CN111663635A

CN111663635A - Device for cleaning dirt in pipeline

Info

Publication number: CN111663635A
Application number: CN202010564984.1A
Authority: CN
Inventors: 张虽龙
Original assignee: Wenzhou Luri Intelligent Technology Co ltd
Current assignee: Wenzhou Luri Intelligent Technology Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-09-15

Abstract

The invention discloses a device for cleaning dirt in a pipeline, which comprises a support and a base fixed at the lower end of the support, the right end of the support is connected with two chucks in a vertical sliding way, a pipeline is arranged between the upper chuck and the lower chuck, the pipeline is clamped by the two chucks, a pipeline inner cavity which is communicated from left to right is arranged in the pipeline, the piston is arranged in the inner cavity of the pipeline in a left-right sliding manner, the telescopic block is arranged on the right side of the piston in a left-right sliding manner, the invention can automatically clean the residue and dirt on the inner wall of the waste water pipeline, saves a large amount of manpower and material resources, and can clean the pipelines with different inner diameters, improve the application range, and separately store the cleaning solution and the clear water during cleaning, can improve the quality guarantee period of the cleaning solution, in addition, solid-liquid separation is carried out on the cleaned waste, secondary recycling can be carried out, and recycling of water resources is improved.

Description

Device for cleaning dirt in pipeline

Technical Field

The invention relates to the field of pipeline cleaning, in particular to a device for cleaning dirt in a pipeline.

Background

The construction of a factory develops more and more quickly, so that a large amount of wastes such as sewage and the like can be generated and discharged from a pipeline, the inner wall is attached with a large amount of dirt and is difficult to clean after the pipeline is used for a long time, the pipeline cleaning process needs to be finished in multiple steps at present, the specific operation is complex, sometimes, the pipeline is placed for a long time, the dirt on the inner wall is firmly attached to the inner wall of the pipeline, the cleaning difficulty is increased, even the pipeline is cleaned after being soaked for a period of time, a large amount of time and manpower and material resources are wasted, and the problem that the pipeline is not cleaned cleanly exists.

Disclosure of Invention

In order to solve the problems, the embodiment designs a device for cleaning the dirt of the pipeline, the device for cleaning the dirt of the pipeline comprises a support and a base fixed at the lower end of the support, two chucks are vertically and slidably connected at the right end of the support, a pipeline is arranged between the upper chuck and the lower chuck and is clamped by the two chucks, a pipeline inner cavity which is through from left to right is arranged in the pipeline, a piston is arranged in the pipeline inner cavity in a sliding manner from left to right, a telescopic block is arranged in the piston in a sliding manner from left to right, the telescopic block has elasticity, a fixed cavity is arranged in the telescopic block in a penetrating manner from left to right, a connecting block is arranged in the fixed cavity, the left end of the connecting block is fixedly connected with the piston, a linkage motor is fixedly arranged in the connecting block, six connecting shafts are fixedly connected on the circumferential surface of the connecting block, and are distributed, a connecting spring is fixedly connected between one end, away from the connecting block, of the connecting shaft and the inner wall of the fixed cavity, a sponge is fixedly connected to the outer end face of the telescopic block, the sponge is attached to the inner wall of the inner cavity of the pipeline and is used for wiping the inner wall of the inner cavity of the pipeline, the telescopic block and the sponge are extruded under the elastic action of the connecting spring, and then the telescopic block and the sponge can adapt to the inner cavities of the pipeline with different inner diameters, so that the sponge can be kept to be attached to the inner wall of the inner cavity of the pipeline all the time;

