CN223127777U - Efficient mixing device for mixing low-density materials - Google Patents

Abstract

The utility model discloses a high-efficiency mixing device for mixing low-density materials, comprising a closed mixing chamber, wherein main shafts are arranged at the left and right end positions of the closed mixing chamber, the fixed cover adds lubricating oil to the internal position through a liquid inlet pipe located at the right end position, a hollow shaft is installed at the internal position of the fixed cover, and the hollow shaft is communicated with the liquid inlet pipe, a flow mesh is arranged at the inner side position of the hollow shaft, and a rotatable sponge roller is adjusted at the outer wall position of the hollow shaft. The present invention provides a novel low-density material mixing device, which utilizes a specific stirring blade design, a variable speed drive system and a closed mixing chamber to achieve a high-efficiency and high-quality mixing process, the closed mixing chamber is designed as a sealing structure, and a filtering and dust removal mechanism is arranged inside to prevent material leakage and dust diffusion, while reducing material loss and environmental pollution.

Description

Efficient mixing device for mixing low-density materials

Technical Field

The utility model belongs to the technical field of high-efficiency mixing devices for mixing low-density materials, and particularly relates to a high-efficiency mixing device for mixing low-density materials.

Background

The device for efficiently mixing the low-density materials is usually a stirring barrel or a double-screw stirrer, and the devices can fully and uniformly mix the materials with different densities to ensure the quality of products. Meanwhile, the stirring barrel and the double-screw stirrer also have efficient mixing speed and power, and can meet production requirements.

In industrial production, it is often necessary to uniformly mix low density materials for subsequent processing, however, due to the small specific gravity of these materials, conventional stirring or mixing equipment tends to be difficult to achieve efficient mixing and is prone to significant dust and material loss.

Disclosure of utility model

The present utility model is directed to a high-efficiency mixing device for mixing low-density materials, which solves the problems that in the industrial production, the low-density materials are required to be uniformly mixed for subsequent processing, however, due to the small specific gravity of the materials, the conventional stirring or mixing equipment is difficult to realize effective mixing, and a large amount of dust and material loss are easy to generate.

The high-efficiency mixing device for mixing the low-density materials comprises a closed mixing chamber, wherein a main shaft is arranged at the left end and the right end of the closed mixing chamber, a supporting frame for supporting is arranged at the lower end of the main shaft, a driving device for enabling the device to work is arranged at the left end of the supporting frame, the driving device drives a chain arranged at the inner side to move, the other side of the chain is arranged with the main shaft, a protective cover is arranged at the outer side of the main shaft, and a fixed cover is fixed at the lower end of the protective cover;

The fixed cover adds lubricating oil into the internal position through the liquid inlet pipeline positioned at the right end position, a hollow shaft is arranged at the internal position of the fixed cover and is communicated with the liquid inlet pipeline, circulation meshes are arranged at the internal position of the hollow shaft, and a sponge roller capable of rotating is regulated at the external wall position of the hollow shaft.

Preferably, the closed mixing chamber inputs the material to the inner position through the feed port at the upper end position, and the closed mixing chamber mixes the input material by the stirring blade at the inner position.

Preferably, the feed inlet is in a closed state when the closed mixing chamber is used for mixing, and a filtering and dedusting mechanism is arranged at the inner position of the closed mixing chamber.

Preferably, the closed mixing chamber discharges the mixed material through a discharge port at a lower end position, the discharge port controlling the flow of material through a control handle at a side end position.

Preferably, the driving device transmits power to the main shaft through a chain, and the chain drives the main shaft to rotate.

Preferably, rotation of the spindle causes rotation of the stirring blade, which mixes the materials located at the position inside the closed mixing chamber.

Preferably, the chain passes through the fixed cover when moving, and the chain is attached to the sponge roller at the inner position of the fixed cover.

Preferably, the liquid inlet pipeline enables the lubricating oil to circulate into the inner position of the hollow shaft after the lubricating oil is added.

Preferably, the hollow shaft is impregnated with lubricating oil through the circulation mesh into the sponge roller at an internal location.

