CN215879108U - Plasma treatment device for inner wall of non-metal pipeline - Google Patents

Abstract

The utility model discloses a plasma treatment device for the inner wall of a non-metal pipeline, which comprises a plasma host machine, plasma electrodes electrically connected with the plasma host machine, a plasma motion assembly and a non-metal pipeline rotating assembly, wherein the plasma motion assembly comprises a rack, a linear driving mechanism is arranged on the rack, the top end of the linear driving mechanism is in transmission connection with a motion sliding block, two plasma electrodes are arranged, and the two plasma electrodes are parallelly arranged on the motion sliding block at intervals; during cleaning, the plasma moving assembly can drive the plasma electrode to be inserted into the non-metal pipeline arranged on the turntable, and the rotary driving mechanism drives the non-metal pipeline to rotate so as to gradually clean the pipeline wall of the non-metal pipeline, so that the requirement of plasma treatment on the inner wall of the non-metal pipeline is met; be provided with two sets of non-metallic pipeline fixed sleeving on the carousel, when one of them group cleaned, can install or dismantle non-metallic pipeline at another group non-metallic pipeline fixed sleeving to latency in the middle of reducing.

Description

Plasma treatment device for inner wall of non-metal pipeline

Technical Field

The utility model relates to the field of powder, in particular to a plasma treatment device for an inner wall of a non-metal pipeline.

Background

In the new forms of energy, powder industry, the flourishing material body of many fillers can only be non-metallic material, and these powder class fillers often adhere easily at non-metallic pipe inner wall, cause the powder caking, the powder polluted condition, need coat the anti-adhesion membrane of one deck at non-metallic pipe inner wall to avoid the powder caking, the polluted condition, before anti-adhesion membrane coating, need use plasma cleaning technique to carry out plasma cleaning to non-metallic pipe inner wall, in order to promote anti-adhesion membrane coating quality.

At present, the cleaning of the nonmetal pipeline is mainly to clean the nonmetal pipeline by manually inserting the nonmetal pipeline into a plasma electrode through a handheld pipeline, the whole operation mode is relatively inconvenient, the efficiency is low, and the labor cost is relatively high.

Therefore, how to solve the defects of the prior art is a subject of the present invention.

Disclosure of Invention

In order to solve the problems, the utility model discloses a plasma treatment device for the inner wall of a non-metal pipeline.

In order to achieve the above purpose, the utility model provides the following technical scheme: a plasma processing device for the inner wall of a non-metal pipeline comprises a plasma host, a plasma electrode, a plasma motion assembly and a non-metal pipeline rotating assembly, wherein the plasma electrode is electrically connected with the plasma host;

the non-metal pipeline rotating assembly comprises a rotating support, a rotating disc and non-metal pipeline fixing sleeves, the rotating support is fixed on the rack, one side of the rotating disc is rotatably connected onto the rotating support through a rotating transmission shaft, the rotating transmission shaft is in transmission connection with a rotating servo motor, the rotating disc is arranged opposite to the plasma electrodes, at least two groups of non-metal pipeline fixing sleeves are arranged, the two groups of non-metal pipeline fixing sleeves are arranged up and down, each group of non-metal pipeline fixing sleeves are provided with two, and the two non-metal pipeline fixing sleeves are respectively arranged corresponding to the outer ends of the two plasma electrodes; the non-metal pipeline fixed sleeve rotates to be connected on the carousel, install on the carousel one side of non-metal pipeline fixed sleeve dorsad with the rotary driving mechanism that non-metal pipeline fixed sleeve looks transmission is connected.

In the above scheme, a worm gear transmission mechanism is connected to a power output shaft end of the rotary servo motor in a transmission manner, and a worm wheel of the worm gear transmission mechanism is connected with the rotary transmission shaft in a transmission manner.

In the above scheme, the inner wall of the non-metal pipeline fixing sleeve is uniformly and convexly provided with a plurality of elastic supporting pressing strips along the circumferential direction, and the elastic supporting pressing strips are arranged in a ring shape.

In the above scheme, the non-metal pipeline fixed sleeve is connected on the turntable through a rotating shaft in a rotating mode, and the other end of the rotating shaft penetrates through the turntable and is in transmission connection with a rotating motor installed on the turntable.

In the above scheme, the end of the plasma electrode is connected with an extension rod, and the plasma electrode is installed on the motion sliding block through the extension rod.

