CN219923318U

CN219923318U - Novel cyclone separation high-pressure fluid separation device

Info

Publication number: CN219923318U
Application number: CN202320834683.5U
Authority: CN
Inventors: 胡勇刚; 李伟明; 胡静静
Original assignee: Pucui Supercritical Guangdong High Tech Co ltd
Current assignee: Pucui Supercritical Guangdong High Tech Co ltd
Priority date: 2023-04-14
Filing date: 2023-04-14
Publication date: 2023-10-31
Anticipated expiration: 2033-04-14

Abstract

The utility model discloses a novel cyclone separation high-pressure fluid separation device, which belongs to the technical field of cyclone separators and comprises a separation barrel, a first air inlet and a second air inlet, wherein the first air inlet and the second air inlet are respectively arranged at the side ends of the separation barrel, a cleaning mechanism is arranged at the lower end of the separation barrel and is used for assisting in discharging and cleaning dust, the cleaning mechanism comprises an ash bucket and an ash discharge port, the ash bucket is arranged at the lower end of the separation barrel, and the ash discharge port is arranged at the right lower end of the ash bucket, and the utility model has the beneficial effects that: dust is collected by arranging an ash bucket at the lower end of the cyclone separator, the motor II drives the spiral separation fan blade to rotate and simultaneously drives the outer deflector rod, the cleaning brush and the inner deflector rod to rotate, so that dust is cleaned on the inner wall of the ash bucket, dust is discharged conveniently, dust cleaning is facilitated, and cyclone separation efficiency is improved.

Description

Novel cyclone separation high-pressure fluid separation device

Technical Field

The utility model relates to the technical field of cyclone separators, in particular to a novel cyclone separation high-pressure fluid separation device.

Background

The main structure and main parts of the automobile are made of metal, high-pressure fluid needs to be formed in the process of cleaning the machined parts, deburring the machined parts, cutting the fluid and the like in the machining process of the metal parts, the high-pressure fluid is sprayed out from a high-pressure fluid nozzle and is subjected to cyclone separation through a cyclone separator, but when the high-pressure fluid is separated by the cyclone separator, separated dust at the lower end can be accumulated at the lower end, and the dust is inconvenient to discharge and clean.

Therefore, it is necessary to invent a new type of cyclone separator for high pressure fluid.

Disclosure of Invention

The present utility model has been made in view of the above and/or problems occurring in the prior art of a novel cyclone separation high pressure fluid separation device.

Therefore, the utility model aims to provide a novel cyclone separation high-pressure fluid separation device, dust is collected by arranging an ash bucket at the lower end of a cyclone separator, a motor II drives a spiral separation fan blade to rotate and simultaneously drives an outer deflector rod, a cleaning brush and an inner deflector rod to rotate, dust is cleaned on the inner wall of the ash bucket, dust is conveniently discharged, dust cleaning is facilitated, cyclone separation efficiency is improved, the problems that the existing high-pressure fluid is ejected from a high-pressure fluid nozzle and cyclone separation is carried out through the cyclone separator, but the separated dust at the lower end of the cyclone separator gathers at the lower end when the high-pressure fluid is separated, and the discharging and cleaning are inconvenient can be solved.

In order to solve the technical problems, according to one aspect of the present utility model, the following technical solutions are provided:

a novel cyclonic separating apparatus for separating high pressure fluid comprising: the first air inlet and the second air inlet are respectively arranged at the side ends of the separation cylinder,

the lower end of the separation cylinder is provided with a cleaning mechanism which is used for assisting in discharging and cleaning dust.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: the cleaning mechanism comprises an ash bucket and an ash discharge port, the ash bucket is arranged at the lower end of the separation barrel, and the ash discharge port is arranged at the right lower end of the ash bucket.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: the inside rotation of separation barrel and ash bucket is installed the bull stick, spiral separation flabellum is installed to the outer wall of bull stick.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: and a second motor is arranged at the lower end of the ash bucket, and the output end of the second motor is connected with a rotating rod.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: an outer deflector rod is arranged on the outer wall of the lower end of the rotating rod, a cleaning brush is arranged on the outer side face of the outer deflector rod, and an inner deflector rod is arranged at the upper end of the outer deflector rod.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: an exhaust outlet I is formed in the upper end of the separation cylinder body, and an exhaust box is installed at the upper end of the exhaust outlet I.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: the inside rotation of exhaust box is installed and is led the fan leaf, exhaust box's side installs the air exit two.

As a preferred embodiment of the novel cyclone high-pressure fluid separation device of the present utility model, the device comprises: the rear end of the exhaust box is provided with a first motor, and the output end of the first motor is connected with a fan blade.

