CN117225061B - Recovery device of high-pressure cleaning machine and high-pressure cleaning machine - Google Patents

Abstract

The invention relates to the technical field of high-pressure cleaning machines, in particular to a recovery device of a high-pressure cleaning machine, which comprises a filtering and collecting device, wherein the filtering and collecting device is used for filtering and collecting impurities, the filtering and collecting device comprises a water inlet pipeline, a water quality impurity removal and separation device is arranged below the water inlet pipeline and comprises a fixed mounting pipe arranged on the water inlet pipeline, a rotation filtering and cleaning mechanism is arranged in the fixed mounting pipe, a butt joint mounting pipe is arranged below the fixed mounting pipe, a rotating and collecting base is arranged in the butt joint mounting pipe, a self-rotating filter element is arranged in the rotating and collecting base, a waste collecting device is arranged on the outer side of the butt joint mounting pipe and is connected with the rotating and collecting base, a communicating pipe is arranged at the bottom of the butt joint mounting pipe, a centrifugal impurity removal filter pipe is vertically arranged on the communicating pipe, and a water outlet pipeline is arranged on the centrifugal impurity removal filter pipe, so that the flow of filtration can be effectively improved, and the working efficiency is improved.

Description

Recovery device of high-pressure cleaning machine and high-pressure cleaning machine

Technical Field

The invention relates to the technical field of high-pressure cleaning machines, in particular to a recovery device of a high-pressure cleaning machine, and also relates to the high-pressure cleaning machine.

Background

The high-pressure cleaning machine is a machine which uses a power device to enable a high-pressure plunger pump to generate high-pressure water to wash the surface of an object, can strip dirt and wash away, and achieves the aim of cleaning the surface of the object. At present, the high-pressure cleaning machine is used, because the water consumption is large, most users can use groundwater or natural water body as a water supply source, because the groundwater can contain a large amount of gravel, under the condition of pressurization through the high-pressure cleaning machine, water flow can damage the outer wall coating of objects, long-time use of products is not facilitated, and secondly, the groundwater and surface water can contain a large amount of suspended impurities, so that pipeline blockage inside the high-pressure cleaning machine is easily caused, and serious accidents of burning the high-pressure cleaning machine can be caused.

Chinese patent CN212976033U discloses a high pressure cleaner water supply installation, relate to cleaning machine technical field, including the treatment case, the inner wall of treatment case is close to the fixed screen cloth that is provided with in top, the fixed a plurality of dead levers that are provided with of inner wall of treatment case, and the fixed plate that is provided with of one end that is close to each other of a plurality of dead levers, the top of fixed plate is provided with clean motor through the bolt fastening, and clean motor's output is provided with the swivel mount through the pivot rotation, the bottom laminating of swivel mount is in the outer wall department of screen cloth. This high pressure cleaner water supply installation, through swivel mount, clean motor and filter screen, can realize carrying out rapid mixing to groundwater and filter, avoid groundwater to carry the gravel, lead to high pressure cleaner rivers to damage article, this high pressure cleaner water supply installation, through shunt, flow distribution plate and precipitation box, can reduce the impurity content of groundwater, further improve the cleanliness factor of groundwater, avoid blockking up the high pressure cleaner pipeline.

Above-mentioned technical scheme is through carrying out multilayer purification filtration to groundwater through effectually, but the device filters through multilayer filter screen, filters out unable automatic collection clearance of impurity, and long-time filtration can make impurity pile up on the filter screen, needs to dismantle equipment when leading to the clearance impurity, influences work efficiency, and the impurity of piling up simultaneously on the filter screen can influence the fluxion nature of rivers suction.

Disclosure of Invention

To above-mentioned problem, provide recovery unit and high pressure cleaner of high pressure cleaner, can effectually improve filterable fluxion through filtering collection device, be convenient for clear up fast simultaneously and collect grit impurity and improve work efficiency.

In order to solve the problems in the prior art, the invention provides a recovery device of a high-pressure cleaning machine, which comprises a filtering and collecting device arranged at a water inlet end of the high-pressure cleaning machine, wherein the filtering and collecting device is used for filtering and collecting impurities, the filtering and collecting device comprises a water inlet pipeline, a water quality impurity removal and separation device is arranged below the water inlet pipeline and comprises a fixed mounting pipe arranged on the water inlet pipeline, an autorotation filtering and cleaning mechanism is arranged in the fixed mounting pipe, a butt joint mounting pipe is arranged below the fixed mounting pipe, a rotating and collecting base is arranged in the butt joint mounting pipe, a self-rotating filter element is arranged in the rotating and collecting base, a waste collecting device is arranged on the outer side of the butt joint mounting pipe and is connected with the rotating and collecting base, a communicating pipe is arranged at the bottom of the butt joint mounting pipe, a centrifugal impurity removal filter pipe is vertically arranged on the communicating pipe, and a water outlet pipeline is arranged on the centrifugal impurity removal filter pipe and is connected with the water inlet end of the high-pressure cleaning machine.

