CN110773526A - Pipe inner wall cleaning device and cleaning method - Google Patents

Abstract

The invention discloses a cleaning device for an inner wall of a pipe, and relates to the technical field of cleaning of the inner wall of the pipe. In the present application, a cleaning device comprises: the inside accommodation space that has of pneumatic chamber, exchange portion set up in the pneumatic chamber top, and exchange portion includes: the atmospheric pressure case is connected to the conversion shell, and conversion shell one end is connected with the atmospheric pressure export of atmospheric pressure case, and the switching motor setting is in the atmospheric pressure case top, and the switching shaft is connected with the switching motor, and the conversion piece is connected with the switching shaft, and the setting of transfer portion is in exchange portion one side, and the transfer portion includes: the exchange portion is connected to the conduction pipe, and the coupling connects the conduction pipe, and the feed portion sets up in exchange portion one side, and the portion of placing sets up in feed portion one side, and the washing portion is connected with the transfer portion. According to the invention, the cleaning part and the exchange part are adopted to realize automatic moving cleaning of steel pipe cleaning so as to adapt to steel pipes with various lengths, the cleaning efficiency is improved, the complexity of the device can be reduced, and a moving device adapting to the length of the steel pipe does not need to be added outside the device to improve the cleaning effect.

Description

Pipe inner wall cleaning device and cleaning method

Technical Field

The invention relates to the technical field of cleaning of inner walls of pipes, in particular to a device and a method for cleaning the inner walls of the pipes.

Background

At present, a steel pipe can form a rolled skin during rolling, rust, welding slag, an oily antirust agent coated on the steel pipe for corrosion prevention, dust, sand, cement, a heat insulation material and other impurities can be formed in the steel pipe during manufacturing, storage and installation processes, and after the steel pipe is used for a long time without being cleaned up, oil sludge and rust scale in the steel pipe can be solidified to cause the pipe diameter to be reduced.

Therefore, high-pressure water washing is generally used for washing the inner wall of the steel pipe, high-pressure water jet stripping and cleaning are performed on dirt on the inner surface of the pipeline, and washing work is performed by using a rack-suspended travelling car to adapt to the length of the steel pipe, so that the steel pipe with each length is cleaned. However, water waste is caused in the process of high-pressure water washing, waste water treatment on sewage is a large project, and meanwhile, a method for realizing movement of the device to adapt to the length of the steel pipe is also needed to be added when the method of high-pressure water washing is adopted, and after the device is added, the length of the steel pipe is too long, so that the length of the adopted water pipe is also needed to be the same as that of the steel pipe, otherwise, the whole steel pipe cannot be cleaned, the cleaning efficiency of the steel pipe cannot be effectively improved, and waste water generated after the steel pipe is cleaned is also a large problem. Therefore, it is necessary to design a novel cleaning device for the inner wall of the steel pipe, so as to overcome the problems in the prior art.

Disclosure of Invention

The invention aims to provide a cleaning device for the inner wall of a pipe, which is used for solving the problem that in the prior art, when the inner wall of a steel pipe is washed by high pressure in the cleaning process, more waste water can be generated, the cleaning cannot be effectively carried out, and the cleaning of the steel pipes with all length sizes cannot be met.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a cleaning device, comprising: the air pressure box is internally provided with an accommodating space which is used for accommodating an air pressure device for generating air pressure; exchange portion, this exchange portion sets up in this atmospheric pressure case top, and this exchange portion is inside to have accommodation space, and this exchange portion sets up with this atmospheric pressure case laminating, and this exchange portion includes: the conversion shell is connected with the air pressure box, the interior of the conversion shell is hollow, and one end of the conversion shell is connected with an air pressure outlet of the air pressure box; the conversion motor is arranged above the air pressure box, is matched and connected with the conversion shell and is used for realizing the exchange function of the exchange part; the conversion shaft is connected with the conversion motor and is driven to rotate by the conversion motor; the conversion block is connected with the conversion shaft, arranged in the conversion shell, matched and connected with the conversion shell, and rotated in the conversion shell; the transmission portion is arranged on one side of the exchange portion, an accommodating space is arranged in the transmission portion, the transmission portion is fixedly connected with the exchange portion, and the transmission portion comprises: the conducting pipe is connected with the exchange part, the inside of the conducting pipe is hollow, and the conducting pipe is detachably connected with the exchange part; the pipe joint is connected with the conduction pipe and is used for connecting and fixing the pipe; the feeding part is arranged on one side of the exchange part, an accommodating space is formed in the feeding part, and the feeding part is fixedly connected with the exchange part; the placing part is arranged on one side of the feeding part, an accommodating space is formed in the placing part, the placing part is fixedly connected with the feeding part, and the placing part is used for placing an article for cleaning the pipe; the cleaning part is connected with the conveying part, the cleaning part moves and cleans along the extending direction of the pipe, and the cleaning part is used for cleaning the pipe.

In the above technical solution, in the embodiment of the present application, the placing portion, the feeding portion, the exchanging portion, the transmitting portion, the air pressure tank, and the cleaning portion are combined, when the steel pipe is cleaned, the inner wall of the steel pipe is cleaned through the cleaning portion, and the impurities generated in the cleaning process can be recovered and stored through the recovery pipe built in the cleaning portion, so that part of the impurities can be recovered to prevent the impurities from being completely left on the inner wall of the steel pipe to affect the movement of the cleaning portion, thereby causing internal blockage Thereby the in-process can rub the steel pipe inner wall and form the secondary and wash, washs through the friction of wasing piece and steel pipe inner wall, can also realize the washing of each length steel pipe inner wall through above-mentioned device washing portion and need not to set up outside thrust unit in addition to the washing portion, reduces the device complexity.