Compared with the prior art, the utility model provides a high-efficiency mixing device for mixing low-density materials, which has the following beneficial effects:

1. The invention provides a novel low-density material mixing device, which utilizes a specific stirring blade design, a variable speed driving system and a closed mixing chamber, can realize a high-efficiency and high-quality mixing process, and the closed mixing chamber is designed into a sealing structure, is internally provided with a filtering and dedusting mechanism, prevents material leakage and dust diffusion, and reduces material loss and environmental pollution.

2. For the lubrication effect of increase chain, this device has installed fixed cover, and the chain removes in the inside position department of fixed cover, and the chain laminates with the sponge roller of fixed cover inboard position department simultaneously, and the user adds inside position department with lubricating oil through going into the liquid pipeline, and lubricating oil circulates in going into the liquid pipeline and enters into the inside position department of hollow shaft, and the circulation mesh in the hollow shaft is with lubricating oil infiltration to in the sponge roller, and like this the chain is at the during operation sponge roller with lubricating oil smearing its surface.

Drawings

FIG. 1 is a schematic view of a high efficiency mixing apparatus for mixing low density materials according to the present utility model.

Fig. 2 is a schematic view showing the structure of a stirring blade of a high-efficiency mixing device for mixing low-density materials according to the present utility model.

FIG. 3 is a schematic view showing the internal structure of a liquid-in pipeline of a high-efficiency mixing device for mixing low-density materials according to the present utility model.

The device comprises a closed mixing chamber 1, a feed inlet 2, a main shaft 3, a protective cover 4, a liquid inlet pipeline 5, a fixed cover 6, a chain 7, a driving device 8, a supporting frame 9, a supporting frame 10, a control handle 11, a discharge hole 12, stirring blades 13, a sponge roller 14, a hollow shaft 15 and a circulation mesh.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

The utility model provides a high-efficiency mixing device for mixing low-density materials, which is shown in fig. 1-3, and comprises a closed mixing chamber 1, wherein a main shaft 3 is arranged at the left end position and the right end position of the closed mixing chamber 1, a supporting frame 9 for supporting is arranged at the lower end position of the main shaft 3, a driving device 8 for enabling the device to work is arranged at the left end position of the supporting frame 9, a chain 7 arranged at the inner side position is driven to move by the driving device 8, the other side of the chain 7 is arranged with the main shaft 3, a protective cover 4 is arranged at the outer side position of the main shaft 3, a fixed cover 6 is fixed at the lower end position of the protective cover 4, lubricating oil is added into the inner position of the fixed cover 6 through a liquid inlet pipeline 5 at the right end position, a hollow shaft 14 is arranged at the inner position of the fixed cover 6, meanwhile, the hollow shaft 14 is communicated with the liquid inlet pipeline 5, a circulation mesh 15 is arranged at the inner side position of the hollow shaft 14, and a rotatable sponge roller 13 is regulated at the outer wall position of the hollow shaft 14.

The material to be mixed is added into the inner position of the closed mixing chamber 1 through the feed inlet 2, the driving device 8 is started to work, the driving device 8 transmits power to the main shaft 3 through the chain 7, the main shaft 3 enables the stirring blade 12 to mix and stir the material in the inner part, and the material can be discharged from the discharge hole 11 through the control handle 10 after the stirring is completed.

As shown in fig. 1 and 2, the closed mixing chamber 1 inputs materials into the inner position through the feed inlet 2 at the upper end position, the closed mixing chamber 1 mixes the input materials through the stirring blades 12 at the inner position, the feed inlet 2 is in a closed state when the closed mixing chamber 1 mixes, the inner position of the closed mixing chamber 1 is provided with a filtering and dedusting mechanism, the closed mixing chamber 1 discharges the mixed materials through the discharge outlet 11 at the lower end position, and the discharge outlet 11 controls the circulation of the materials through the control handle 10 at the side end surface position. The driving device 8 transmits power to the main shaft 3 through the chain 7, and the chain 7 drives the main shaft 3 to rotate.

The device utilizes specific stirring vane 12 design, variable speed actuating system and sealed mixing chamber 1, can realize the mixing process of high efficiency and high quality, and sealed mixing chamber 1 designs to seal structure, and inside is equipped with filters and dust removal mechanism, prevents that the material from revealing and dust diffusion, reduces material loss and environmental pollution simultaneously.