Compared with the prior art, the utility model has the following advantages: the plasma processing device mainly comprises a plasma motion component and a non-metal pipeline rotating component, wherein a plasma electrode can be driven by the plasma motion component to be inserted into a non-metal pipeline arranged on a turntable during cleaning, and the non-metal pipeline is driven to rotate by a rotating driving mechanism to gradually clean the pipeline wall of the non-metal pipeline so as to meet the requirement of plasma processing on the inner wall of the non-metal pipeline; be provided with two sets of non-metallic pipeline set sleeve on the carousel, when one of them is a set of clean, can install or dismantle non-metallic pipeline at another set of non-metallic pipeline set sleeve to latency in the middle of reducing, compare with traditional manual operation, it can effectively improve production efficiency, and reduce the human cost.

Drawings

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

Detailed Description

The present invention will be further illustrated below with reference to specific embodiments, which are to be understood as merely illustrative and not limitative of the scope of the present invention. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Example (b): referring to fig. 1, a plasma processing apparatus for an inner wall of a non-metal pipeline comprises a plasma host 402 and a plasma electrode 103 electrically connected to the plasma host 402, wherein the plasma host 402 contains the plasma host and generates a high voltage electric field for driving the plasma electrode to perform double dielectric barrier discharge to form plasma, and the plasma processing apparatus is matched with a plasma movement unit and a non-metal pipeline rotation unit to perform plasma cleaning on the inner wall of the non-metal pipeline;

the plasma motion assembly comprises a rack 401, a linear driving mechanism 101 is mounted on the rack 401, the top end of the linear driving mechanism 101 is connected with a motion sliding block 102 in a transmission mode, two plasma electrodes 103 are arranged, and the two plasma electrodes 103 are mounted on the motion sliding block 102 in parallel at intervals; the linear driving mechanism 101 adopts a screw nut linear module driven by a servo motor and is arranged at the top of the rack 401 through a moving bracket 105;

the non-metal pipeline rotating assembly comprises a rotating bracket 206, a rotating disc 203 and non-metal pipeline fixing sleeves 202, the rotating bracket 206 is fixed on a rack 401, one side of the rotating disc 203 is rotatably connected to the rotating bracket 206 through a rotating transmission shaft 205, the rotating transmission shaft 205 is in transmission connection with a rotating servo motor 205, the rotating disc 203 and the plasma electrodes 103 are arranged oppositely, at least two groups of non-metal pipeline fixing sleeves 202 are arranged, the two groups of non-metal pipeline fixing sleeves 202 are arranged up and down, each group of non-metal pipeline fixing sleeves 202 are provided with two, and the two non-metal pipeline fixing sleeves 202 are respectively arranged corresponding to the outer ends of the two plasma electrodes 103; the non-metal pipeline fixing sleeve 202 is rotatably connected to the turntable 203, and a rotary driving mechanism in transmission connection with the non-metal pipeline fixing sleeve 202 is installed on one side, back to the non-metal pipeline fixing sleeve 202, of the turntable 203; specifically, the non-metal pipeline fixing sleeve 202 is rotatably connected to the turntable 203 through a rotating shaft, and the other end of the rotating shaft penetrates through the turntable 203 and is in transmission connection with a rotating motor installed on the turntable 203.

The rotary bracket 206 provides mounting positions for all parts of the unit, the rotary servo motor 205 is positioned on the rotary bracket 206, the rotary transmission shaft 206 is in transmission connection with the rotary servo motor 205 through a synchronous belt, and the rotary transmission shaft 206 is driven by the rotary servo motor 205 to drive the turntable 203 to rotate;

during cleaning, one end of a non-metal pipeline is inserted into the non-metal pipeline fixing sleeve 202, the linear driving mechanism 101 drives the plasma electrode 103 to move towards the non-metal pipeline arranged in the non-metal pipeline fixing sleeve 202 and to be inserted into the non-metal pipeline, and the rotary driving mechanism on the rotary table 203 is matched to drive the non-metal pipeline fixing sleeve 202 to drive the non-metal pipeline arranged on the non-metal pipeline fixing sleeve 202 to rotate so as to perform plasma cleaning on the inner wall of the non-metal pipeline; referring to fig. 1 in the cleaning process, a next non-metal pipe to be cleaned can be installed in the two non-metal pipe fixing sleeves 202 on the upper side of the turntable 203; after cleaning, the linear driving mechanism 101 drives the plasma electrode 103 to exit the non-metal pipeline, the rotary servo motor 205 drives the rotary table 203 to rotate 180 degrees to turn the cleaned non-metal pipeline above the rotary table to the lower side, and the steps are repeated to clean the non-metal pipeline; and the cleaned non-metal pipeline which is turned over to the upper part is disassembled.