the right end of the linkage motor is in power connection with a rotating long shaft, a rotating block is rotatably arranged on the right side of the connecting block, the right end of the rotating long shaft is fixedly connected with the rotating block, the left end of the rotating block is fixedly connected with a fixed plate, a long shaft inner cavity is arranged in the fixed plate in a left-right through mode, the fixed plate is in clearance fit connection with the rotating long shaft through the long shaft inner cavity, a cutter fixed plate is arranged on the outer side of the fixed plate and has elasticity, twelve buffer springs are connected between the fixed plate and the cutter fixed plate, four blade sets are connected to the end face, far away from the fixed plate, of the cutter fixed plate, four blade sets are distributed in an annular array mode with the fixed plate as a symmetrical center, each blade set is provided with four blades, the four blades are uniformly and fixedly connected to, the blade can abut against the inner wall of the inner cavity of the pipeline, the inner wall of the inner cavity of the pipeline is cleaned through the blade, the linkage motor is started, the rotating block is driven to rotate through the rotating long shaft, the fixing plate is driven to rotate, the cutter fixing plate and the blade are driven to rotate through the buffer spring, and the inner wall of the inner cavity of the pipeline is cleaned through the blade; the water pump is fixedly arranged in the rotating block, the right end of the rotating block is fixedly connected with a liquid separating plate, a cleaning liquid cavity and a clear water cavity are arranged in the liquid separating plate, clear water and cleaning liquid are stored in the cleaning liquid cavity and the clear water cavity respectively, a cleaning liquid pipeline and a clear water pipeline are connected between the water pump and the cleaning liquid cavity and the clear water cavity respectively, water outlet pipelines are fixedly connected at the upper end and the lower end of the water pump, a storage box is fixedly connected on the outer end face of the rotating block, a liquid storage cavity is arranged in the storage box, the water outlet pipeline is communicated with the liquid storage cavity, a water spray nozzle is fixedly connected on the outer end face of the storage box, the water spray nozzle is communicated with the liquid storage cavity, the water pump is started, and then the cleaning liquid cavity and the clear water in the clear water cavity are sucked into the water pump through the, and then pass through the water pump, will mix the cleaning solution through outlet conduit the liquid stores the chamber and the water jet spouts on the inner wall of pipeline inner chamber, the cleaning solution shelf life after the mixture is short, separately preserves the shelf life that can improve the cleaning solution with cleaning solution and clear water.

Beneficially, be equipped with two openings right guide rails in the support, two the chuck left end is located in the guide rail and along the guide rail slides from top to bottom, the chuck is kept away from pipeline one end with chuck spring has been linked firmly between the guide rail inner wall make under chuck spring's the spring action chuck can press from both sides tightly the pipeline.

Beneficially, an inner cavity is formed in the support, a transmission motor is fixedly arranged at the rear end of the inner cavity, a rotation shaft is dynamically connected to the front end of the transmission motor, an eccentric wheel is fixedly connected to the front end of the rotation shaft, a fixed shaft is fixedly connected to the front end of the eccentric wheel, a connecting rod is rotatably connected to the fixed shaft, one end, far away from the fixed shaft, of the connecting rod is rotatably connected to the piston, the transmission motor is started, the eccentric wheel is further driven to rotate through the rotation shaft, the fixed shaft is further driven to rotate in an eccentric circular mode, the connecting rod is further driven to reciprocate through the fixed shaft, and the piston is further driven to slide in a reciprocating.

Beneficially, a rotary motor is fixedly arranged in the right end of the base, a filter screen is fixedly connected to the inner side of the right end of the base, an upper hole is formed in the upper end face of the filter screen close to the inner side of the right end of the base, a filter screen inner cavity with a leftward opening is formed in the filter screen, a helical blade is in power connection with the left end of the rotary motor and is arranged in the filter screen inner cavity, a filter water channel is formed in the upper end face of the base, four filter water outlets which are uniformly arranged are formed in the left lower side of the filter water channel and are communicated with the four filter water outlets, a residue cavity is formed in the base and is located on the left side of the filter screen, a residue outlet is formed in the lower end of the residue cavity and is communicated with the lower end of the residue cavity, the rotary motor, the waste flows into the inner cavity of the filter screen through the upper hole, the spiral blade moves spirally to drive the waste to move leftwards, when the waste moves leftwards in the inner cavity of the filter screen, liquid in the waste flows into the filter water channel through the lower end of the filter screen and flows out from the filter water outlet, the residual residue after dehydration is conveyed to the residue cavity and then is discharged from the inner cavity of the filter screen, the subsequent treatment on the residue is facilitated, and the separated liquid can be reused.

Beneficially, the support right end and the pipeline left end are elastically connected through an expansion spring, the support right end is fixedly connected to the expansion spring left end, the expansion spring right end is in contact with the pipeline left end, and when the inner wall of the inner cavity of the pipeline is cleaned, the expansion spring assists in disassembling the pipeline.

Beneficially, fixed intracavity wall is last to be fixed and is equipped with six guide sleeve, six guide sleeve links firmly the flexible piece is kept away from the one end of sponge, the inside link up of guide sleeve is equipped with the coupling spring chamber, coupling spring is located the coupling spring intracavity, works as the sponge receives the extrusion, drives flexible piece inwards extrudees, drives coupling spring when inwards extruding, guide sleeve plays the guide effect, prevents coupling spring slope deformation in extrusion process.