Further, in an embodiment of the present invention, the exchanging part further includes: the pressure port is arranged below the conversion shell, the pressure port and the conversion shell are integrally arranged, and the pressure port is connected with an air pressure outlet of the air pressure box; the feed inlet is arranged above the conversion shell, the feed inlet and the conversion shell are integrally arranged, and the feed inlet is connected with the feed part; the discharge gate, this discharge gate setting are in this conversion shell one side, and this discharge gate is perpendicular setting with this feed inlet, and this discharge gate is integrative setting with this conversion shell, and this discharge gate is connected with this conveying portion. The pressurizing port, the feeding port and the discharging port are integrally connected with the conversion shell, and the pressurizing port, the feeding port and the discharging port are arranged on the same peripheral surface of the conversion shell; this conversion piece is rotatory around the centre of a circle of this discharge gate, and this conversion piece main part is cylindrically, and this conversion shell main part is the square. The automatic discharging of cleaning pieces in the placing part is realized through the exchanging part, the manual labor work is reduced, and the automatic moving of the cleaning part on the inner wall of the steel pipe can be realized under the action of the exchanging part, so that the complexity of an external device can be effectively reduced, and the structure of the device is simplified.

Further, in the embodiment of the present invention, the cleaning portion can move inside the conducting tube, the conducting tube is connected to the discharge port, the conducting tube is detachably connected to the discharge port, and an inner wall of the conducting tube is the same as an inner wall of the discharge port. The cleaning piece and the cleaning part are conveyed into the steel pipe through the connection of the conduction pipe and the steel pipe, and meanwhile, the outer peripheral surface of the conduction pipe can be provided with a discharge through hole capable of being sealed, so that after the steel pipe is cleaned, the used cleaning piece can automatically fall out from the discharge through hole of the conduction pipe, and the cleaning piece does not need to be manually taken.

Further, in an embodiment of the present invention, the feeding part further includes: the conveying pipe is connected with the conversion shell, and the interior of the conveying pipe is hollow; the connecting pipe is connected with the conveying pipe, the connecting pipe is detachably connected with the conveying pipe, and the inner wall of the connecting pipe is the same as that of the conveying pipe; the shell is connected with the connecting pipe, the shell is connected with the connecting pipe in a fitting manner, the shell is connected with the big circular groove-shaped end of the connecting pipe, the interior of the shell is hollow, and a through hole is formed in the surface of the shell; the driving motor is connected with the shell, is arranged below the shell and is in the same plane with the upper end of the connecting pipe; the driving wheel is connected with the rotating end of the driving motor; and the driven wheel is meshed and connected with the driving wheel. The connecting pipe is in a T-shaped ring shape, one end of the connecting pipe is in a big circular groove shape, the other end of the connecting pipe is in a small circular through hole, and a bearing is arranged inside the big circular groove shape of the connecting pipe; the bearing is provided with two, and this bearing separates through the wall of this shell, and this bearing is the same axle center with this through-hole. The inner surface of the housing is also provided with a circular groove in which an auxiliary bearing for positioning the driving motor is mounted. The number of cleaning parts can be controlled through the feeding part, and the cleaning parts are prevented from being gushed into the exchange part to cause the blockage of the exchange part.

Further, in an embodiment of the present invention, the placing section includes: a storage case disposed above the feeding part, the storage case having an accommodating space therein; the sealing cover is arranged on the upper surface of the storage shell and is in sealing connection with the storage shell; the stirring pipe is arranged inside the storage shell, one end of the stirring pipe is arranged in the storage shell, and the other end of the stirring pipe penetrates through the storage shell; a cleaning member disposed inside the storage case; the extrusion motor is arranged above the stirring pipe and is fixedly connected with the storage shell. The storage shell is internally provided with a fixing ring, and the fixing ring is connected with the extrusion motor to keep the extrusion motor in a fixed state. The stirring pipe is arranged in a hollow manner, is matched and connected with the extrusion motor, and keeps the same axis with the extrusion motor; the periphery of the stirring pipe is provided with a rectangular through hole which is used for being connected with the cleaning piece, the inner wall of the stirring pipe is provided with a temporary clamping ring, the temporary clamping ring intercepts the cleaning piece, and the cleaning piece is temporarily stored in the stirring pipe. The cleaning piece is arranged in a spherical shape and is matched with the stirring pipe, the exchange part and the conveying part; the moving end of the extrusion motor is provided with an extrusion plate, the cleaning piece is pushed and pressed through the extrusion plate, and the extrusion plate is matched with the inner part of the stirring pipe. The storage of a plurality of cleaning pieces is realized through the placing part, the middle part is not required to be manually added, the falling number of the cleaning pieces can be completely controlled under the matching of the feeding part, and the blockage of the exchanging part caused by the fact that the cleaning pieces enter the exchanging part is prevented from influencing the operation of the device.

Further, in an embodiment of the present invention, the cleaning part includes: the isolation plate is arranged in the conduction pipe, and the surface of the isolation plate is provided with an arc concave surface; the protective cover is connected with the isolation plate, an accommodating space is formed in the protective cover, and a limiting plate is arranged in the accommodating space; the rotating motor is arranged inside the protective cover, is positioned and fixed through the limiting plate and is arranged in the same axis with the protective cover; the placing shell is arranged on one side of the protective cover and is connected with the rotating motor, and the placing shell is driven to rotate by the rotating motor; the connecting shell is connected with the placing shell, and the interior of the connecting shell is hollow; the recycling shell is fixed with the connecting shell, the interior of the recycling shell is hollow, a recycling opening is formed in the periphery of the recycling shell, and waste materials are collected through the recycling opening; a recycling pipe connected with the recycling shell, the recycling pipe having an accommodating space therein. The isolation plate is arranged in a circular shape, the outer diameter of the isolation plate is smaller than the inner wall of the conduction pipe, and the isolation plate is not in contact with the inner wall of the conduction pipe. The protective cover is provided with a triangular upright column in shape, an adjusting plate is arranged on the outer peripheral surface of the protective cover, the adjusting plate and the protective cover are arranged in an inclined mode, one end of the adjusting plate is connected with the protective cover, the other end of the adjusting plate is connected with a pulley, the pulley is attached to the inner wall of the conducting pipe and forms a support, a spring is arranged at the joint of the adjusting plate and the protective cover, and the spring is adjusted to adapt to the inner walls of the steel pipes with different sizes. A fan blade motor is arranged in the placing shell, a through hole is formed outside the placing shell, the rotating end of the fan blade motor is connected with a blade, and a recovery air flow is formed by the fan blade motor and the blade; the inside of this recovery shell is provided with the filter screen, through the debris in this filter screen filtration air current, this filter screen setting produces the air current end at this flabellum motor. A flow distribution plate is arranged in the recovery pipe and used for dispersing and guiding the recovery airflow; the recycling pipe is connected with the recycling shell through a through hole in the periphery, and a through hole is formed in the surface of the flow dividing plate and used for airflow flowing. The recovery port is arranged in a funnel shape and is arranged on one side of the filter screen; the one end at this recovery shell is provided with selects separately the accumulator, should select separately the accumulator setting inside this accumulator, should select separately the accumulator and be the same axle center setting with this accumulator, should select separately the accumulator both ends and pass this flow distribution plate, is provided with the through-hole at the junction of this sorting accumulator and this shell. The inner wall of the steel pipe is cleaned through the cleaning part, the cleaning part is matched with the air pressure box through the cleaning piece, full-automatic movement is achieved, cleaning of the inner wall of the steel pipe with each length is achieved, and sundries generated in the cleaning process can be recovered through the built-in recovery shell in the cleaning process, so that the sundries are prevented from being accumulated on the inner wall of the steel pipe to affect movement of the cleaning part, and blockage of the cleaning part in the steel pipe is caused.