Compared with the prior art:

dust is collected by arranging an ash bucket at the lower end of the cyclone separator, the motor II drives the spiral separation fan blade to rotate and simultaneously drives the outer deflector rod, the cleaning brush and the inner deflector rod to rotate, so that dust is cleaned on the inner wall of the ash bucket, dust is discharged conveniently, dust cleaning is facilitated, and cyclone separation efficiency is improved.

Drawings

FIG. 1 is a perspective view of a novel cyclonic separating apparatus for separating high pressure fluid in accordance with the present utility model;

FIG. 2 is a block diagram of a novel cyclonic separating apparatus for separating high pressure fluid in accordance with the present utility model;

FIG. 3 is a top view of a separator bowl in a novel cyclonic separating apparatus of the present utility model;

fig. 4 is a top view of an exhaust box in a novel cyclone separation high-pressure fluid separation device.

In the figure: the cleaning device comprises a separation cylinder body 1, an air inlet 11, an air inlet 12, an air outlet 13, a spiral separation fan blade 14, an air exhaust box 15, a wind guide fan blade 16, an air outlet 17, a motor 18, a cleaning mechanism 2, an ash bucket 21, an ash outlet 22, a motor 23, a rotating rod 24, an outer deflector rod 25, a cleaning brush 26 and an inner deflector rod 27.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

The utility model provides a novel cyclone separation high-pressure fluid separation device, referring to fig. 1-4, comprising a separation cylinder 1, an air inlet I11 and an air inlet II 12;

the first air inlet 11 and the second air inlet 12 are respectively arranged at the side ends of the separation barrel 1, air is introduced into the separation barrel 1 through the first air inlet 11 and the second air inlet 12, high-pressure fluid tangentially enters the separation barrel 1, the cleaning mechanism 2 is arranged at the lower end of the separation barrel 1 and used for assisting dust discharge and cleaning, the dust is collected by arranging the dust hopper at the lower end of the cyclone separator, the second motor drives the spiral separation fan blade to rotate and simultaneously drives the outer deflector rod, the cleaning brush and the inner deflector rod to rotate, dust is cleaned on the inner wall of the dust hopper, dust is discharged conveniently, dust cleaning is facilitated, and cyclone separation efficiency is improved.

The cleaning mechanism 2 comprises an ash bucket 21 and an ash discharge port 22, the ash bucket 21 is arranged at the lower end of the separation barrel 1, the spiral separation fan blade 14 drives high-pressure fluid to rotate and centrifugally separate, dust falls into the ash bucket 21 downwards, the ash discharge port 22 is arranged at the right lower end of the ash bucket 21, the ash discharge port 22 is used for discharging dust in the ash bucket 21, a rotating rod 24 is arranged in the separation barrel 1 and the ash bucket 21 in a rotating manner, the rotating rod 24 rotates to drive the spiral separation fan blade 14 to rotate, the spiral separation fan blade 14 is arranged on the outer wall of the rotating rod 24, the spiral separation fan blade 14 rotates to cyclone the high-pressure fluid entering the separation barrel 1, a motor II 23 is arranged at the lower end of the ash bucket 21, the motor II 23 is used for driving the rotating rod 24 to rotate, an outer deflector rod 25 is arranged on the outer wall of the lower end of the rotating rod 24 and is used for stirring the dust in the ash bucket 21, the outer side surface of the outer deflector rod 25 is provided with a cleaning brush 26, the cleaning brush 26 is used for cleaning dust on the inner wall of the dust hopper 21, the upper end of the outer deflector rod 25 is provided with an inner deflector rod 27, the inner deflector rod 27 is used for stirring dust to enable the dust to fall, the spiral separation fan blade 14 rotates to cyclone and centrifugally separate tangential high-pressure fluid, the dust enters the dust hopper 21 downwards, the rotating rod 24 rotates and drives the outer deflector rod 25, the cleaning brush 26 and the inner deflector rod 27 to rotate, the cleaning brush 26 cleans the dust on the inner wall of the dust hopper 21 and is discharged through the dust discharge port 22, the upper end of the separation barrel 1 is provided with an exhaust port I13, the exhaust port I13 is used for discharging separated wind direction, the upper end of the exhaust port I13 is provided with an exhaust box 15, the exhaust box 15 is used for assisting the upward exhaust, the inside of the exhaust box 15 rotates and is provided with a wind guide fan blade 16, the wind guide fan blade 16 and the exhaust port II 17 are used for guiding wind, an exhaust outlet II 17 is arranged at the side end of the exhaust box 15, a motor I18 is arranged at the rear end of the exhaust box 15, the output end of the motor I18 is connected with a wind guiding fan blade 16, the motor I18 is used for driving the wind guiding fan blade 16 to rotate, wind upwards enters the exhaust box 15 through the exhaust outlet I13, the motor I18 drives the wind guiding fan blade 16 to rotate, the wind guiding fan blade 16 drives the wind direction to flow in the exhaust outlet II 17, and the wind is exhausted through the exhaust outlet II 17.

