CN209736035U - Device for continuously separating particle fine powder - Google Patents

Abstract

The utility model discloses a device of continuous separation granule farine, including shell, a feeding section of thick bamboo, feed inlet, farine discharge gate, pull ring, granule discharge gate, stand, granule collecting vessel, farine collecting vessel, linkage pivot, motor, pillar stand, granule collecting box and farine collecting box. The utility model has the advantages that: the diameter of granule collecting vessel is greater than the farine collecting vessel, the length of granule collecting vessel is less than the farine collecting vessel, and the granule collecting vessel, the farine collecting vessel all welds the inside that sets up in the pivot of linkage and the farine collecting vessel is located the granule collecting vessel, prevent probably leading to the mixture of raw materials because the vibrations of machine at the in-process of screening, the shape size of granule collecting vessel and farine collecting vessel all equals completely, and the welding is provided with a vertical stainless steel board between granule collecting vessel and farine collecting vessel, swift raw materials after will screening are transported and are stored.

Description

Device for continuously separating particle fine powder

Technical Field

The utility model relates to a separator specifically is a device of continuous separation granule farine, belongs to separator technical field.

Background

In the process of conveying granular materials in the industries of chemical industry, food, grain and the like, because the granular materials rub against the wall of a pipeline in the conveying process, a certain amount of fine powder and wire drawing materials can be generated, and the powder and the wire drawing materials are mixed in the granular materials, so that the quality of the whole product is influenced.

Therefore, a device for continuously separating fine particle powder is needed to meet the current market demand, although various devices for continuously separating fine particle powder are produced on the current market, in summary, a lot of common defects still exist, one of the common problems still exist, the powder separating device commonly used by people at present adopts a screening filter screen mode to screen powder products, the screen is easy to block and damage in the screening process, the production efficiency and the product quality are influenced, the installation height of the separating device is high, the occupied area is large, a huge dust removing device is also needed, the working environment is poor, the feed inlet of the existing device for continuously separating fine particle powder is a horizontal feed inlet, the blockage of raw materials can be caused by large friction force in the process of conveying and screening raw materials, and the length of the inner rotary drum of the existing device for continuously separating fine particle powder is equal, resulting in mixing of the raw materials during the screening process, possibly due to vibrations of the machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a device for continuously separating particle fine powder.

The utility model discloses a following technical scheme realizes above-mentioned purpose: a device for continuously separating particle fine powder comprises a shell, a feeding barrel, a feeding hole, a fine powder discharging hole, a pull ring, a particle discharging hole, a stand column, a particle collecting barrel, a fine powder collecting barrel, a linkage rotating shaft, a motor, a stand column platform, a particle collecting box and a fine powder collecting box; the shell forms the main structure of the device for continuously separating the particle fine powder, the feeding cylinder and the shell are welded and arranged on the left side of the shell, the feeding port is arranged inside the feeding cylinder, the fine powder discharging port is rotationally connected and arranged on the front side panel of the shell through a connecting rotating shaft, the pull ring is vertically welded and arranged on the fine powder discharging port and the particle discharging port, the particle discharging port is rotationally connected and arranged on the left side of the fine powder discharging port through a connecting rotating shaft, the stand column is welded and arranged at the bottom of the shell, the particle collecting barrel is welded and arranged on the outer side of the fine powder collecting barrel, the fine powder collecting barrel is welded and arranged on a linkage rotating shaft, the linkage rotating shaft is welded and arranged in a motor, the motor is welded and arranged at the top of the support column platform, the support column platform is vertically welded and arranged on the bottom plate inside the shell, and, the fine powder collecting box is arranged at the bottom port of the fine powder collecting barrel.

Preferably, in order to prevent the raw material from being blocked due to high friction force during the process of conveying the screened raw material, the feeding cylinder is arranged on the side edge of the upper left corner of the shell by seamless cold-extraction alternate welding, and the angle formed between the shell and the feeding cylinder is 45 degrees.

Preferably, in order to prevent the raw materials from being mixed due to the vibration of the machine in the screening process, the diameter of the particle collecting barrel is larger than that of the fine powder collecting barrel, the length of the particle collecting barrel is smaller than that of the fine powder collecting barrel, the particle collecting barrel and the fine powder collecting barrel are welded on the linkage rotating shaft, and the fine powder collecting barrel is positioned inside the particle collecting barrel.

