is not sufficiently mixed to prevent the aggregated raw material from entering the reflux container 4 .

In addition, the dispersion wheel 6 includes a turbine blade 61 , a spiral blade 62 , a central shaft 63 , and an outer ring 64 , and a turbine blade 61 on the side wall of the central shaft 63 . is formed, the spiral blade 62 is inclinedly formed in the outer ring 64 , and the guide hole 53 is installed between the turbine blade 61 and the spiral blade 62 .

Here, since the guide hole 53 is provided between the turbine blade 61 and the spiral blade 62 , the spiral blade 62 can scrape off the raw material remaining around the guide hole 53 .

The dispersion ring 6 includes a thread groove 65 , the thread groove 65 is formed in an outer ring 64 . Here, as the dispersing ring 6 rotates, the threaded groove 65 in the outer ring 64 guides the raw material at the lower part to the upper part, and the raw material enters the reflux container 4 again and is mixed.

In addition, it includes a support portion 7 for supporting the stirring portion (A), the support portion (7) is provided with an outlet valve (8), the outlet valve (8) is installed close to the induction hole (53) do.

Here, the outlet valve 8 is installed close to the induction hole 53 so that the raw material can be easily discharged through the outlet valve 8 after the raw material is well mixed.

In addition, an impeller 9, a cutting wheel 10, and a dispersing wheel 6 are installed above and below the dispersion inductor 5, respectively. Here, the raw material in the mixing container is accelerated, pulverized and sprayed while passing sequentially through the impeller 9, the cutting wheel 10, and the dispersing wheel 6, so that it is advantageous to be mixed well in the next step.

In addition, the liquid raw material inlet 11 and the powder raw material inlet 12 are attached to the upper end of the stirring tank unit 1 . In this case, the raw material may be added at any time through the liquid raw material inlet 11 and the powder raw material inlet 12 .

In some cases, by installing a separate agitator in the internal circulation container, when solids with high specific gravity are included in the slurry, it is possible to perform a smoother dispersion operation by suspending solids with high specific gravity through stirring before the slurry flows into the dispersing blade. can make it happen

In addition, by installing a jacket on the outer wall of the external reflux container to circulate the refrigerant, the temperature rise of the slurry due to heat generated in the dispersion process can be controlled or the slurry can be cooled by introducing a coil-type cooling line into the internal circulation container. Both methods may be applied simultaneously.

Example

1 to 8 , the internal circulation type slurry dispersing apparatus according to an embodiment of the present invention is configured to include a stirring tank unit 1, a stirring unit A, and a driving unit 2, and the stirring tank unit (1) Includes a mixing vessel (3) and a reflux vessel (4) installed inside.

The upper portion of the mixing vessel (3) is connected to the upper portion of the reflux vessel (4), and the lower portion of the mixing vessel (3) is connected to the lower portion of the reflux vessel (4) through the stirring unit (A). The driving unit 2 is driven by an electric motor.

The stirring unit (A) includes a dispersion derivative (5) and a dispersion ring (6). One side of the dispersion derivative (5) is connected to the raw material outlet end of the mixing vessel (3), and the other side of the dispersion derivative (5) is connected to the raw material inlet end of the reflux vessel (4). The dispersing ring 6 is installed in the dispersing inductor 5 .

The dispersion derivative (5) includes a hopper (51) and a derivative (52), the hopper (51) is connected to the mixing vessel (3), and the dispersion wheel (6) is installed in the inductor (52).

The dispersion inductor (5) includes a guide hole (53), the guide hole (53) is installed facing the raw material inlet end of the reflux vessel (4).

The dispersing wheel 6 includes a turbine blade 61 , a spiral blade 62 , a central shaft 63 , and an outer ring 64 , and a turbine blade 61 is formed on a sidewall of the central shaft 63 . and the spiral blade 62 is formed in the outer ring 64 to be inclined, and the guide hole 53 is installed between the turbine blade 61 and the spiral blade 62 .

In addition, the dispersion ring 6 includes a thread groove 65 , the thread groove 65 is installed in the outer ring 64 . Here, the dispersion ring 6 has a hollow type structure.

and a support part (7) for supporting the stirring part (A), the support part (7) having an outlet valve (8), and the outlet valve (8) is installed adjacent to the induction hole (53). Here, a sealing for preventing the leakage of raw materials is installed on the support 7 , and the sealing is installed under the dispersing ring 6 .

The central shaft 63 is connected through an outer ring 64 and a connecting arm, and the turbine blade 61 and the spiral blade 62 are formed in plurality, and there is a gap between the two connecting arms adjacent to each other. there is this

On the other hand, the raw material enters the dispersion derivative (5) through the mixing vessel (3), and a part of the raw material enters the reflux vessel (4) directly through the induction hole (53). Another part is discharged to the lower outlet valve (8) according to the gap between two adjacent connecting arms. The threaded groove 65 installed in the outer ring 64 guides the raw material with the outlet valve 8 to enter the inner circulation of the raw material again and mix.