Further, in an embodiment of the present invention, the cleaning part further includes: the washing shaft is connected with the recovery pipe, and the periphery of the washing shaft is attached to and contacted with the conduction pipe; the storage shell is connected with the recycling shell, the storage shell is arranged on the periphery of the recycling shell, an accommodating space is arranged in the storage shell, the storage shell is circular, and the storage shell reduces the leakage of sundries when the sundries are stored; the cover is arranged at two ends of the recovery pipe, and the surface of the cover is provided with a through hole; the rotation division board is connected with the recovery pipe, the rotation division board is movably connected with the recovery pipe, and a rotating bearing is arranged at the joint of the rotation division board and the recovery pipe. The number of the brushing shafts is two, and the brushing shafts drive the recovery shell to rotate through the rotating motor so as to clean the inner wall of the pipe along with the rotation. The surface of the rotating isolation plate is provided with an arc concave surface, the isolation plate is arranged in a circular shape, the outer diameter of the isolation plate is smaller than the inner wall of the conduction pipe, and the isolation plate is not in contact with the inner wall of the conduction pipe. The rotation division board through the cleaning part can also realize the automatic movement of cleaning part when wasing the second steel pipe, and not only unilateral washing has realized the reciprocating motion of device, improves the cleaning efficiency.

The embodiment of the invention also discloses a cleaning method, which comprises the following steps:

fixing the pipe, namely fixing the pipe at the pipe joint of the conveying part, and fixing two ends of the pipe to form a sealing arrangement;

putting the cleaning parts, conveying the cleaning parts in the storage shell to the exchange part through the feeding part, conveying the cleaning parts to the conveying part through the exchange part, and then contacting the cleaning part;

the switching part is started to rotate the rotating block when the cleaning part is contacted with the cleaning part, so that the connection between the air pressure device and the conveying part is realized, the air pressure generated by the starting of the air pressure device can move towards the direction of the pipe in the conveying part, the pressure of the air pressure can push the cleaning part to move so as to drive the cleaning part to move, and the cleaning of the inner wall of the pipe is realized;

the pipe is replaced, after the cleaning part passes through the whole pipe, the cleaning part and the cleaning part reach the cleaning device arranged at the other end of the pipe, at the moment, the pipe is cleaned, and the pipe is detached and replaced by the pipe to be cleaned;

and repeating the steps, namely repeating the steps after the pipe to be cleaned is replaced, wherein the cleaning device works alternately.

Further, the embodiment of the invention also discloses: when the pipe cleaning device is used for switching to move, the pulley of the cleaning part can move on the inner wall of the pipe, the inner wall of the pipe is cleaned in the moving process, and sundries generated during cleaning can be recovered by the fan blade motor inside the cleaning part during cleaning of the cleaning part, so that the cleaning part is prevented from being influenced by accumulation in the pipe.

Further, the embodiment of the invention also discloses: when this washing portion removed the washing, should wash and tubular product be that the laminating sets up can produce the friction to the tubular product inner wall at the promotion of atmospheric pressure removal in-process with tubular product to carry out the secondary and wash the cleaning performance who guarantees the tubular product inner wall.

The invention has the beneficial effects that: firstly, the cleaning device provided by the invention can improve the cleaning efficiency of the steel pipe in the steel pipe cleaning process, and simultaneously improve the cleaning effect of the steel pipe, thereby realizing the cleaning of the steel pipes with various lengths. Firstly, the placing part and the feeding part control the quantity of the cleaning pieces before the steel pipe is cleaned to prevent excessive cleaning pieces from falling into the conveying part to cause the blockage of the conveying part, the quantity of the cleaning pieces is controlled by the stirring pipe in the conveying process of the cleaning pieces, when the cleaning pieces need to fall into the conveying part, the extrusion motor arranged above the stirring pipe pushes the cleaning pieces to fall downwards so as to enter the conveying part, under the condition that the extrusion motor is not started, the cleaning piece in the stirring pipe can not automatically fall down, and simultaneously, the blockage of the stirring pipe caused by the fact that other cleaning pieces in the placing part flow into the stirring pipe can be effectively prevented, thereby realize improving whole cleaning efficiency to the control of cleaning member number through the combination of placing portion and feeding portion, prevent the emergence of the interior jam condition of device, the cleaning member also is the cleaning performance that the spheroid that has the cleaning performance guarantees the steel pipe inner wall simultaneously. Secondly, when the cleaning piece enters the conveying part through the exchange part, the exchange part starts to seal the channels of the conveying part and the feeding part to prevent the redundant cleaning piece from falling, which can ensure that the redundant cleaning piece does not exist in the conveying part when the extrusion motor fails, and reduce the occurrence of the blockage of the device, when the channels of the conveying part and the feeding part are sealed by the exchange part, the channels of the conveying part and the air pressure box are opened, at the moment, the air pressure device in the air pressure box starts to generate air pressure which is transmitted into the conveying part through the channels, and the cleaning piece in the conveying part is attached to the inner wall of the steel pipe, at the moment, the air pressure of the air pressure device can push the cleaning piece and the cleaning part to move to one end with low air pressure, so that the automatic cleaning of the cleaning piece and the cleaning part is realized, the structural complexity of the device can be effectively reduced through the device, and the device can be used for the steel pipes with various, need not to differ according to steel pipe length, and reform transform. Thirdly, the cleaning part moves on the inner wall of the steel pipe through a pulley when the inner wall of the steel pipe is cleaned, the inner wall of the steel pipe is cleaned through the cleaning shaft, the washing shaft is rotatably cleaned on the inner wall of the steel pipe through the rotating motor, so that the inner wall of the steel pipe can be completely cleaned, impurities cleaned by the washing shaft can be recovered by the aid of backflow airflow generated by starting of a fan blade motor arranged in the cleaning part during cleaning, the impurities can be prevented from falling on the inner wall of the steel pipe to affect movement of the cleaning part, and collected impurities can be stored by a storage shell arranged in the cleaning part to prevent secondary falling of the impurities from affecting cleaning effect.