The invention has the beneficial effects that: the waste water pipeline cleaning device can automatically clean residual dirt on the inner wall of a waste water pipeline, saves a large amount of manpower and material resources, can clean pipelines with different inner diameters, improves the application range, can separately store cleaning solution and clear water during cleaning, can prolong the quality guarantee period of the cleaning solution, and can perform solid-liquid separation on the cleaned waste, thereby performing secondary recycling and improving the recycling of water resources.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a device for cleaning dirt in a pipeline according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged schematic view of "B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 3;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a device for cleaning dirt in a pipeline, which comprises a support 50 and a base 18 fixed at the lower end of the support 50, wherein the right end of the support 50 is connected with two chucks 29 in an up-down sliding manner, a pipeline 21 is arranged between the two chucks 29, the pipeline 21 is clamped by the two chucks 29, a pipeline inner cavity 60 which is through from left to right is arranged in the pipeline 21, a piston 33 is arranged in the pipeline inner cavity 60 in a left-right sliding manner, an expansion block 53 is arranged in the piston 33 in a left-right sliding manner, the expansion block 53 has elasticity, a fixed cavity 51 is arranged in the expansion block 53 in a left-right through manner, a connecting block 52 is arranged in the fixed cavity 51, the left end of the connecting block 52 is fixedly connected with the piston 33, a linkage motor 32 is fixedly arranged in the connecting block 52, six connecting shafts 54 are fixedly connected on the circumferential surface of the connecting block 52, and the six connecting shafts, a connecting spring 30 is fixedly connected between one end of the connecting shaft 54, which is far away from the connecting block 52, and the inner wall of the fixed cavity 51, a sponge 31 is fixedly connected on the outer end face of the telescopic block 53, the sponge 31 is attached to the inner wall of the pipeline inner cavity 60 and wipes the inner wall of the pipeline inner cavity 60, the telescopic block 53 and the sponge 31 are extruded under the elastic action of the connecting spring 30, and then the telescopic block 53 and the sponge 31 can adapt to the pipeline inner cavities 60 with different inner diameters, so that the sponge 31 can be always kept attached to the inner wall of the pipeline inner cavity 60; the right end of the linkage motor 32 is in power connection with a rotating long shaft 37, the right side of the connecting block 52 is rotatably provided with a rotating block 62, the right end of the rotating long shaft 37 is fixedly connected with the rotating block 62, the left end of the rotating block 62 is fixedly connected with a fixed plate 36, a long shaft inner cavity 59 is arranged in the fixed plate 36 in a left-right through manner, the fixed plate 36 is in clearance fit connection with the rotating long shaft 37 through the long shaft inner cavity 59, a cutter fixed plate 40 is arranged on the outer side of the fixed plate 36 and has elasticity, twelve buffer springs 39 are connected between the fixed plate 36 and the cutter fixed plate 40, four blade sets are connected on the end face, far away from the fixed plate 36, of the cutter fixed plate 40, the four blade sets are distributed in an annular array mode by taking the fixed plate 36 as a symmetric center, each blade set is provided with four blades 41, the cutter fixing plate 40 is extruded under the elastic force of the buffer spring 39, so that the blade 41 can abut against the inner wall of the pipeline inner cavity 60, the inner wall of the pipeline inner cavity 60 is cleaned through the blade 41, the linkage motor 32 is started, the rotating block 62 is driven to rotate through the rotating long shaft 37, the fixing plate 36 is driven to rotate, the cutter fixing plate 40 and the blade 41 are driven to rotate through the buffer spring 39, and the inner wall of the pipeline inner cavity 60 is cleaned through the blade 41; rotatory piece 62 internal fixation has water pump 48, rotatory piece 62 right-hand member has linked firmly liquid separation board 49, be equipped with clean liquid chamber 28 and clear water chamber 27 in the liquid separation board 49, clean liquid chamber 28 with clear water and cleaning solution are stored respectively in the clear water chamber 27, water pump 48 with clean liquid chamber 28 and be connected with cleaning solution pipeline 47 and clear water pipeline 46 between the clear water chamber 27 respectively, both ends have linked firmly outlet conduit 43 about water pump 48, link firmly bin 64 on the outer terminal surface of rotatory piece 62, be equipped with liquid storage chamber 45 in the bin 64, outlet conduit 43 with liquid storage chamber 45 is linked together, link firmly water jet 42 on the outer terminal surface of bin 64, water jet 42 with liquid storage chamber 45 is linked together, starts water pump 48, and then through cleaning solution pipeline 47 with clear water 46 will clean liquid chamber 28 and cleaning solution pipeline and clear water in the clear water chamber 27 inhale the clear water go on in the water pump 48 Mix, and then through water pump 48, will mix the cleaning solution through outlet conduit 43 chamber 45 is stored to liquid and water jet 42 spouts on the inner wall of pipeline inner chamber 60, the cleaning solution shelf life after mixing is short, separately preserves the shelf life that can improve the cleaning solution with cleaning solution and clear water.