Preferably, in order to guarantee the screening precision, a layer of compact filter screen is densely distributed on the fine powder collecting barrel, and the filter screen is detachably connected with the particle collecting barrel.

Preferably, in order to rapidly transport and store the screened raw materials, the particle collecting box and the fine powder collecting box are completely equal in shape and size, and a vertical stainless steel plate is welded between the particle collecting box and the fine powder collecting box.

The utility model has the advantages that: the device for continuously separating the particle fine powder has reasonable design, the feeding barrel is arranged on the side edge of the upper left corner of the shell through seamless cold-extraction alternate welding, the angle formed between the shell and the feeding barrel is 45 degrees, the blockage of the raw material possibly caused by large friction force in the process of conveying and screening the raw material is prevented, the diameter of the particle collecting barrel is larger than that of the fine powder collecting barrel, the length of the particle collecting barrel is smaller than that of the fine powder collecting barrel, the particle collecting barrel and the fine powder collecting barrel are welded on the linkage rotating shaft and are positioned in the particle collecting barrel, the mixing of the raw material possibly caused by the vibration of a machine in the screening process is prevented, a layer of compact filter screen is densely distributed on the fine powder collecting barrel, the filter screen and the particle collecting barrel are detachably connected, the screening precision is ensured, and the shapes and the sizes of the particle collecting barrel and the fine powder collecting barrel are all equal, and a vertical stainless steel plate is welded between the particle collecting box and the fine powder collecting box, so that the screened raw materials can be quickly transported and stored.

Drawings

Fig. 1 is a perspective view of the present invention;

Fig. 2 is an internal schematic view of the present invention.

In the figure: 1. the device comprises a shell, 2, a feeding barrel, 3, a feeding hole, 4, a fine powder discharging hole, 5, a pull ring, 6, a particle discharging hole, 7, an upright post, 8, a particle collecting barrel, 9, a fine powder collecting barrel, 10, a linkage rotating shaft, 11, a motor, 12, a supporting column table, 13, a particle collecting box, 14 and a fine powder collecting box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a device for continuously separating particle fine powder comprises a shell 1, a feeding cylinder 2, a feeding port 3, a fine powder discharging port 4, a pull ring 5, a particle discharging port 6, a column 7, a particle collecting barrel 8, a fine powder collecting barrel 9, a linkage rotating shaft 10, a motor 11, a support column table 12, a particle collecting box 13 and a fine powder collecting box 14; the shell 1 forms the main structure of the device for continuously separating the particle fine powder, the feeding cylinder 2 and the shell 1 are welded on the left side of the shell 1, the feeding port 3 is arranged inside the feeding cylinder 2, the fine powder discharging port 4 is rotationally connected and arranged on the front side panel of the shell 1 through a connecting rotating shaft, the pull ring 5 is vertically welded on the fine powder discharging port 4 and the particle discharging port 6, the particle discharging port 6 is rotationally connected and arranged on the left side of the fine powder discharging port 4 through a connecting rotating shaft, the upright post 7 is welded on the bottom of the shell 1, the particle collecting barrel 8 is welded on the outer side of the fine powder collecting barrel 9, the fine powder collecting barrel 9 is welded on the linkage rotating shaft 10, the linkage rotating shaft 10 is welded in the motor 11, the motor 11 is welded on the top of the support column table 12, and the motor 11 is Y160M1-2 in model number, the pillar stand 12 is vertically welded on the bottom plate inside the shell 1, the particle collecting box 13 is arranged at the bottom port of the particle collecting barrel 8, and the fine powder collecting box 14 is arranged at the bottom port of the fine powder collecting barrel 9.