Preferably, the rotation filtering and cleaning mechanism comprises a first rotation driving impeller arranged in a fixed mounting tube, a first mounting shaft is arranged on the first rotation driving impeller, a butt joint hole is formed in the first mounting shaft, a filter screen is further arranged on the first mounting shaft, a plurality of first pressing teeth are fully distributed at the bottom of the filter screen, a spiral cleaning frame is further arranged on the first mounting shaft, the spiral cleaning frame is arranged on the outer side of the filter screen and connected with the first mounting shaft, and a second pressing tooth is fully distributed at the bottom of the spiral cleaning frame.

Preferably, the rotating collecting base comprises a fixed base arranged in the butt joint installation pipe, a discharge hole is formed in the fixed base, a rotating collecting base is further arranged on the fixed base, and a waste collecting hole is formed in the rotating collecting base.

Preferably, the rotation filter core comprises a second rotation driving impeller arranged in the butt joint installation tube, a second installation shaft is arranged on the second rotation driving impeller, one end, far away from the second rotation driving impeller, of the second installation shaft is provided with a butt joint block, and a conical filter core is further arranged on the second installation shaft.

Preferably, the garbage collection device comprises a feeding connector arranged at the side part of the butt joint installation pipe, the feeding connector is communicated with a discharge hole arranged on the fixed base, a control valve is arranged on the feeding connector, a circulating rail is arranged at the bottom of the control valve, a plurality of spoilers are arranged in the circulating rail, a detachable garbage collection box is further arranged in the circulating rail, a filtering base is arranged at the bottom of the garbage collection box, a backflow prevention pipe is further arranged at the bottom of the circulating rail, a liquid outlet connector is arranged at the bottom of the backflow prevention pipe, and the liquid outlet connector is communicated with the inside of the butt joint installation pipe.

Preferably, the anti-reflux pipe comprises an installation support installed inside, a telescopic column is installed on the installation support, a blocking speed is high, and a reset spring is installed between the blocking speed and the installation support.

Preferably, the centrifugal impurity removal filter tube comprises a collecting tube arranged on the communicating tube, a conical flow guide block is arranged in the collecting tube, a spiral flow guide head is arranged at the liquid inlet end of the collecting tube, the spiral flow guide head and the conical flow guide block are coaxially arranged, a flow guide groove is arranged at the bottom of the spiral flow guide head, a plurality of liquid inlet holes are formed in the flow guide groove, a plurality of liquid outlet holes are formed in the top of the spiral flow guide head, and a plurality of inclined flow guide vanes are arranged on the liquid outlet holes.

Preferably, the collecting pipeline comprises an installing pipeline, the inner wall of the installing pipeline is provided with a plurality of layers of collecting pipes, the outer side of the installing pipeline is provided with a detachable wrapping outer pipe, and the liquid outlet end of the installing pipeline is provided with a first filtering layer.

Preferably, the multilayer collecting wall comprises a wavy inner wall, the wavy inner wall forms a plurality of layers of collecting tracks, the collecting tracks are provided with circulation collecting ports, flow choking blocks are arranged in the collecting tracks, and the inner walls of the collecting tracks are also provided with second filter layers.

A high-pressure cleaner comprises a recovery device of the high-pressure cleaner, which is provided with a water inlet end.

Compared with the prior art, the invention has the beneficial effects that:

1. before the high-pressure cleaning machine is used, the water inlet pipeline of the filtering and collecting device is connected with the water inlet end of the high-pressure cleaning machine by workers, the water outlet pipeline of the filtering and collecting device is connected with the underground water pipe, the underground water is guided and conveyed into the water inlet pipeline by the water pipe, the underground water is conveyed to the fixed mounting pipe by the water inlet pipeline, the rotation filtering and cleaning device is driven to rotate when passing through the fixed mounting pipe, the underground water is subjected to preliminary filtration, sand and stone in the underground water are filtered, the rotation filtering and cleaning device is driven to rotate when rotating to synchronously rotate the collecting end of the rotating collecting base, the filtered sand and stone are guided and collected into the waste collecting device when rotating the collecting base, the rotation filtering core rotates along with the underground water when passing through the self-rotating filter core, secondary filtration can be carried out on the underground water, fine particles can be effectively removed by the secondary filtration, the filtered water flow enters the centrifugal impurity removing filter pipe after passing through the communicating pipe, the centrifugal impurity removing filter pipe can effectively drive the water flow to rotate in a spiral mode, the centrifugal impurity removing filter pipe can carry out third water flow to filter water quality, and filter impurity in the water quality can be effectively blocked when the centrifugal impurity removing filter pipe is not accumulated, and the impurity collecting efficiency can be improved.