Advantageously, two guide rails 17 with right openings are arranged in the support 50, the left ends of the two chucks 29 are located in the guide rails 17 and slide up and down along the guide rails 17, and a chuck spring 11 is fixedly connected between one end of the chuck 29 away from the pipe 21 and the inner wall of the guide rail 17, so that the chuck 29 can clamp the pipe 21 under the elastic force of the chuck spring 11.

Advantageously, an inner cavity 12 is formed in the support 50, a transmission motor 35 is fixedly arranged at the rear end of the inner cavity 12, a rotation shaft 15 is dynamically connected to the front end of the transmission motor 35, an eccentric wheel 14 is fixedly connected to the front end of the rotation shaft 15, a fixed shaft 13 is fixedly connected to the front end of the eccentric wheel 14, a connecting rod 34 is rotatably connected to the fixed shaft 13, one end of the connecting rod 34, which is far away from the fixed shaft 13, is rotatably connected to the piston 33, the transmission motor 35 is started, the eccentric wheel 14 is driven to rotate through the rotation shaft 15, the fixed shaft 13 is driven to rotate eccentrically and circumferentially, the connecting rod 34 is driven to reciprocate through the fixed shaft 13, and the piston 33 is driven to slide back and forth on the inner wall of.

Beneficially, a rotary motor 26 is fixedly arranged in the right end of the base 18, a filter screen 22 is fixedly connected to the inner side of the right end of the base 18, an upper hole 58 is formed in the upper end face of the filter screen 22 close to the inner side of the right end of the base 18, a filter screen inner cavity 57 with a leftward opening is formed in the filter screen 22, a helical blade 24 is in power connection with the left end of the rotary motor 26, the helical blade 24 is arranged in the filter screen inner cavity 57, a filter water channel 25 is formed in the upper end face of the base 18, four filter water outlets 20 which are uniformly arranged are formed in the lower left side of the filter water channel 25, the filter water channel 25 is communicated with the four filter water outlets 20, a residue cavity 56 is formed in the base 18, the residue cavity 56 is located on the left side of the filter screen 22, a residue outlet 19 is formed in the lower end of the, the waste material that pipeline inner chamber 60 cleared up, through go up hole 58 inflow filter screen inner chamber 57, and then pass through helical blade 24 spiral motion drives the waste material and moves left, and when the waste material in filter screen inner chamber 57 to the left motion in-process, liquid passes through in the waste material filter screen 22 lower extreme flows in filter water course 25, and then follow the play water outlet 20 flows out, and the surplus residue after the dehydration is transported to residue chamber 56, and then follows filter screen inner chamber 57 discharges, makes things convenient for follow-up processing to the residue to the liquid of separation can carry out the reutilization.

Beneficially, the right end of the support 50 is elastically connected with the left end of the pipeline 21 through an expansion spring 16, the right end of the support 50 is fixedly connected to the left end of the expansion spring 16, the right end of the expansion spring 16 contacts the left end of the pipeline 21, and when the inner wall of the pipeline inner cavity 60 is cleaned, the expansion spring 16 facilitates the disassembly of the pipeline 21.

Beneficially, six guide sleeves 23 are fixedly arranged on the inner wall of the fixed cavity 51, six guide sleeves 23 are fixedly connected to one end, away from the sponge 31, of the telescopic block 53, a connecting spring cavity 61 is arranged in the guide sleeve 23 in a penetrating manner, the connecting spring 30 is located in the connecting spring cavity 61, when the sponge 31 is extruded, the telescopic block 53 is driven to extrude inwards, and the connecting spring 30 is driven to extrude inwards, the guide sleeves 23 play a guiding role, so that the connecting spring 30 is prevented from being inclined and deformed in the extruding process.