The feeding barrel 2 is arranged on the side edge of the upper left corner of the shell 1 through seamless cold extraction alternate welding, an angle formed between the shell 1 and the feeding barrel 2 is 45 degrees, the situation that raw materials are blocked possibly due to large friction force in the process of conveying and screening the raw materials is avoided, the diameter of the particle collecting barrel 8 is larger than that of the fine powder collecting barrel 9, the length of the particle collecting barrel 8 is smaller than that of the fine powder collecting barrel 9, the particle collecting barrel 8 and the fine powder collecting barrel 9 are both welded on the linkage rotating shaft, the fine powder collecting barrel 9 is positioned in the particle collecting barrel 8, the situation that the raw materials are mixed possibly due to vibration of a machine in the screening process is avoided, a layer of compact filter screen is densely distributed on the fine powder collecting barrel 9, the filter screen is detachably connected with the particle collecting barrel 8, the screening precision is guaranteed, and the shape and the size of the particle collecting barrel 8 and the fine powder collecting barrel 9 are completely equal, and a vertical stainless steel plate is welded between the particle collecting box 8 and the fine powder collecting box 9, so that the screened raw materials can be rapidly transported and stored.

The working principle is as follows: when the device for continuously separating the particle fine powder is used, the device for continuously separating the particle fine powder is moved to a proper position, then an external power supply is connected with the device for continuously separating the particle fine powder, the stable power supply of the power supply is ensured, then raw materials needing to be screened are put in through the feeding hole 3, the device for continuously separating the particle fine powder works at the moment, after the device for continuously separating the particle fine powder works for a period of time, the fine powder discharging hole 4 and the particle discharging hole 6 are opened, and the particle collecting box 13 and the fine powder collecting box 14 are taken out.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. An apparatus for continuously separating particulate fines, characterized by: comprises a shell (1), a feeding cylinder (2), a feeding hole (3), a fine powder discharging hole (4), a pull ring (5), a particle discharging hole (6), an upright post (7), a particle collecting barrel (8), a fine powder collecting barrel (9), a linkage rotating shaft (10), a motor (11), a support column table (12), a particle collecting box (13) and a fine powder collecting box (14); the shell (1) forms the main structure of the device for continuously separating the particle fine powder, the feeding cylinder (2) and the shell (1) are welded on the left side of the shell (1), the feeding port (3) is arranged inside the feeding cylinder (2), the fine powder discharging port (4) is rotatably connected and arranged on the front side panel of the shell (1) through a connecting rotating shaft, the pull ring (5) is vertically welded on the fine powder discharging port (4) and the particle discharging port (6), the particle discharging port (6) is rotatably connected and arranged on the left side of the fine powder discharging port (4) through a connecting rotating shaft, the upright post (7) is welded and arranged at the bottom of the shell (1), the particle collecting barrel (8) is welded and arranged on the outer side of the fine powder collecting barrel (9), the fine powder collecting barrel (9) is welded and arranged on the linkage rotating shaft (10), the linkage rotating shaft (10) is welded and arranged in the motor (11), the motor (11) is welded and arranged at the top of the support column table (12), the support column table (12) is vertically welded and arranged on a bottom plate inside the shell (1), the particle collecting box (13) is arranged at the bottom port of the particle collecting barrel (8), and the fine powder collecting box (14) is arranged at the bottom port of the fine powder collecting barrel (9).

2. An apparatus for continuously separating particulate fines as claimed in claim 1, further comprising: the feeding cylinder (2) is arranged on the side edge of the upper left corner of the shell (1) through seamless cold extraction alternate welding, and the angle formed between the shell (1) and the feeding cylinder (2) is 45 degrees.

3. An apparatus for continuously separating particulate fines as claimed in claim 1, further comprising: the diameter of granule collecting vessel (8) is greater than fine powder collecting vessel (9), and the length of granule collecting vessel (8) is less than fine powder collecting vessel (9), and granule collecting vessel (8), fine powder collecting vessel (9) all weld and set up on linkage pivot (10) and fine powder collecting vessel (9) are located the inside of granule collecting vessel (8).

4. An apparatus for continuously separating particulate fines as claimed in claim 1, further comprising: a layer of compact filter screen is densely distributed on the fine powder collecting barrel (9), and the filter screen and the particle collecting barrel (8) are detachably connected.

5. An apparatus for continuously separating particulate fines as claimed in claim 1, further comprising: the particle collecting box (13) and the fine powder collecting box (14) are all identical in shape and size, and a vertical stainless steel plate is welded between the particle collecting box (13) and the fine powder collecting box (14).