Drawings

The present application is further described below with reference to the drawings and examples.

FIG. 1 is a schematic perspective view of a cleaning apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a placing part of a washing device according to an embodiment of the present invention.

FIG. 3 is a schematic view of the internal structure of the placing part of the washing device according to the embodiment of the present invention.

FIG. 4 is a schematic diagram of the external structure of the feeding part of the cleaning device according to the embodiment of the present invention.

FIG. 5 is a schematic view of the internal structure of the feeding section of the cleaning apparatus according to the embodiment of the present invention.

FIG. 6 is a schematic view of another internal structure of the feeding portion of the cleaning apparatus according to the embodiment of the present invention.

FIG. 7 is a schematic perspective view of the interior of the feeding portion of the cleaning apparatus according to the embodiment of the present invention.

FIG. 8 is a perspective view of an exchange part of the cleaning apparatus according to the embodiment of the present invention.

FIG. 9 is a schematic diagram of the internal components of the exchange part of the cleaning apparatus according to the embodiment of the present invention.

FIG. 10 is a schematic view of the conveying part of the cleaning apparatus according to the embodiment of the present invention.

FIG. 11 is a schematic view of the internal structure of the cleaning part of the cleaning apparatus according to the embodiment of the present invention.

FIG. 12 is an enlarged view of a cleaning part of the cleaning apparatus according to the embodiment of the present invention.

FIG. 13 is a schematic perspective view of the inside of the exchange part of the cleaning apparatus according to the embodiment of the present invention.

In the attached drawings

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1, 9, 10, and 13, the present embodiment discloses a cleaning apparatus including: the device comprises a pneumatic box 600, an exchange part 300, a conversion shell 301, a conversion motor 302, a conversion shaft, a conversion block, a transmission part 400, a conduction pipe 402, a pipe joint 401, a feeding part 200 and a cleaning part 700. The inside accommodation space that has of atmospheric pressure case 600, accommodation space are used for placing the atmospheric pressure device that produces atmospheric pressure, and exchange portion 300 sets up in atmospheric pressure case 600 top, and exchange portion 300 is inside to be cavity, and exchange portion 300 and atmospheric pressure case 600 laminating set up, and exchange portion 300 includes: conversion shell 301 connects pneumatic chamber 600, conversion shell 301 is inside to be cavity, conversion shell 301 below is connected with the atmospheric pressure export of pneumatic chamber 600, conversion motor 302 sets up in pneumatic chamber 600 top, conversion motor 302 is connected with conversion shell 301 cooperation, conversion motor 302 is used for realizing the switching function of exchange portion 300, the switching shaft is connected with conversion motor 302, the switching shaft drives rotatoryly through conversion motor 302, the conversion piece is connected with the switching shaft, the conversion piece sets up inside conversion shell 301, the conversion piece is connected with conversion shell 301 inside cooperation, the conversion piece rotates in the inside of conversion shell 301, transfer unit 400 sets up in exchange portion 300 left side, transfer unit 400 is inside to be cavity, transfer unit 400 and exchange portion 300 fixed connection, transfer unit 400 includes: exchange portion 300 is connected to conduction pipe 402, and conduction pipe 402 is inside to be the cavity setting, and conduction pipe 402 is to dismantle with exchange portion 300 and is connected, and conduction pipe 402 is inside to supply cleaning portion 700 to remove, and conduction pipe 402 connects discharge gate 306, and conduction pipe 402 is to dismantle with discharge gate 306 and is connected, and conduction pipe 402 inner wall is same size with discharge gate 306 inner wall. Through being connected with the steel pipe 500 through conduction pipe 402 and in carrying the washing piece 106 to steel pipe 500 with washing portion 700, the outer peripheral face of conduction pipe 402 can be provided with the ejection of compact through-hole that can seal simultaneously to after the washing of steel pipe 500 was accomplished, used washing piece 106 can fall out from the ejection of compact through-hole department of conduction pipe 402 automatically, need not the manual work and gets and take. The pipe joint 401 is connected with the conducting pipe 402, the pipe joint 401 is used for connecting and fixing pipes, the feeding portion 200 is arranged above the exchanging portion 300, the feeding portion 200 is internally hollow, the feeding portion 200 is fixedly connected with the exchanging portion 300, the placing portion 100 is arranged above the feeding portion 200, the placing portion 100 is internally hollow, the placing portion 100 is fixedly connected with the feeding portion 200, the placing portion 100 is used for placing objects for cleaning the pipes, the cleaning portion 700 is connected with the conveying portion 400, the cleaning portion 700 is moved and cleaned along the extending direction of the pipes, and the cleaning portion 700 is used for cleaning the pipes. The inside induction system that is provided with of coupling 401 detects the inside atmospheric pressure of counter pipe 402 through induction system, prevents that conduction pipe 402 from wasing to appear blockking up or atmospheric pressure unstability back conduction pipe 402 internal gas pressure increase to triggering induction system to cutting equipment operating condition carries out equipment troubleshooting, prevents that equipment from damaging, reduces the not up to standard condition of steel pipe 500 cleaning performance and takes place. Still be provided with the collection passageway in the periphery of conduction pipe 402, it is provided with the temporary storage case to connect in the one end of collecting the passageway, preserve the used scavenging ball through the temporary storage case, thereby carry out recovery processing reutilization, be provided with infrared induction in the collection passageway, wash the back at steel pipe 500 through infrared induction, the scavenging ball falls into the temporary storage case through the collection passageway that sets up, thereby can contact the infrared induction when falling into the temporary storage case and open the confined mouth of collection passageway and fall into the temporary storage case, before not falling into the scavenging ball in the collection passageway, the collection passageway keeps airtight state, prevent that the inside atmospheric pressure of conduction pipe 402 is unstable and influence work efficiency, after the scavenging ball falls into the collection passageway, the air pressure device in the atmospheric pressure case 600 also stops work, then carry out the change of steel pipe 500, wash next steel pipe 500. Through the combination installation of the placing part 100, the feeding part 200, the exchanging part 300, the conveying part 400, the air pressure box 600 and the cleaning part 700, when the steel pipe 500 is cleaned, the inner wall of the steel pipe 500 is cleaned through the cleaning part 700, impurities generated in the cleaning process can be recovered and stored through the recovery pipe 715 arranged in the cleaning part 700, partial impurities can be recovered and prevented from being totally remained on the inner wall of the steel pipe 500 to influence the movement of the cleaning part 700, so that the inner blockage is caused, when the cleaning part 700 cleans the inner wall of the steel pipe 500, in order to improve the cleaning effect, the wall surface of the steel pipe 500 is cleaned for the second time through the placing part 100, the feeding part 200, the exchanging part 300 and the conveying part 400, the cleaning piece 106 arranged in the placing part 100 can move simultaneously with the cleaning part 700, and the cleaning part 700 can be pushed to move when the cleaning piece 106 moves towards the inner wall of the steel pipe 500 under the air pressure generated by, realize steel pipe 500's complete clearance, thereby it can rub steel pipe 500 inner wall at the removal in-process because cleaning member 106 and steel pipe 500 inner wall are the laminating setting so cleaning member 106 and form the secondary and wash to remove the in-process because cleaning member 106 removes, wash through the friction of cleaning member 106 with steel pipe 500 inner wall, can also realize through above-mentioned device cleaning part 700 that the washing of each length steel pipe 500 inner wall need not to set up outside thrust unit in addition to cleaning part 700, reduce the device complexity.