The following detailed description of the steps of the apparatus for cleaning fouling in a pipeline with reference to fig. 1 to 7:

initially, the piston 33, the telescopic block 53, the sponge 31, the rotary block 62, and the liquid separation plate 49 are in the left limit position.

During the use, carry the pipeline 21 that will clear up through two chucks 29, and press from both sides tight pipeline 21 under the spring action of chuck spring 11, piston 33 this moment, flexible piece 53, sponge 31, rotatory piece 62 and divide liquid board 49 to be located pipeline inner chamber 60, pipeline 21 left end is contradicted expanding spring 16 and is compressed expanding spring 16 this moment, extrude flexible piece 53 under the effect of coupling spring 30 this moment, and then make sponge 31 paste on the inner wall of pipeline inner chamber 60, extrude cutter fixed plate 40 under the spring action of buffer spring 39, and then make blade 41 support on the inner wall of pipeline inner chamber 60.

At this time, the transmission motor 35 is controlled to start to drive the rotating shaft 15 to rotate, and simultaneously, the eccentric wheel 14 is driven to perform eccentric circular motion to drive the fixed shaft 13 to perform synchronous motion, and simultaneously, the connecting rod 34 is driven to perform revolving motion around the rotating shaft 15 to further push the piston 33 to perform reciprocating sliding left and right in the pipe inner cavity 60, so as to drive the telescopic block 53, the sponge 31, the rotating block 62, the blade 41 and the liquid separating plate 49 to perform reciprocating sliding left and right, at this time, the water pump 48 is started, so as to suck the liquids in the cleaning liquid cavity 28 and the clear water cavity 27 into the water pump 48 through the water pipe cleaning liquid pipe 47 and the clear water pipe 46 respectively for mixing, the mixed liquid is discharged into the liquid storage cavity 45 through the water outlet pipe 43, at this time, the linkage motor 32 is started to further drive the rotating long shaft 37 to rotate, so as to drive the rotating, under the action of centrifugal force, the liquid in the liquid storage cavity 45 is thrown out through the water spray opening 42, so that the liquid is thrown to the inner wall of the pipeline, at the moment, the telescopic block 53, the sponge 31, the rotating block 62, the blade 41 and the liquid separation plate 49 in the pipeline still reciprocate left and right, the long rotating shaft 37 is driven to rotate by the linkage motor 32, thereby driving the long shaft inner cavity 59 to rotate, further driving the fixing plate 36 and the buffer spring 39 to rotate, thereby driving the cutter fixing plate 40 to rotate, further driving the blades 41 to rotate along the circumference of the inner wall of the pipeline, thereby realizing that the blade 41 rotates and slides back and forth at the same time, further the blade 41 scrapes off the dirt on the inner wall of the inner cavity 60 of the pipeline, and simultaneously the sponge 31 realizes the back and forth sliding left and right, under the compression action of the connecting spring 30, the sponge 31 is just attached to the inner wall of the pipeline inner cavity 60, the sponge 31 removes the residues scraped by the blade 41, and the sponge 31 pushes the cleaned wastes out of the right side of the inner cavity 60 of the pipeline; the waste that clears up flows into filter screen inner chamber 57 below the pipeline from upper hole 58, starts rotary motor 26 this moment, drives helical blade 24 and rotates, and under centrifugal action, water and the residue in the waste pass through filter screen 22 filtration separation, and the water after the filtration gets into filtration water course 25, flows out along the slope from filter water outlet 20 and retrieves, and the residue after with the water separation is transported to residue chamber 56 through helical blade 24, discharges through residue outlet 19 of residue chamber 56 lower extreme and handles.