The power output shaft end of the rotary servo motor 205 is in transmission connection with a worm gear transmission mechanism, a worm wheel of the worm gear transmission mechanism is in transmission connection with the rotary transmission shaft 205, and the worm gear transmission mechanism has good self-locking characteristic and can enable the turntable 203 driven by the rotary servo motor 205 to hover at any position.

In order to improve the firmness of fixing the inserted nonmetal pipeline by the nonmetal pipeline fixing sleeve 202, a plurality of elastic supporting pressing strips are uniformly and convexly arranged on the inner wall of the nonmetal pipeline fixing sleeve 202 along the circumferential direction of the nonmetal pipeline fixing sleeve, the elastic supporting pressing strips are arranged in a ring shape, rubber supporting pressing strips are adopted by the elastic supporting pressing strips, and the elastic supporting pressing strips are supported on the outer wall of the nonmetal pipeline to be pressed and fixed when the nonmetal pipeline is inserted.

The end connection of plasma electrode 103 has an extension rod, and plasma electrode 103 passes through the extension rod to be installed on motion slider 102, and the extension rod can increase the length that plasma electrode 103 made it can be more deep insert to treat in the abluent nonmetal pipeline.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (5)

1. The utility model provides a non-metal pipeline inner wall plasma processing apparatus, includes plasma host computer (402) and plasma electrode (103) with plasma host computer (402) looks electrical connection, its characterized in that: the plasma moving assembly comprises a rack (401), a linear driving mechanism (101) is mounted on the rack (401), the top end of the linear driving mechanism (101) is in transmission connection with a moving sliding block (102), two plasma electrodes (103) are arranged, and the two plasma electrodes (103) are mounted on the moving sliding block (102) in parallel at intervals;

the non-metal pipeline rotating assembly comprises a rotating support (206), a rotating disc (203) and non-metal pipeline fixing sleeves (202), the rotating support (206) is fixed on a rack (401), one side of the rotating disc (203) is rotatably connected onto the rotating support (206) through a rotating transmission shaft (205), the rotating transmission shaft (205) is in transmission connection with a rotating servo motor (205), the rotating disc (203) and the plasma electrodes (103) are oppositely arranged, at least two groups of non-metal pipeline fixing sleeves (202) are arranged, the two groups of non-metal pipeline fixing sleeves (202) are vertically arranged, each group of non-metal pipeline fixing sleeves (202) is provided with two, and the two non-metal pipeline fixing sleeves (202) are respectively correspondingly arranged with the outer ends of the two plasma electrodes (103); nonmetal pipeline fixed sleeving (202) rotate to be connected on carousel (203), on carousel (203) one side dorsad nonmetal pipeline fixed sleeving (202) install with nonmetal pipeline fixed sleeving (202) looks transmission connection's rotary drive mechanism.

2. The plasma processing device for the inner wall of the non-metal pipeline according to claim 1, wherein: the power output shaft end of the rotary servo motor (205) is in transmission connection with a worm gear transmission mechanism, and a worm wheel of the worm gear transmission mechanism is in transmission connection with the rotary transmission shaft (205).

3. The plasma processing device for the inner wall of the non-metal pipeline according to claim 1, wherein: the inner wall of the nonmetal pipeline fixing sleeve (202) is uniformly provided with a plurality of elastic supporting and pressing strips in a protruding mode along the circumferential direction, and the elastic supporting and pressing strips are arranged in a ring shape.

4. The plasma processing device for the inner wall of the non-metal pipeline according to claim 1, wherein: the non-metal pipeline fixing sleeve (202) is rotatably connected to the rotary disc (203) through a rotary shaft, and the other end of the rotary shaft penetrates through the rotary disc (203) and is in transmission connection with a rotating motor installed on the rotary disc (203).

5. The plasma processing device for the inner wall of the non-metal pipeline according to claim 1, wherein: the end of the plasma electrode (103) is connected with an extension rod, and the plasma electrode (103) is installed on the moving slide block (102) through the extension rod.

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