The control of the number of the cleaning members 106 before the cleaning of the steel pipe 500 by the placing part 100 and the feeding part 200 prevents the excessive cleaning members 106 from falling into the conveying part 400, causing the blockage of the conveying part 400, the cleaning members 106 are controlled in quantity by the stirring pipe 103 during the conveyance of the cleaning members 106, when the cleaning member 106 is required to fall into the conveying section 400, the pressing unit 104 provided above the agitation pipe 103 pushes the cleaning member 106 downward into the conveying section 400, in the case that the single extruding machine 104 is not started, the cleaning member 106 in the agitating pipe 103 cannot automatically fall down, and simultaneously, the rest cleaning pieces 106 in the placing part 100 can be effectively prevented from flowing into the stirring pipe 103 to cause the blockage of the stirring pipe 103, the combination of the placing part 100 and the feeding part 200 realizes the control of the number of the cleaning pieces 106, thereby improving the whole cleaning efficiency, preventing the blockage in the device, meanwhile, the cleaning piece 106 is also a sphere with a cleaning effect to ensure the cleaning effect of the inner wall of the steel pipe 500.

As shown in fig. 8 and 9, the exchange unit 300 further includes: the pressure port 307 is arranged below the conversion shell 301, the pressure port 307 and the conversion shell 301 are integrally arranged, the pressure port 307 is connected with an air pressure outlet of the air pressure box 600, the feed port 305 is arranged above the conversion shell 301, the feed port 305 and the conversion shell 301 are integrally arranged, the feed port 305 is connected with the feed part 200, the discharge port 306 is arranged on the right side of the conversion shell 301, the discharge port 306 is vertically arranged with the feed port 305, the discharge port 306 and the conversion shell 301 are integrally arranged, and the discharge port 306 is connected with the conveying part 400. The pressurizing port 307, the feed port 305 and the discharge port 306 are integrally connected with the conversion shell 301, and the pressurizing port 307, the feed port 305 and the discharge port 306 are all arranged on the same peripheral surface of the conversion shell 301; the conversion block rotates around the center of the discharge hole 306, the main body of the conversion block is cylindrical, and the main body of the conversion shell 301 is square. The automatic discharging of the cleaning pieces 106 in the placing part 100 is realized through the exchange part 300, the manual labor work is reduced, and the automatic moving of the cleaning part 700 on the inner wall of the steel pipe 500 can be realized under the action of the exchange part 300, so that the complexity of an external device can be effectively reduced, and the device structure is simplified. When the cleaning piece 106 enters the conveying part 400 through the exchange part 300, the exchange part 300 starts to seal the channel between the conveying part 400 and the feeding part 200 to prevent the redundant cleaning piece 106 from falling, which can ensure that the redundant cleaning piece 106 does not exist in the conveying part 400 when the extrusion single machine 104 fails, thereby reducing the occurrence of the blockage of the device, when the exchange part 300 seals the channel between the conveying part 400 and the feeding part 200, the channel between the conveying part 400 and the air pressure box 600 is opened, at the moment, the air pressure device in the air pressure box 600 starts to generate air pressure to be transmitted into the conveying part 400 through the channel, when the cleaning piece 106 in the conveying part 400 is attached to the inner wall of the steel pipe 500, at the moment, the air pressure of the air pressure device can push the cleaning piece 106 and the cleaning part 700 to move to one end with low air pressure, thereby realizing the automatic cleaning of the cleaning piece 106 and the cleaning part 700, and effectively reducing the complexity of the structure of the device through the, adopt above-mentioned device to remove simultaneously and can be used for the steel pipe 500 of various length, need not to vary according to steel pipe 500 length, and reform transform.