2. The waste collection mouth of rotating the collection seat and the discharge gate cooperation rotatable interval circulation rivers on the unable adjustment base make the grit impurity of filtering out get into from waste collection device's feed connector, the grit granule impurity of entering passes the control valve again and gets into the circulation rail, the inside several spoiler of circulation rail can effectually guide grit granule impurity fall into in the waste collection box, the spoiler can effectually avoid falling into the grit granule after the waste collection box and influence by rivers and appear the come-up and cause the grit to benefit out, filtration base in the waste collection box can effectually filter separation grit and water, the rivers can pass the filtration base of waste collection box bottom and move into the anti-reverse flow pipe, the anti-reverse flow pipe can effectually guide water flow from out the liquid joint into butt joint installation inside, waste collection box demountable installation, when the grit residue that needs to clear up to collect, staff's accessible control valve closes the circulation rail, staff can take out the grit granule impurity that clear up the collection, effectually be convenient for clear up the impurity of waste collection box, guarantee work efficiency.

Drawings

Fig. 1 is a perspective view schematically showing an installation state of a recovery device of a high-pressure washer.

Fig. 2 is a schematic perspective view of a recovery device of the high-pressure washer.

Fig. 3 is a plan sectional view of the recovery device of the high pressure washer.

Fig. 4 is a perspective view showing a cross section of the rotation filter cleaning device and the fixed mounting pipe in the recovery device of the high pressure cleaner.

Fig. 5 is a perspective view of a waste collection device, a docking mounting tube and a self-rotating filter cartridge in a recovery device of a high pressure washer.

Fig. 6 is a cut-away perspective view of a recovery unit waste collection unit, docking mounting tube and self-rotating filter cartridge of the high pressure washer.

Fig. 7 is a partial enlarged view at a center a of fig. 6.

Fig. 8 is a perspective view of a rotating collection base in a recovery device of a high pressure cleaner.

FIG. 9 is a plan sectional view of a centrifugal impurity removal filter tube in a recovery device of a high pressure washer.

Fig. 10 is a cross-sectional perspective view of a spiral deflector in a recovery device of a high pressure washer.

FIG. 11 is a perspective view in cross section of a recovery device centrifugal impurity removal filter tube of a high pressure washer.

Fig. 12 is a schematic perspective view of a multi-layered collection wall in a recovery device of a high pressure cleaner.

The reference numerals in the figures are:

a1-a high-pressure cleaner; 1-a water inlet pipeline; 2-a water impurity removal and separation device; 21-fixedly installing a pipe; 22-a self-rotation filtering and cleaning device; 221-a first rotation driving impeller; 223-a first mounting shaft; 224-a docking aperture; 225-filtering net; 227-first abutment teeth; 228-a spiral cleaning frame; 229-second abutment teeth; 23-butt mounting the tube; 24-rotating the collection base; 241-a fixed base; 242-a discharge hole; 243-rotating the collection seat; 244-a waste collection port; 25-self-rotating filter element; 251-a second rotation driving impeller; 252-a second mounting shaft; 253—butt blocks; 254-conical filter element; 26-a waste collection device; 261-feed joint; 262-control valve; 263-a flow-through rail; 264-spoilers; 265-a waste collection cassette; 266-a filtration base; 267-a reverse flow prevention tube; 2671-mounting brackets; 2672-telescoping column; 2673-fast occlusion; 2674-a return spring; 268-a liquid outlet joint; 3-communicating pipe; 4-centrifuging to remove impurities and filtering the pipe; 41-collecting pipes; 411-installing a pipeline; 412-wrapping the outer tube 413-the first filter layer; 414-a multi-layer collection wall; 4141-wave inner wall; 4142-collecting track; 4143-flow-through collection port; 4144-a second filter layer; 42-conical guide blocks; 43-spiral guide head; 431-a flow guiding groove; 434-tilting guide vanes; 5-water outlet pipeline.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