When the separating device is specifically used, the first air inlet 11 and the second air inlet 12 are respectively arranged at the side end of the separating cylinder body 1, the ash bucket 21 is arranged at the lower end of the separating cylinder body 1, the ash discharge opening 22 is arranged at the right lower end of the ash bucket 21, the rotating rods 24 are rotatably arranged in the separating cylinder body 1 and the ash bucket 21, the spiral separating fan blades 14 are arranged on the outer walls of the rotating rods 24, the second motor 23 is arranged at the lower end of the ash bucket 21, the output end of the second motor 23 is connected with the rotating rods 24, the outer wall of the lower end of the rotating rod 24 is provided with the outer deflector 25, the outer side surface of the outer deflector 25 is provided with the cleaning brush 26, the upper end of the outer deflector 25 is provided with the inner deflector 27, the upper end of the separating cylinder body 1 is provided with the first air discharge opening 13, the upper end of the first air discharge opening 13 is provided with the air discharge box 15, the air guide fan blades 16 are rotatably arranged in the air discharge box 15, the side end of the air discharge box 15 is provided with the second air discharge opening 17, the rear end of the exhaust box 15 is provided with a first motor 18, the output end of the first motor 18 is connected with a first air guide blade 16, high-pressure fluid enters the separation barrel 1 through a first air inlet 11 and a second air inlet 12 respectively, the second motor 23 drives a rotating rod 24 and a spiral separation blade 14 to rotate, the spiral separation blade 14 rotates to cyclone and centrifugally separate the tangentially-entered high-pressure fluid, dust enters the ash bucket 21 downwards, the rotating rod 24 rotates and simultaneously drives an outer deflector 25, a cleaning brush 26 and an inner deflector 27 to rotate, the cleaning brush 26 cleans the dust on the inner wall of the ash bucket 21, the dust is discharged through an ash discharge port 22, the air enters the exhaust box 15 through an air outlet 13 upwards, the first motor 18 drives the first air guide blade 16 to rotate, the air guide blade 16 drives the air direction to flow in an air outlet 17 and is discharged through the air outlet 17.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims

1. The novel cyclone separation high-pressure fluid separation device comprises a separation cylinder body (1), a first air inlet (11) and a second air inlet (12), wherein the first air inlet (11) and the second air inlet (12) are respectively arranged at the side end of the separation cylinder body (1),

the lower end of the separation cylinder body (1) is provided with a cleaning mechanism (2), and the cleaning mechanism (2) is used for assisting in dust discharge and cleaning.

2. The novel cyclone high-pressure fluid separation device according to claim 1, wherein the cleaning mechanism (2) comprises an ash bucket (21) and an ash discharge port (22), the ash bucket (21) is arranged at the lower end of the separation barrel (1), and the ash discharge port (22) is arranged at the right lower end of the ash bucket (21).

3. A novel cyclone high-pressure fluid separation device according to claim 2, characterized in that a rotating rod (24) is rotatably arranged in the separation cylinder (1) and the ash bucket (21), and a spiral separation fan blade (14) is arranged on the outer wall of the rotating rod (24).

4. The novel cyclone high-pressure fluid separation device according to claim 2, wherein a second motor (23) is installed at the lower end of the ash bucket (21), and the output end of the second motor (23) is connected with a rotating rod (24).

5. A novel cyclone separation high-pressure fluid separation device according to claim 3, characterized in that an outer deflector rod (25) is mounted on the outer wall of the lower end of the rotating rod (24), a cleaning brush (26) is mounted on the outer side surface of the outer deflector rod (25), and an inner deflector rod (27) is mounted on the upper end of the outer deflector rod (25).

6. The novel cyclone separation high-pressure fluid separation device according to claim 1, wherein an exhaust outlet I (13) is formed in the upper end of the separation cylinder body (1), and an exhaust box (15) is arranged at the upper end of the exhaust outlet I (13).

7. The novel cyclone high-pressure fluid separation device according to claim 6, wherein a fan blade (16) is rotatably installed in the exhaust box (15), and an exhaust outlet two (17) is installed at the side end of the exhaust box (15).

8. The novel cyclone high-pressure fluid separation device according to claim 6, wherein a motor I (18) is installed at the rear end of the exhaust box (15), and the output end of the motor I (18) is connected with a fan blade (16).