As shown in fig. 4, 5, 6, and 7, the feeding portion 200 further includes: the conveying pipe 202, the connecting pipe 208, the shell 201, the driving motor 203, the driving wheel 205 and the driven wheel 204. Conversion shell 301 is connected to conveyer pipe 202, the inside cavity setting that is of conveyer pipe 202, conveyer pipe 202 is connected to connecting pipe 208, connecting pipe 208 is to dismantle with conveyer pipe 202 and is connected, connecting pipe 208 inner wall is same size with conveyer pipe 202 inner wall, connecting pipe 208 is connected to shell 201, shell 201 is the laminating with connecting pipe 208 and is connected, shell 201 links to each other with the great circular slot form end of connecting pipe 208, the inside cavity setting that is of shell 201, shell 201 surface is opened there is circular through-hole, driving motor 203 connects shell 201, driving motor 203 sets up the below at shell 201, driving motor 203 is the coplanar with connecting pipe 208 upper end, driving motor 203's rotatory end is connected to action wheel 205, from driving wheel 204 and action wheel 205 meshing connection. The connecting pipe 208 is in a T-shaped ring shape, one end of the connecting pipe 208 is in a big circular groove shape, the other end of the connecting pipe 208 is in a small circular through hole, and a bearing 206 is arranged inside the big circular groove shape of the connecting pipe 208; two bearings 206 are arranged, the bearings 206 are separated by the wall surface of the shell 201, and the bearings 206 and the through holes are in the same axis. The inner surface of the housing 201 is also provided with a circular groove in which an auxiliary bearing 207 is installed, the auxiliary bearing 207 being used to position the driving motor 203. The number of the cleaning pieces 106 can be controlled by the feeding portion 200, and the cleaning pieces 106 are prevented from flowing into the exchanging portion 300 to block the exchanging portion 300.

As shown in fig. 2 and 3, the placement section 100 includes: a storage shell 102, a sealing cover 101, a stirring pipe 103, a cleaning piece 106 and a single extruding machine 104. Storage shell 102 sets up in feed portion 200 top, and storage shell 102 is inside to be cavity, and sealed lid 101 sets up at storage shell 102 upper surface, and sealed lid 101 forms sealing connection with storage shell 102, and the agitator tube 103 sets up inside storage shell 102, and agitator tube 103 one end sets up in storage shell 102, and the other end passes storage shell 102, and cleaning member 106 sets up inside storage shell 102, and extrusion unit 104 sets up in agitator tube 103 top, extrusion unit 104 and storage shell 102 fixed connection. The storage shell 102 is provided with a fixing ring inside, and the single extrusion press 104 is connected with the fixing ring, so that the single extrusion press 104 is kept in a fixed state. The stirring pipe 103 is arranged in a hollow manner, the stirring pipe 103 is connected with the single extrusion machine 104 in a matching manner, and the stirring pipe 103 and the single extrusion machine 104 are arranged in the same axis; the periphery of agitator pipe 103 is opened there is the rectangle through-hole, and the through-hole is used for connecting and washs piece 106, is provided with temporary snap ring at agitator pipe 103 inner wall, and temporary snap ring forms the interception to wasing piece 106, will wash and keep in inside agitator pipe 103 piece 106. The cleaning piece 106 is arranged in a spherical shape, and the cleaning piece 106 is matched with the stirring pipe 103, the exchange part 300 and the conveying part 400; the moving end of the single pressing unit 104 is provided with a pressing plate 105, and the cleaning member 106 is pressed by the pressing plate 105, and the pressing plate 105 is fitted to the inside of the agitation pipe 103. The stirring pipe 103 and the driven wheel 204 are in a connection state, through the connection of the stirring pipe 103 and the driven wheel 204, when the driving wheel 205 is driven by the driving motor 203 to rotate, the driven wheel 204 is meshed with the driving wheel 205 and rotates simultaneously, so that the rotation of the stirring pipe 103 is realized, through holes formed in the periphery of the stirring pipe 103 under the rotation of the stirring pipe 103 automatically enable cleaning pieces 106 to enter, so that the automatic feeding effect is realized, only one cleaning piece 106 can not form the blockage of the stirring pipe 103 all the time in the stirring pipe 103 under the condition that the extrusion single machine 104 is not started, and a setting device is not used for controlling the number of the cleaning pieces 106 in the stirring pipe 103, so that the device structure is simplified, the storage of a plurality of cleaning pieces 106 is realized through the placing part 100, manual addition is not needed in the middle, meanwhile, the number of the cleaning pieces 106 can be completely controlled to fall into the exchange part 300 under the matching of the feeding part 200, and the blockage of the exchange, affecting the operation of the device.