As shown in fig. 1 and 3, the rotation of the main shaft 3 rotates the stirring blade 12, the rotation of the stirring blade 12 mixes the materials located at the inner position of the closed mixing chamber 1, the chain 7 passes through the fixed cover 6 when moving, the chain 7 is attached to the sponge roller 13 located at the inner position of the fixed cover 6, the liquid inlet pipeline 5 is enabled to circulate into the inner position of the hollow shaft 14 after adding the lubricating oil, and the hollow shaft 14 is enabled to immerse the lubricating oil into the inner position of the sponge roller 13 through the circulation mesh 15.

The chain 7 moves in the inside position of the fixed cover 6, meanwhile, the chain 7 is attached to the sponge roller 13 at the inside position of the fixed cover 6, a user adds lubricating oil into the inside position through the liquid inlet pipeline 5, the lubricating oil flows into the inside position of the hollow shaft 14 in the liquid inlet pipeline 5, the lubricating oil is permeated into the sponge roller 13 through the circulation mesh 15 in the hollow shaft 14, and thus the sponge roller 13 smears the lubricating oil on the surface of the chain 7 during operation.

It should be noted that the foregoing description is only a preferred embodiment of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it should be understood that modifications, equivalents, improvements and modifications to the technical solution described in the foregoing embodiments may occur to those skilled in the art, and all modifications, equivalents, and improvements are intended to be included within the spirit and principle of the present utility model.

Claims (9)

1. The efficient mixing device for mixing low-density materials is characterized by comprising a closed mixing chamber (1), wherein a main shaft (3) is arranged at the left end position and the right end position of the closed mixing chamber (1), a supporting frame (9) for supporting is arranged at the lower end position of the main shaft (3), a driving device (8) for enabling the device to work is arranged at the left end position of the supporting frame (9), the driving device (8) drives a chain (7) arranged at the inner side position to move, the other side of the chain (7) is arranged with the main shaft (3), a protective cover (4) is arranged at the outer side position of the main shaft (3), and a fixed cover (6) is fixed at the lower end position of the protective cover (4);

The fixed cover (6) adds lubricating oil into the inner position through the liquid inlet pipeline (5) positioned at the right end position, a hollow shaft (14) is arranged at the inner position of the fixed cover (6), meanwhile, the hollow shaft (14) is communicated with the liquid inlet pipeline (5), a circulation mesh (15) is arranged at the inner side position of the hollow shaft (14), and a rotatable sponge roller (13) is regulated at the outer wall position of the hollow shaft (14).

2. An efficient mixing device for mixing low-density materials according to claim 1, characterized in that the closed mixing chamber (1) inputs materials into an internal position through a feed opening (2) at an upper end position, and the closed mixing chamber (1) mixes the input materials through stirring blades (12) at the internal position.

3. An efficient mixing device for mixing low density materials according to claim 2, characterized in that the feed inlet (2) is in a closed state when the closed mixing chamber (1) is mixing, the inner position of the closed mixing chamber (1) being provided with a filtering and dust removing mechanism.

4. An efficient mixing device for mixing low-density materials according to claim 2, characterized in that the closed mixing chamber (1) discharges the mixed materials through a discharge opening (11) at the lower end position, which discharge opening (11) controls the flow of the materials through a control handle (10) at the side end position.

5. A high-efficiency mixing device for mixing low-density materials according to claim 1, characterized in that the driving means (8) transmit power to the main shaft (3) through a chain (7), the chain (7) driving the main shaft (3) to rotate.

6. An efficient mixing device for mixing low density materials as claimed in claim 5, characterized in that rotation of said main shaft (3) causes rotation of a stirring blade (12), said rotation of stirring blade (12) mixing the materials at a position inside the closed mixing chamber (1).

7. An efficient mixing device for mixing low-density materials according to claim 1, characterized in that the chain (7) passes through the stationary cover (6) when moving, the chain (7) being in contact with a sponge roller (13) located at an inner position of the stationary cover (6).

8. A high-efficiency mixing apparatus for low-density materials as claimed in claim 7, wherein said liquid inlet pipe (5) circulates the lubricating oil into the hollow shaft (14) at an internal position thereof after the lubricating oil is added.

9. A high-efficiency mixing device for mixing low-density materials according to claim 8, characterized in that the hollow shaft (14) is impregnated with lubricating oil through a flow-through mesh (15) to an internal location of the sponge roller (13).