As shown in fig. 1 to 12:

the utility model provides a recovery unit of high pressure cleaner, including installing the filtration collection device at the high pressure cleaner water inlet, filtration collection device is used for filtering and collecting impurity, filtration collection device includes inlet channel 1, inlet channel 1 installs quality of water edulcoration separator 2 in the below, quality of water edulcoration separator 2 is including installing the fixed mounting tube 21 on inlet channel 1, the internally mounted of fixed mounting tube 21 has rotation filtration cleaning mechanism, butt joint mounting tube 23 is installed to the below of fixed mounting tube 21, butt joint mounting tube 23 internally mounted has rotation collection base 24, rotation collection base 24 internally mounted has self-rotating filter core 25, butt joint mounting tube 23's outside is installed waste collection device 26, waste collection device 26 is connected with rotation collection base 24, butt joint mounting tube 23's bottom is installed communicating pipe 3, install centrifugal edulcoration filter tube 4 on the communicating pipe 3, install outlet pipe 5 on the centrifugal edulcoration filter tube 4, outlet pipe 5 is connected with the water inlet end of high pressure cleaner.

Before the high-pressure cleaning machine is used, the staff is connected with the water inlet pipeline 1 of the filtering and collecting device and the water inlet end of the high-pressure cleaning machine, the water outlet pipeline 5 of the filtering and collecting device is connected with the underground water pipe, the underground water pipe guides and conveys the underground water into the water inlet pipeline 1, the water inlet pipeline 1 conveys the underground water into the fixed mounting pipe 21, the autorotation filtering and cleaning device 22 can be driven to rotate when the underground water passes through the fixed mounting pipe 21, the autorotation filtering and cleaning device 22 can carry out primary filtration on the underground water, sand and stone in the underground water are filtered, the autorotation filtering and cleaning device 22 can be driven to rotate to synchronously rotate the collecting end of the rotating collecting base 24, the filtered sand and stone can be guided and collected into the waste collecting device 26 when the rotating collecting base 24 rotates, the underground water passes through the butt-joint mounting pipe 23 and the autorotation filter core 25, the autorotation filter core 25 can carry out secondary filtration on the underground water, the secondary filtration can effectively remove fine particles, the autorotation filter core 25 stores and collects the sand and stone particles simultaneously and is convenient for the staff to quickly clean the filtered water flow, and the filtered water flow can enter the filter pipe 4 through the centrifugal filter pipe 3 to be cleaned when the centrifugal water enters the centrifugal filter pipe 4, and the filter pipe 4 is rotated, and the filter pipe is not filtered, and the filter water is prevented from being filtered, and the filter pipe is prevented from being rotated, and the inside from being filtered, and the filter pipe is not being polluted, and the water is filtered, and the filter pipe is filtered and the water is filtered.

As shown in fig. 3 and 4:

the rotation filtering and cleaning mechanism comprises a first rotation driving impeller 221 arranged in a fixed mounting tube 21, a first mounting shaft 223 is arranged on the first rotation driving impeller 221, a butt joint hole 224 is formed in the first mounting shaft 223, a filter screen 225 is further arranged on the first mounting shaft 223, a plurality of first pressing teeth 227 are fully distributed at the bottom of the filter screen 225, a spiral cleaning frame 228 is further arranged on the first mounting shaft 223, the spiral cleaning frame 228 is arranged on the outer side of the filter screen 225, the spiral cleaning frame 228 is connected with the first mounting shaft 223, and a second pressing tooth 229 is fully distributed at the bottom of the spiral cleaning frame 228.

The fixed mounting tube 21 is used for abutting joint intercommunication butt joint mounting tube 23, first rotation drive impeller 221 rotates the inside of installing at the fixed mounting tube 21, when fixed mounting tube 21 and butt joint mounting tube 23 are docked, filter screen 225 can overlap and establish in the outside of rotation filter core 25, simultaneously the first tooth 227 that pushes against of filter screen 225's bottom is contradicted with the rotation collection base 24, the second tooth 229 that pushes against of spiral cleaning frame 228 is contradicted with the collection end of rotation collection base 24, after groundwater enters into fixed mounting tube 21 from inlet channel 1, groundwater can pass first rotation drive impeller 221, first rotation drive impeller 221 can utilize rivers to form the rotation, can drive spiral cleaning frame 228 rotation when first rotation drive impeller 221 rotates, still can drive the collection end of rotation collection base 24 and rotate in step when spiral cleaning frame 228 rotates, filter screen 225 can effectually filter out granule such as grit, the vortex that the impurity granule that rotates can effectually forms, make the impurity granule that is filtered stirs and fall into on the rotation collection base 24, avoid impurity granule to adhere to on 225, be convenient for rotate collection base 24 and collect impurity, simultaneously keep the connectivity of filtration.

As shown in fig. 6 and 8:

the rotary collecting base 24 comprises a fixed base 241 arranged in the butt joint mounting pipe 23, a discharge hole 242 is arranged on the fixed base 241, a rotary collecting base 243 is further arranged on the fixed base 241, and a waste collecting hole 244 is arranged on the rotary collecting base 243.