As shown in fig. 11 and 12, the cleaning unit 700 includes: a partition plate 701, a protective cover 707, a rotating electric machine 706, a placing case 708, a connecting case 710, a recovering case 711, and a recovering pipe 715. The isolation plate 701 is arranged in the conduction pipe 402, the surface of the isolation plate 701 is provided with an arc concave surface, the arc concave surface of the isolation plate 701 is used for being matched with the cleaning part 106, the cleaning part 106 can push the cleaning part 700 to move in the steel pipe 500 for cleaning after contacting the isolation plate 701 through the arc concave surface, the protection cover 707 is connected with the isolation plate 701, the protection cover 707 is hollow, a limiting plate is arranged in the accommodating space, the rotating motor 706 is arranged in the protection cover 707, the rotating motor 706 is positioned and fixed through the limiting plate, the rotating motor 706 and the protection cover 707 are arranged on the same axis, the placing shell 708 is arranged on the right side of the protection cover 707, the placing shell 708 is connected with the rotating motor 706, the placing shell 708 is driven to rotate through the rotating motor 706, the connecting shell 710 is connected with the placing shell 708, the connecting shell 710 is hollow, the recovering shell 711 is fixed with the connecting shell 710, a sorting recovery pipe 714 is provided at the right end of the recovery case 711, impurities washed out by the sorting recovery pipe 714 are divided when passing through the recovery pipe 715, a recovery opening 720 is prevented from being excessively accumulated in the recovery case 715 at the periphery of the recovery case 711, waste materials are collected through the recovery opening 720, the recovery pipe 715 is connected to the recovery case 711, and an accommodation space is provided inside the recovery pipe 715. The isolation plate 701 is arranged in a circular shape, the outer diameter of the isolation plate 701 is smaller than the inner wall of the conducting pipe 402, and the isolation plate 701 is not in contact with the inner wall of the conducting pipe 402. The shape of the protective cover 707 is a triangular column, an adjusting plate 705 is arranged on the outer peripheral surface of the protective cover 707, the adjusting plate 705 and the protective cover 707 are arranged in an inclined mode, one end of the adjusting plate 705 is connected with the protective cover 707, the other end of the adjusting plate 705 is connected with a pulley 703, the pulley 703 is attached to the inner wall of the conduction pipe 402 to form a support, a spring is arranged at the joint of the adjusting plate 705 and the protective cover 707, and the spring is adjusted to adapt to the inner walls of the steel pipes 500 with different. A fan blade motor 709 is arranged in the placing shell 708, a through hole is formed outside the placing shell 708, a rotating end of the fan blade motor 709 is connected with a blade 712, and a recovery air flow is formed by the fan blade motor 709 and the blade 712; the interior of the recycling shell 711 is provided with a filter screen 704, impurities in the airflow are filtered through the filter screen 704, and the filter screen 704 is arranged at the airflow end generated by the fan blade motor 709. A flow distribution plate is arranged in the recovery pipe 715 and used for dispersing and guiding the recovery airflow; the recovery pipe 715 is connected to the recovery case 711 through a through hole in the periphery, and a through hole for airflow is provided in the surface of the manifold. The recycling port 720 is arranged in a funnel shape, and the recycling port 720 is arranged at the periphery of the filter screen 704; one end of the recycling shell 711 is provided with a sorting recycling pipe 715, the sorting recycling pipe 715 is arranged inside the recycling pipe 715, the sorting recycling pipe 715 and the recycling pipe 715 are arranged in the same axis, two ends of the sorting recycling pipe 715 penetrate through the splitter plate, and a through hole is arranged at the joint of the sorting recycling pipe 715 and the shell. The cleaning part 700 is used for cleaning the inner wall of the steel pipe 500, the cleaning part 700 is matched with the air pressure box 600 through the cleaning piece 106 to realize full-automatic movement, so that the inner wall of the steel pipe 500 with each length is cleaned, the built-in recovery shell 711 can recover sundries generated during cleaning, and the sundries are prevented from being accumulated on the inner wall of the steel pipe 500 to influence the movement of the cleaning part 700, so that the cleaning part 700 is blocked in the steel pipe 500. The cleaning part 700 further includes: a washing shaft 713, a storage case 719, a cover 716, and a rotating partition plate 718. The washing shaft 713 is connected with the recovery pipe 715, the periphery of the washing shaft 713 is attached to the contact conduction pipe 402, the storage shell 719 is connected with the recovery shell 711, the storage shell 719 is arranged at the periphery of the recovery shell 711, an accommodating space is arranged inside the storage shell 719, the storage shell 719 is circular, leakage of sundries is reduced when the storage shell 719 stores the sundries, the storage shell 719 rotates along with the recovery shell 711, the storage shell 719 is circular, the sundries inside the storage shell 719 rotate due to the circular arrangement of the storage shell 719, the sundries inside the storage shell 719 can be always kept at the bottommost surface of the storage shell 719 due to the arc-shaped surface, the sundries cannot leak out in the using process, and secondary cleaning is achieved.

The cover 716 is arranged at two ends of the recovery pipe 715, the surface of the cover 716 is provided with a circular through hole, the rotary isolation plate 718 is connected with the recovery pipe 715, the rotary isolation plate 718 is movably connected with the recovery pipe 715, and the rotary bearing 717 is arranged at the joint of the rotary isolation plate 718 and the recovery pipe 715. The number of the washing shafts 713 is two, and the washing shafts 713 drive the recovery shell 711 to rotate through the rotating motor 706 so as to clean the inner wall of the pipe by following rotation. The surface of the rotary isolating plate 718 is provided with an arc concave surface, the isolating plate 701 is arranged in a circular shape, the outer diameter of the isolating plate 701 is smaller than the inner wall of the conducting pipe 402, and the isolating plate 701 is not in contact with the inner wall of the conducting pipe 402. The rotary isolation plate 718 of the cleaning part 700 can automatically move the cleaning part 700 when cleaning the second steel pipe 500, so that the cleaning part 700 is not only cleaned in a single direction, but also can move back and forth, and the cleaning efficiency is improved. The cleaning part 700 realizes the movement of the inner wall of the steel pipe 500 through the pulley 703 when the inner wall of the steel pipe 500 is cleaned, the inner wall of the steel pipe 500 is cleaned through the cleaning shaft 713, the cleaning shaft 713 carries out rotary cleaning on the inner wall of the steel pipe 500 through the rotating motor 706, so that the complete cleaning of the inner wall of the steel pipe 500 can be realized, the sundries cleaned by the cleaning shaft 713 can be recovered by the return airflow generated by starting the fan blade motor 709 arranged in the cleaning part 700 during cleaning, the sundries are prevented from falling on the inner wall of the steel pipe 500 to influence the movement of the cleaning part 700, and the collected sundries can be stored by the storage shell 719 arranged in the cleaning part 700 to prevent the sundries from falling off secondarily and influencing the cleaning effect.

Finally, a cleaning method of the cleaning device is provided, which comprises the following steps:

fixing the pipe, namely fixing the pipe at a pipe joint 401 of the conveying part 400, and fixing two ends of the pipe so as to form a sealing arrangement;

a step of putting the cleaning member 106, wherein the cleaning member 106 in the storage shell 102 is conveyed to the exchange part 300 through the feeding part 200, conveyed to the conveying part 400 through the exchange part 300 and then contacted with the cleaning part 700;

the cleaning part 106 is in contact with the cleaning part 700, the exchange part 300 is started to rotate the rotating block 304, so that the connection between the air pressure device and the conveying part 400 is realized, the air pressure generated by the starting of the air pressure device can move towards the direction of the pipe in the conveying part 400, the pressure of the air pressure can push the cleaning part 106 to move so as to drive the cleaning part 700 to move, and the cleaning of the inner wall of the pipe is realized;

replacing the pipe, wherein after the cleaning part 700 passes through the whole pipe, the cleaning part 106 and the cleaning part 700 reach the cleaning device arranged at the other end of the pipe, and at the moment, the pipe is cleaned, and the pipe is detached and replaced by the pipe to be cleaned;

and repeating the steps, namely repeating the steps after the pipe to be cleaned is replaced, wherein the cleaning device works alternately.

