CN210159471U - Material mixing system - Google Patents

Abstract

The utility model discloses a compounding system, including the compounding container, the both sides of compounding container are equipped with first material filling pipeline and second material filling pipeline respectively, the bottom of compounding container is equipped with circulating line, circulating line respectively with first material filling pipeline reaches second material filling pipeline intercommunication and then form the side direction of compounding container forms two way circulations, through two way circulations drive material in the compounding container is rotatory. The utility model provides a compounding system, its structure is simple and clear, and full-automatic and practice thrift the electric energy, unmanned operation can be according to several materials, at different planes, different tangent line angles, annotates, and application scope is wide.

Description

Material mixing system

Technical Field

The utility model relates to a novel compounding system.

Background

In the chemical production process, various liquid materials are mixed, and a stirring device is needed or the materials can be uniformly mixed only through long-time self-circulation. In some production processes, due to equipment construction or special requirements, a stirring system cannot be added in a container, or self circulation is realized, so that materials cannot be fully mixed when the materials are filled.

Some existing equipment cannot be added with a stirring system due to special structure or limited space, or the material properties are changed due to long-time self-circulation of the material, and energy is wasted.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the utility model is to overcome the not enough among the prior art, provide a compounding system.

In order to achieve the purpose, the method is realized by the following technical scheme:

the utility model provides a compounding system, includes the compounding container, the both sides of compounding container are equipped with first material filling pipeline and second material filling pipeline respectively, the bottom of compounding container is equipped with the circulating line, the circulating line respectively with first material filling pipeline reaches second material filling pipeline intercommunication and then form the side direction of compounding container forms two way circulations, through two way circulations drive the material in the compounding container is rotatory.

Preferably, the first material filling pipe and the second material filling pipe respectively lead to the interior of the mixing container along the tangential direction of the outer wall of the mixing container.

Preferably, a circulating pipeline valve is arranged on the circulating pipeline.

Preferably, a plurality of thermometers are uniformly distributed at different positions of the mixing container to detect whether the temperature of the material in the mixing container is uniform or not.

Preferably, a vacuum filter is arranged on the mixing container and communicated with the interior of the mixing container, the vacuum filter is communicated with a filtering pipeline, and the circulating pipeline is communicated with the filtering pipeline to further form vacuum filtering circulation.

Preferably, the first material filling pipeline and the second material filling pipeline are provided with meters, and the meters are provided with volume scales.

The utility model discloses compounding system's beneficial effect includes:

1) two material filling pipelines are respectively arranged on two sides of the mixing container, so that materials are injected at tangential angles on two sides of the container, and the materials in the container are driven by the inertia of the materials to play a role of physical stirring;

2) three thermometers are arranged on the mixing container, and whether the material temperature is uniform or not can be confirmed;

3) the vacuum filter is additionally arranged, so that the function of filtering circulation can be further formed in the mixing container;

4) the meters are respectively arranged on the two filling pipelines, and the supply amount of the materials can be accurately determined according to the indicating lines with scales on the meters.

Drawings

Fig. 1 is the overall structure schematic diagram of the first embodiment in the mixing system of the present invention.

FIG. 2 is a cross-sectional view of the embodiment of FIG. 1 after filling with material.

Fig. 3 is a schematic view of the overall structure of the second embodiment of the mixing system of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

the first embodiment is as follows:

as shown in fig. 1, a mixing system comprises a mixing container 1, wherein a first material filling pipeline 2 and a second material filling pipeline 3 are respectively arranged on two sides of the mixing container 1, a circulating pipeline 4 is arranged at the bottom of the mixing container 1, the circulating pipeline 4 is respectively communicated with the first material filling pipeline 2 and the second material filling pipeline 3 to form two paths of circulation in the lateral direction of the mixing container 1, and the two paths of circulation drive materials in the mixing container 1 to rotate automatically along the axial direction of the container.

Wherein, a circulating pipeline valve 5 is arranged on the circulating pipeline 4. Meanwhile, three thermometers 6 are uniformly distributed at different positions (three problems of upper left side, lower right side and lower left side) of the mixing container 1 so as to detect whether the temperature of the material in the mixing container 1 is uniform or not.

It is emphasized that, as shown in fig. 1 and fig. 2, the mixing container 1 is preferably cylindrical, and the first material filling pipe 2 and the second material filling pipe 3 respectively open into the mixing container 1 along a tangential direction of an outer wall of the mixing container 1. Therefore, when materials are filled, the self-circulation is started, the materials are filled into the container 1 at tangential angles on two sides of the container, and the materials in the container 1 are driven by the inertia of the materials to play a role in physical stirring. When no material is injected, the operation can be carried out through double self-circulation, and the self-circulation time can be controlled through DCS.

Example two:

on the basis of the first embodiment, the present embodiment proposes further structural improvements, which are different from the first embodiment in that:

as shown in fig. 3, a vacuum filter 7 is arranged on the mixing container 1, the vacuum filter 7 is communicated with the interior of the mixing container 1, the vacuum filter 7 is communicated with a filtering pipeline 8, and the circulating pipeline 4 is communicated with the filtering pipeline 8 to form a vacuum filtering cycle. Thereby, a further function of the filtration cycle can be formed in the mixing container 1.

In addition, the first material filling pipeline 2 and the second material filling pipeline 3 are provided with meters 9, and the meters 9 are provided with volume scales. Thus, the amount of material supplied can be accurately determined from the graduated indicator line on the scale 9.

Other structures are basically the same as those of the first embodiment, and are described in more detail herein.

The utility model provides a mixing system, its structure is simple and clear, full-automatic and save the electric energy, unmanned operation; the filling can be carried out according to a plurality of materials on different planes and different tangent angles, and the application range is wide.

The embodiments of the present invention are only used for illustration, and do not limit the scope of the claims, and other substantially equivalent alternatives that may be conceived by those skilled in the art are within the scope of the present invention.

Claims (6)

1. The utility model provides a compounding system, its characterized in that includes the compounding container, the both sides of compounding container are equipped with first material filling pipeline and second material filling pipeline respectively, the bottom of compounding container is equipped with the circulating line, the circulating line respectively with first material filling pipeline reaches second material filling pipeline intercommunication and then form the side direction of compounding container forms two way circulations, through two way circulations drive the material in the compounding container is rotatory.

2. The compounding system of claim 1, wherein said first material filling conduit and said second material filling conduit each open into an interior of said compounding container in a tangential direction to an outer wall of said compounding container.

3. The mixing system of claim 2, wherein the circulation conduit is provided with a circulation conduit valve.

4. The mixing system according to claim 3, wherein a plurality of thermometers are uniformly arranged at different positions of the mixing container for detecting whether the temperature of the material in the mixing container is uniform.

5. The mixing system according to claim 1, wherein a vacuum filter is disposed on the mixing container, the vacuum filter is communicated with the interior of the mixing container, the vacuum filter is communicated with a filtering pipeline, and the circulating pipeline is communicated with the filtering pipeline to form a vacuum filtering cycle.

6. The mixing system of claim 1, wherein the first and second material filling lines are provided with gauges having volumetric scales.

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