An impeller 9, a cutting wheel 10, and a dispersing wheel 6 are installed above and below the dispersion inductor 5, respectively.

In addition, a liquid raw material inlet 11 and a powder raw material inlet 12 are installed at the upper end of the stirring tank unit 1 , and a cooling jacket is installed in the stirring tank unit 1 . Here, the refrigerant circulates in the cooling jacket to cool when heat is generated.

A baffle 13, a liquid level sensor 14, a lighting lamp, an observation sphere, and a camera 15 are installed on the upper portion of the stirring tank 1 . The reflux plate 13 may be in proximity to the raw material outlet of the reflux vessel 4 to induce flow of the raw material to the center of the mixing vessel.

The operating principle of the internal circulation type slurry dispersing device according to this embodiment is described in detail, the raw materials are mixed in the mixing vessel 3 , and the mixed raw materials are again passed through the induction hole 53 and the outlet valve 8 to the reflux vessel. (4) is introduced. Next, the raw material comes out of the raw material outlet of the reflux container (4) and flows into the mixing container (3) to be mixed again.

According to the internal circulation type slurry dispersing device of the present invention, the lower part of the mixing container is connected to the lower part of the reflux container through the stirring device parts, and after mixing, the raw material passes through the reflux container and enters the mixing container again to sufficiently mix to increase the mixing uniformity.

What has been described above is only an embodiment for explaining the circulation resistant slurry dispersing device according to the present invention, and the present invention is not limited to the above embodiment, and the following claims deviate from the gist of the present invention. Without this, anyone with ordinary knowledge in the field to which the invention pertains will say that the technical spirit of the present invention exists to the extent that various modifications can be made.

1: agitation tank part 2: drive part
3: Mixing vessel 4: Reflux vessel
5: Dispersion derivative 6: Dispersion ring
7: Support 8: Outlet valve
9: impeller 10: cutting wheel
11: liquid raw material inlet 12: powder raw material inlet
13: reflux plate 14: liquid level sensor
15: camera 20: stirring unit
51: hopper 52: derivative
53: guide hole 61: turbine blade
62: spiral blade 63: central axis
64: outer ring 65: thread groove
A: Stirring part

Claims (11)

In the circulation-resistant slurry dispersing apparatus comprising a tank for stirring, a stirring unit and a driving unit,
The stirring tank unit includes a mixing vessel and a reflux vessel,
The upper portion of the mixing vessel is connected to the upper portion of the reflux vessel,
The lower portion of the mixing vessel is connected to the lower portion of the reflux vessel through the stirring unit,
The stirring unit includes a dispersion derivative and a dispersion ring,
One side of the dispersion derivative is connected to the raw material outlet end of the mixing vessel,
The other side of the dispersion derivative is connected to the raw material inlet end of the reflux vessel,
The dispersion ring is installed in the dispersion derivative,
An induction hole is formed in the lower part of the dispersion derivative,
The induction hole is an internal circulation type slurry dispersion device, characterized in that it is installed facing the raw material inlet end of the reflux vessel. According to claim 1,
The raw materials are stirred and mixed in the mixing vessel, and the initially mixed raw materials pass through the stirring unit at the bottom of the mixing vessel and enter the reflux vessel, pass through the raw material discharge end of the reflux vessel, enter the mixing vessel, and mix again. Circulation resistant slurry dispersing device. delete According to claim 1,
The dispersion derivative includes a hopper and a derivative,
The hopper is an internal circulation type slurry dispersion device, characterized in that connected to the mixing vessel. delete According to claim 1,
The dispersion ring includes a thread groove for guiding the raw material upward,
The spiral groove is an internal circulation type slurry dispersion device, characterized in that formed in the outer ring. 7. The method of claim 6,
The dispersion wheel further comprises a turbine blade, a spiral blade, a central shaft, and an outer ring,
A turbine blade is formed on the sidewall of the central axis,
The spiral blade is formed in an inclined outer ring,
Internal circulation type slurry dispersion device, characterized in that the thread groove is formed in the outer ring. According to claim 1,
Further comprising a support for supporting the stirring portion,
The support is equipped with an outlet valve,
the outlet valve is installed proximate to the induction hole,
An anti-circulation type slurry dispersing device, characterized in that a sealing for preventing the leakage of raw materials is installed in the support part. 8. The method of claim 7,
The central axis is connected through an outer ring and a connecting arm,
The turbine blade and the spiral blade are anti-circulation type slurry dispersion device, characterized in that consisting of a plurality. According to claim 1,
An impeller, a cutting wheel, and a dispersing wheel are installed above and below the dispersion derivative to accelerate, pulverize and spray as the raw materials pass sequentially. According to claim 1,
The raw materials are mixed in the mixing vessel, and the mixed raw materials are introduced into the reflux vessel again through the induction hole and the outlet valve, and then the raw materials come out of the raw material outlet of the reflux vessel and are introduced into the mixing vessel to be mixed again. Circulation resistant slurry dispersing device.

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