After the pipeline is cleaned, the transmission motor 35 drives the rotating shaft 15 to rotate, and drives the piston 33, the telescopic block 53, the sponge 31, the rotating block 62 and the liquid separating plate 49 to slide and reset to the initial state, at this time, the chuck 29 for clamping the pipeline extrudes the chuck spring 11 outwards, so that the diameter of the chuck 29 is enlarged, and the pipeline 21 is conveniently taken out under the elastic force action of the compression spring 16.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a clearance pipeline dirt device, includes the support and fixes the base of support lower extreme, its characterized in that: the right end of the support is connected with two chucks in a vertical sliding way, a pipeline is arranged between the upper chuck and the lower chuck, the pipeline is clamped by the two chucks, a pipeline inner cavity which is communicated from left to right is arranged in the pipeline, a piston is arranged in the inner cavity of the pipeline in a left-right sliding manner, a telescopic block is arranged on the right side of the piston in a left-right sliding manner, the telescopic block has elasticity, a fixed cavity is arranged in the telescopic block in a left-right through way, a connecting block is arranged in the fixed cavity, the left end of the connecting block is fixedly connected with the piston, a linkage motor is fixedly arranged in the connecting block, six connecting shafts are fixedly connected on the circumferential surface of the connecting block, the six connecting shafts are distributed in an annular array by taking the linkage motor as a symmetrical center, a connecting spring is fixedly connected between one end of the connecting shaft, which is far away from the connecting block, and the inner wall of the fixed cavity, and a sponge is fixedly connected on the outer end face of the telescopic block; the right end of the linkage motor is in power connection with a rotating long shaft, a rotating block is rotatably arranged on the right side of the connecting block, the right end of the rotating long shaft is fixedly connected with the rotating block, a fixing plate is fixedly connected with the left end of the rotating block, a long shaft inner cavity is arranged in the fixing plate in a left-right through mode, the fixing plate is in clearance fit connection with the rotating long shaft through the long shaft inner cavity, a cutter fixing plate is arranged on the outer side of the fixing plate and has elasticity, twelve buffer springs are connected between the fixing plate and the cutter fixing plate, four groups of blade sets are connected to the end face, far away from the fixing plate, of the cutter fixing plate, four groups of blade sets are distributed in an annular array mode with the fixing plate as a symmetrical center, each group; the utility model discloses a cleaning device, including the rotating block, the rotating block is equipped with the liquid separation board, the rotating block right-hand member has set firmly the water pump, the liquid separation board has been linked firmly to the rotating block right-hand member, be equipped with clean liquid chamber and clear water cavity in the liquid separation board, clean liquid chamber with clear water intracavity stores clear water and cleaning solution respectively, the water pump with clean liquid chamber and be connected with cleaning solution pipeline and clear water pipeline respectively between the clear water cavity, outlet conduit has been linked firmly at both ends about the water pump, the bin has been linked firmly on the outer terminal surface of rotating block, it stores the chamber to be equipped with liquid in the bin, outlet conduit with the chamber is stored to liquid is linked together, linked firmly the water jet on.

2. A pipe fouling cleaning apparatus as claimed in claim 1, wherein: be equipped with two openings guide rail right in the support, two the chuck left end is located in the guide rail and follow slide from top to bottom the guide rail, the chuck is kept away from pipeline one end with chuck spring has been linked firmly between the guide rail inner wall.

3. A pipe fouling cleaning apparatus as claimed in claim 1, wherein: the piston is characterized in that an inner cavity is formed in the support, a transmission motor is fixedly arranged at the rear end of the inner cavity, the front end of the transmission motor is in power connection with a rotating shaft, an eccentric wheel is fixedly connected to the front end of the rotating shaft, a fixed shaft is fixedly connected to the front end of the eccentric wheel, a connecting rod is rotatably connected to the fixed shaft, and one end, far away from the fixed shaft, of the connecting rod is rotatably connected to the piston.

4. A pipe fouling cleaning apparatus as claimed in claim 1, wherein: the utility model discloses a filter, including base right-hand member, rotary motor, helical blade, base right-hand member, filter screen, base upper end, filter water course and four filter water exports are linked together, be equipped with the residue chamber in the base, the residue chamber is located the filter screen left side, the residue export has been seted up that the residue chamber lower extreme is linked together to the filter screen is close to the up end of base right-hand member inboard is seted up the hole, establish opening filter screen inner chamber to the left in the filter screen, rotary motor left end power connection helical blade, helical blade set up in the intracavity in the filter screen, the filter water.

5. A pipe fouling cleaning apparatus as claimed in claim 1, wherein: the support right-hand member with pass through expanding spring elastic connection between the pipeline left end, the support right-hand member link firmly in the expanding spring left end, the expanding spring right-hand member contact the pipeline left end.

6. A pipe fouling cleaning apparatus as claimed in claim 1, wherein: six guide sleeves are fixedly arranged on the inner wall of the fixed cavity and fixedly connected with one ends of the telescopic blocks far away from the sponge, connecting spring cavities are arranged in the guide sleeves in a penetrating mode, and the connecting springs are located in the connecting spring cavities.