Specifically, when the pipe cleaning device is moved in a switching mode, the pulley 703 of the cleaning part 700 can move on the inner wall of the pipe, the inner wall of the pipe can be cleaned in the moving process, and sundries generated in the cleaning process can be recycled by the fan blade motor 709 inside the cleaning part 700 when the cleaning part is cleaned, so that the cleaning part 700 is prevented from being influenced by the accumulation in the pipe.

Specifically, when cleaning portion 700 removed the washing, cleaning member 106 and tubular product be the laminating setting can produce the friction to the tubular product inner wall in the promotion of atmospheric pressure removal in-process to carry out the secondary and wash the cleaning performance who guarantees the tubular product inner wall.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (10)

1. A cleaning device for the inner wall of a pipe, comprising:

the air pressure box is internally provided with an accommodating space, and the accommodating space is used for accommodating an air pressure device for generating air pressure;

exchange portion, exchange portion sets up pneumatic chamber top, exchange portion inside has accommodation space, exchange portion with the pneumatic chamber laminating sets up, exchange portion includes:

the conversion shell is connected with the air pressure box, the interior of the conversion shell is hollow, and one end of the conversion shell is connected with an air pressure outlet of the air pressure box;

the conversion motor is arranged above the air pressure box, is matched and connected with the conversion shell and is used for realizing the exchange function of the exchange part;

the conversion shaft is connected with the conversion motor and is driven to rotate by the conversion motor;

the conversion block is connected with the conversion shaft, arranged in the conversion shell, matched and connected with the conversion shell, and rotated in the conversion shell;

the transmission part is arranged on one side of the exchange part, an accommodating space is arranged in the transmission part, the transmission part is fixedly connected with the exchange part, and the transmission part comprises:

the conducting pipe is connected with the exchange part, the inside of the conducting pipe is hollow, and the conducting pipe is detachably connected with the exchange part;

the pipe joint is connected with the conduction pipe and is used for connecting and fixing the pipe;

the feeding part is arranged on one side of the exchange part, an accommodating space is formed in the feeding part, and the feeding part is fixedly connected with the exchange part;

the placing part is arranged on one side of the feeding part, an accommodating space is formed in the placing part, the placing part is fixedly connected with the feeding part, and the placing part is used for placing an article for cleaning the tube;

the cleaning part is connected with the conveying part, the cleaning part moves and cleans along the extending direction of the pipe, and the cleaning part is used for cleaning and cleaning the pipe.

2. The pipe inner wall cleaning device according to claim 1, wherein the exchanging portion further comprises:

the pressurizing port is arranged below the conversion shell, the pressurizing port and the conversion shell are integrally arranged, and the pressurizing port is connected with an air pressure outlet of the air pressure box;

the feed inlet is arranged above the conversion shell, the feed inlet and the conversion shell are integrally arranged, and the feed inlet is connected with the feed part;

the discharge gate, the discharge gate sets up conversion shell one side, the discharge gate with the feed inlet is perpendicular setting, the discharge gate with the conversion shell is an organic whole and sets up, the discharge gate with the conveying portion is connected.

3. The cleaning device for the inner wall of the pipe material according to claim 2, wherein the pressurizing port, the feeding port and the discharging port are integrally connected with the conversion shell, and the pressurizing port, the feeding port and the discharging port are arranged on the same peripheral surface of the conversion shell;

the conversion block rotates around the circle center of the discharge hole, the conversion block main body is cylindrical, and the conversion shell main body is square.

4. The pipe inner wall cleaning device according to claim 1, wherein the cleaning part can move inside the conduction pipe, the conduction pipe is connected with the discharge port, the conduction pipe is detachably connected with the discharge port, and the inner wall of the conduction pipe is the same as the inner wall of the discharge port.

5. The pipe inner wall cleaning device according to claim 1, wherein the feeding section further comprises:

the conveying pipe is connected with the conversion shell, and the interior of the conveying pipe is hollow;

the connecting pipe is connected with the conveying pipe, the connecting pipe is detachably connected with the conveying pipe, and the inner wall of the connecting pipe is the same as that of the conveying pipe;

the shell is connected with the connecting pipe, the shell is connected with the connecting pipe in a fitting manner, the shell is connected with the big circular groove-shaped end of the connecting pipe, the interior of the shell is hollow, and a through hole is formed in the surface of the shell;

the driving motor is connected with the shell, is arranged below the shell and is in the same plane with the upper end of the connecting pipe;

the driving wheel is connected with the rotating end of the driving motor;

and the driven wheel is meshed and connected with the driving wheel.

6. The cleaning device for the inner wall of the pipe material according to claim 5, wherein the connecting pipe is in a T-shaped ring shape, one end of the connecting pipe is in a large circular groove shape, the other end of the connecting pipe is in a small circular through hole, and a bearing is arranged inside the large circular groove shape of the connecting pipe;

the bearing is provided with two, the bearing passes through the wall of shell separates, the bearing with the through-hole is same axle center.

7. The pipe inner wall cleaning device according to claim 5, wherein the housing inner surface is further provided with a circular groove, and an auxiliary bearing is installed in the circular groove, and the auxiliary bearing is used for positioning the driving motor.

8. The pipe inner wall cleaning device according to claim 1, wherein the placement portion includes:

a storage case disposed above the feeding part, the storage case having an accommodating space therein;

the sealing cover is arranged on the upper surface of the storage shell and is in sealing connection with the storage shell;

the stirring pipe is arranged inside the storage shell, one end of the stirring pipe is arranged in the storage shell, and the other end of the stirring pipe penetrates through the storage shell;

a cleaning member disposed inside the storage case;

the extrusion motor is arranged above the stirring pipe and fixedly connected with the storage shell.

9. The cleaning device for the inner wall of the pipe material according to claim 8, wherein a fixing ring is arranged inside the storage shell, and the extrusion motor is connected through the fixing ring to keep the extrusion motor in a fixed state.

10. The cleaning device for the inner wall of the pipe according to claim 8, wherein the stirring pipe is arranged in a hollow manner, the stirring pipe is connected with the extrusion motor in a matching manner, and the stirring pipe and the extrusion motor are arranged coaxially; the periphery of stirring pipe is opened there is the rectangle through-hole, the through-hole is used for connecting wash the piece the stirring pipe inner wall is provided with temporary snap ring, temporary snap ring is right it forms the interception to wash the piece, will it keeps in to wash the piece the stirring intraduct.

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