When the fixed mounting tube 21 and the butt joint mounting tube 23 are in butt joint mounting, the fixed base 241 can butt joint and conflict with the filter screen 225, the fixed base 241 can enable the filter screen 225 to be fixedly positioned, the rotary collecting seat 243 can butt joint and conflict with the spiral cleaning frame 228, the groundwater can pass through the first rotation driving impeller 221, the first rotation driving impeller 221 can utilize water flow to form rotation, the first rotation driving impeller 221 can drive the spiral cleaning frame 228 to rotate when rotating, the spiral cleaning frame 228 can enable the rotary collecting seat 243 to synchronously rotate, particles such as sand and stone can be effectively filtered out, the rotary spiral cleaning frame 228 can effectively form turbulence, the filtered impurity particles can be stirred and fall into the rotary collecting seat 24, the impurity particles are prevented from adhering to the filter screen 225, the waste collecting opening 244 can effectively collect waste when the rotary collecting seat 243 rotates, the water flow can drive part of water flow to fall into the waste collecting device 26 from the position of the collected waste collecting opening 244 and the position of the discharge opening 243 when the waste collecting opening 242 rotates to the position of the fixed base 241, the waste collecting seat 244 and the waste collecting device can effectively be prevented from overflowing from the waste collecting device 26 by the rotary collecting seat 241.

As shown in fig. 5 and 6:

the self-rotating filter element 25 comprises a second self-rotating driving impeller 251 arranged in the butt-joint mounting tube 23, a second mounting shaft 252 is arranged on the second self-rotating driving impeller 251, a butt-joint block 253 is arranged at one end, far away from the second self-rotating driving impeller 251, of the second mounting shaft 252, and a conical filter element 254 is further arranged on the second mounting shaft 252.

The water filtered by the filter screen 225 can pass through the conical filter element 254, the conical filter element 254 can effectively carry out secondary filtration on the groundwater, the filtered water passes through the second rotation driving impeller 251, the second rotation driving impeller 251 is influenced by water flow to carry out rotation, the conical filter element 254 is driven to synchronously rotate by the second mounting shaft 252 when the second rotation driving impeller 251 rotates, and the conical filter element 254 can effectively indicate that the filtered impurities are attached to the surface when rotating.

As shown in fig. 5 and 6:

the garbage collection device 26 comprises a feeding joint 261 arranged on the side part of the butt joint installation tube 23, the feeding joint 261 is communicated with a discharge hole 242 arranged on a fixed base 241, a control valve 262 is arranged on the feeding joint 261, a circulating rail 263 is arranged at the bottom of the control valve 262, a plurality of spoilers 264 are arranged in the circulating rail 263, a detachable garbage collection box 265 is further arranged in the circulating rail 263, a filtering base 266 is arranged at the bottom of the garbage collection box 265, a backflow prevention tube 267 is further arranged at the bottom of the circulating rail 263, a liquid outlet joint 268 is arranged at the bottom of the backflow prevention tube 267, and the liquid outlet joint 268 is communicated with the inside of the butt joint installation tube 23.

The rotatable interval circulation rivers of discharge gate 242 cooperation on rotation collection seat 243 and the unable adjustment base 241 make the grit impurity of filtering out get into from the charge-in joint 261 of waste collection device 26, the grit granule impurity that gets into passes control valve 262 again and gets into circulation rail 263, the inside several spoiler 264 of circulation rail 263 can effectually guide grit granule impurity fall into waste collection box 265, the flow-up appears floating and cause the grit to benefit out by rivers influence in the grit granule that can effectually avoid falling into behind the waste collection box 265, filtration base 266 in the waste collection box 265 can effectually filter separation grit and water, the rivers can be moved into anti-reflux pipe 267 through the filtration base 266 of waste collection box 265 bottom, anti-reflux pipe 267 can effectually guide water flow to get into inside butt joint safety 23 from play liquid joint 268, the waste collection box 265 can be dismantled the installation, when the grit residue that needs to clear up to collect, staff can close circulation rail 263 through control valve 262, staff can take out the grit granule impurity that clear up and collect, the effectual work efficiency of being convenient for clear up the grit granule impurity of waste collection box, the work efficiency of guaranteeing.

As shown in fig. 6 and 7:

the backflow prevention pipe 267 comprises a mounting bracket 2671 arranged inside, a telescopic column 2672 is arranged on the mounting bracket 2671, a blocking speed 2673 is arranged on the telescopic column 2672, and a return spring 2674 is arranged between the blocking speed 2673 and the mounting bracket 2671.

When the water flow passes through the filter base 266 and enters the anti-backflow pipe 267, the water flow can push the blocking speed 2673 to be pressed down, the reset spring 2674 can be extruded when the blocking speed 2673 is pressed down, the water flow can enter the liquid outlet connector 268 when the blocking speed 2673 is pressed down, the liquid outlet connector 268 guides the water flow to be conveyed into the butt joint mounting pipe 23, and when the anti-backflow pipe 267 stops conveying the water flow, the reset spring 2674 can push the blocking speed 2673 to reset, so that backflow is effectively avoided.

As shown in fig. 3, 9 and 10:

the centrifugal impurity removal filter tube 4 comprises a collecting pipeline 41 arranged on the communicating pipe 3, a conical flow guide block 42 is arranged in the collecting pipeline 41, a spiral flow guide head 43 is arranged at the liquid inlet end of the collecting pipeline 41, the spiral flow guide head 43 and the conical flow guide block 42 are coaxially arranged, a flow guide groove 431 is formed in the bottom of the spiral flow guide head 43, a plurality of liquid inlet holes are formed in the flow guide groove 431, a plurality of liquid outlet holes are formed in the top of the spiral flow guide head 43, and a plurality of inclined flow guide blades 434 are arranged on the liquid outlet holes.

The filtered water flow enters the collecting pipeline 41 through the communicating pipe 3, the water flow enters the collecting pipeline 41 from the communicating pipe 3, flowing water flow is abutted against the guide groove 431 of the spiral guide head 43, the water flow is guided by the liquid inlet hole in the guide groove 431, the water flow is guided to the inclined guide blades 434 by the liquid outlet hole of the spiral guide head 43, the inclined guide blades 434 can enable the water flow to form inclined flow force, the inclined guide blades 434 synchronously guide the water flow to form spiral flow force, the spiral rotating water flow can spirally ascend along the conical guide block 42, the conical guide block 42 can diffuse the spiral rotating water flow to the inner wall of the collecting pipeline 41, microorganisms in the water are influenced by the centrifugal effect of the rotation of the water flow during the spiral rotation of the water flow, the microorganisms in the water ascend along the inner wall of the collecting pipeline 41, the microorganisms ascending along the rotation of the inner wall of the collecting pipeline 41 can be collected, the collecting pipeline 41 can effectively collect impurities in the water, and the water flow purifying effect is improved.

As shown in fig. 9 and 11:

the collecting pipe 41 comprises a mounting pipe 411, wherein a plurality of layers of collecting layers are arranged on the inner wall of the mounting pipe 411, a detachable wrapping outer pipe 412 is arranged on the outer side of the mounting pipe 411, and a first filter layer 413 is arranged at the liquid outlet end of the mounting pipe 411.

The spiral water conservancy diversion head 43 drives rivers spiral rotation, the microorganism in the rivers spiral rotation is influenced by rivers pivoted centrifugation, make the microorganism in the aquatic rise along collecting pipe 41 inside, multilayer collecting wall 414 can effectually collect along the microorganism of inner wall rotation rise, multilayer collecting wall 414 stores the microorganism of collecting in the rivers in multilayer collecting wall 414's inside, the first filter layer 413 of mounting pipe 411 liquid outlet end can effectually block unfiltered microorganism, make unfiltered microorganism impurity stay in mounting pipe 411's inside, staff need the inside microorganism impurity of periodic cleaning when filtering quality of water for a long time, staff can directly unpack the parcel outer tube 412, make the microorganism impurity that multilayer collecting wall 414 collected expose outside, the staff directly washes the clearance of being convenient for, the effectual assurance cleaning effect of avoiding microorganism impurity to get into the inside of high pressure cleaner.

As shown in fig. 11 and 12:

the multi-layer collecting wall 414 comprises a wavy inner wall 4141, the wavy inner wall 4141 forms a plurality of layers of collecting rails 4142, a circulation collecting opening 4143 is arranged on the collecting rails 4142, a flow blocking block is arranged inside the collecting rails 4142, and a second filter layer 4144 is further arranged on the inner wall of the collecting rails 4142.

The wave inner wall 4141 of the multi-layer collecting wall 414 can form a plurality of layers of collecting tracks 4142, the spiral flow guide head 43 drives the water flow to rotate spirally, microorganisms in the water are influenced by the centrifugal effect of the rotation of the water flow when the water flow rotates spirally, so that the microorganisms in the water rise along the wave inner wall 4141 of the collecting pipeline 41, when the microorganism impurities in the water flow rotate to contact with the collecting ports of the collecting tracks 4142, the collecting ports can guide the microorganism impurities and the water to the inside of the collecting tracks 4142 together, the flow blocking blocks can effectively block the flow, the water flow entering the inside can be extruded in the collecting tracks 4142, the entering water flow flows out from the second filtering layer 4144, and the microorganism impurities stay in the inside of the collecting tracks 4142, so that the microorganisms can be effectively collected.

A high-pressure cleaner comprises a recovery device of the high-pressure cleaner, which is provided with a water inlet end.

The specific working principle is as follows:

before the high-pressure cleaning machine is used, a worker connects a water inlet pipeline 1 of the filtering and collecting device with a water inlet end of the high-pressure cleaning machine, a water outlet pipeline 5 of the filtering and collecting device is connected with a ground water pipe, the ground water pipe guides and conveys the ground water into the water inlet pipeline 1, the water inlet pipeline 1 conveys the ground water into a fixed mounting pipe 21, the ground water passes through the fixed mounting pipe 21 and drives a rotation filtering and cleaning device 22 to rotate, the rotation filtering and cleaning device 22 can primarily filter the ground water, sand and stone in the ground water are filtered, the rotation filtering and cleaning device 22 can drive a collecting end of a rotation collecting base 24 to synchronously rotate when rotating, the rotation collecting base 24 guides and collects filtered sand and stone into a waste collecting device 26 when rotating, the rotation filtering core 25 rotates along with the rotation filtering core 25 when the ground water passes through a butt joint mounting pipe 23 and the rotation filtering core 25, the self-rotating filter element 25 can perform secondary filtration on groundwater, fine particles can be effectively removed by secondary filtration, the waste collection device 26 stores and collects sand particles, meanwhile, the waste collection device is convenient for workers to clean quickly, filtered water flow enters the collection pipeline 41 after passing through the communicating pipe 3, water flow enters the collection pipeline 41 from the communicating pipe 3, flowing water flow can collide with the guide grooves 431 of the spiral guide head 43, the water flow is guided by liquid inlets in the guide grooves 431, the water flow is guided to the inclined guide blades 434 by liquid outlets of the spiral guide head 43, the inclined guide blades 434 can enable the water flow to form inclined flow force, the plurality of inclined guide blades 434 synchronously guide the inclined flow force, the spiral rotating water flow can spiral-rise along the conical guide block 42, the conical guide block 42 can diffuse the spiral rotating water flow to the inner wall of the collection pipeline 41, microorganisms in water are influenced by the centrifugal effect of water rotation when the water flow rotates in a spiral mode, so that the microorganisms in water ascend along the inside of the collecting pipeline 41, the collecting pipeline 41 can collect the microorganisms ascending along the rotation of the inner wall, the collecting pipeline 41 can effectively collect impurities in water, and filtered water enters the high-pressure cleaner from the water outlet pipeline 5.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (6)

1. The utility model provides a recovery unit of high pressure cleaner, including installing the filtration collection device at the high pressure cleaner water inlet, filtration collection device is used for filtering and collecting impurity, a serial communication port, filtration collection device includes inlet channel (1), water quality edulcoration separator (2) are installed to inlet channel (1) below, water quality edulcoration separator (2) are including installing fixed mounting pipe (21) on inlet channel (1), the internally mounted of fixed mounting pipe (21) has rotation filtration cleaning mechanism, butt joint installation pipe (23) are installed to the below of fixed mounting pipe (21), the internally mounted of butt joint installation pipe (23) has rotation to collect base (24), the internally mounted of rotation to collect base (24) has from rotating filter core (25), install waste collection device (26) in the outside of butt joint installation pipe (23), waste collection device (26) are connected with rotation to collect base (24), communicating pipe (3) are installed to the bottom of butt joint pipe (23), install centrifugal edulcoration filter pipe (4) on communicating pipe (3) vertically, install out (5) on centrifugal edulcoration filter pipe (4), water outlet pipe (5) are connected with the water inlet of high pressure cleaner;

the rotation filtering and cleaning mechanism comprises a first rotation driving impeller (221) arranged in a fixed mounting tube (21), a first mounting shaft (223) is arranged on the first rotation driving impeller (221), a butt joint hole (224) is formed in the first mounting shaft (223), a filter screen (225) is further arranged on the first mounting shaft (223), a plurality of first pressing teeth (227) are fully distributed at the bottom of the filter screen (225), a spiral cleaning frame (228) is further arranged on the first mounting shaft (223), the spiral cleaning frame (228) is arranged on the outer side of the filter screen (225), the spiral cleaning frame (228) is connected with the first mounting shaft (223), and a second pressing tooth (229) is fully distributed at the bottom of the spiral cleaning frame (228);

the rotary collecting base (24) comprises a fixed base (241) arranged in the butt joint mounting pipe (23), a discharge hole (242) is formed in the fixed base (241), a rotary collecting base (243) is further arranged on the fixed base (241), and a waste collecting hole (244) is formed in the rotary collecting base (243);

the self-rotating filter element (25) comprises a second self-rotating driving impeller (251) arranged in the butt joint mounting pipe (23), a second mounting shaft (252) is arranged on the second self-rotating driving impeller (251), a butt joint block (253) is arranged at one end, far away from the second self-rotating driving impeller (251), of the second mounting shaft (252), and a conical filter element (254) is further arranged on the second mounting shaft (252);

the waste collection device (26) comprises a feeding connector (261) arranged on the side of the butt joint mounting pipe (23), the feeding connector (261) is communicated with a discharge hole (242) arranged on the fixed base (241), a control valve (262) is arranged on the feeding connector (261), a circulating rail (263) is arranged at the bottom of the control valve (262), a plurality of spoilers (264) are arranged in the circulating rail (263), a detachable waste collection box (265) is further arranged in the circulating rail (263), a filtering base (266) is arranged at the bottom of the waste collection box (265), an anti-backflow pipe (267) is further arranged at the bottom of the circulating rail (263), a liquid outlet connector (268) is arranged at the bottom of the anti-backflow pipe (267), and the liquid outlet connector (268) is communicated with the inside of the butt joint mounting pipe (23);

when the fixed mounting pipe (21) and the butt-joint mounting pipe (23) are in butt-joint mounting, the fixed base (241) can butt-joint and abut against the filter screen (225), the fixed base (241) can enable the filter screen (225) to be fixedly positioned, the rotary collecting seat (243) can butt-joint and abut against the spiral cleaning frame (228), groundwater can pass through the first rotation driving impeller (221), the first rotation driving impeller (221) can form rotation by utilizing water flow, the first rotation driving impeller (221) can drive the spiral cleaning frame (228) to rotate when rotating, the rotary collecting seat (243) can be synchronously rotated when the spiral cleaning frame (228) rotates, the rotary spiral cleaning frame (228) can effectively form turbulent flow, the filtered impurity particles can be stirred and fall into the rotary collecting seat (24), the impurity particles are prevented from being attached to the filter screen (225), the waste collecting port (244) can effectively collect waste when the rotary collecting seat (243) rotates, when the waste collecting seat (243) rotates to the discharge port (242) on the fixed base (241), the water flow can drive part to fall into the discharge port (242) position on the fixed base (242) when the rotary collecting seat (242) rotates, the waste collecting seat (242) can effectively ensure that the waste particles can fall into the waste collecting device (26), avoiding the overflow of the collected sand particles from the waste collection device (26).

2. The recovery device of a high-pressure washer according to claim 1, wherein the reverse flow preventing pipe (267) comprises a mounting bracket (2671) mounted on the inside, a telescopic column (2672) is mounted on the mounting bracket (2671), a blocking speed (2673) is arranged on the telescopic column (2672), and a return spring (2674) is mounted between the blocking speed (2673) and the mounting bracket (2671).

3. The recovery device of a high-pressure cleaning machine according to claim 2, wherein the centrifugal impurity-removing filter tube (4) comprises a collecting tube (41) arranged on the communicating tube (3), a conical flow guide block (42) is arranged in the collecting tube (41), a spiral flow guide head (43) is arranged at the liquid inlet end of the collecting tube (41), the spiral flow guide head (43) and the conical flow guide block (42) are coaxially arranged, a flow guide groove (431) is arranged at the bottom of the spiral flow guide head (43), a plurality of liquid inlet holes are formed in the flow guide groove (431), a plurality of liquid outlet holes are formed in the top of the spiral flow guide head (43), and a plurality of inclined flow guide blades (434) are arranged on the liquid outlet holes.

4. A recovery device of a high-pressure cleaning machine according to claim 3, characterized in that the collecting pipe (41) comprises a mounting pipe (411), the inner wall of the mounting pipe (411) is provided with a plurality of layers of collecting, the outer side of the mounting pipe (411) is provided with a detachable wrapping outer pipe (412), and the liquid outlet end of the mounting pipe (411) is provided with a first filter layer (413).

5. The recovery device of a high-pressure washer according to claim 4, wherein the multi-layered collection wall (414) comprises a wavy inner wall (4141), the wavy inner wall (4141) forms a plurality of layers of collection tracks (4142), the collection tracks (4142) are provided with circulation collection ports (4143), flow-blocking blocks are arranged inside the collection tracks (4142), and the inner wall of the collection tracks (4142) is further provided with a second filter layer (4144).

6. A high pressure washer comprising the recovery device of any one of claims 1 to 5.