CN118005141A - Reverse osmosis water treatment device with high recovery rate - Google Patents

Abstract

The invention discloses a high-recovery reverse osmosis water treatment device, and relates to the technical field of sewage treatment. The utility model provides a high recovery reverse osmosis water treatment facilities, including housing mechanism, housing mechanism includes the shell, circular shape shell hole has been seted up to the inside of shell, the guide hole has been seted up in one side of shell hole running through, the lower fixed surface of shell is connected with the bottom plate, the inside of shell hole is provided with inner tube mechanism, the upper portion of shell is provided with clean subassembly, clean subassembly includes the tuber pipe seat, the fixed intercommunication in lower extreme of tuber pipe seat has the tuber pipe that has automatically controlled valve, the lower extreme of tuber pipe runs through the shell, upper surface one side of bottom plate is through the right motor of sill pillar fixedly connected with and shell hole, inner tube mechanism includes the inner tube of adaptation grafting shell hole, the positive fixed connection inner tube of output shaft of motor, square tube hole has been seted up to the inside of inner tube, a high recovery reverse osmosis water treatment facilities has avoided introducing and using of a large amount of clear water resources, the water saving.

Description

Reverse osmosis water treatment device with high recovery rate

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a reverse osmosis water treatment device with high recovery rate.

Background

Sewage treatment, which is a process for purifying sewage to meet the water quality requirement of being discharged into a certain water body or reused. The sewage treatment is widely applied to various fields such as buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscapes, medical treatment, catering and the like.

Patent publication No. CN117550685A discloses a high recovery reverse osmosis water treatment apparatus comprising: the treatment box, the water storage bin has been seted up to the upper end in the treatment box, be located water storage bin below in the treatment box and be equipped with mechanical filtration membrane, mechanical filtration membrane top is equipped with the clean mechanism who is used for striking off and clear up mechanical filtration membrane surperficial spot and filter residue, reverse osmosis membrane is vertically installed to treatment box below one side, reverse osmosis membrane one side is equipped with and is used for carrying out clear clean mechanism to the impurity of reverse osmosis membrane opposite side, one side is equipped with the control mechanism who is used for controlling the water level in the water storage bin. The cleaning mechanism is convenient for scraping and collecting dirt and filter residues accumulated on the surface of the mechanical filter membrane in the running process of the device, so that the device is convenient for later unified treatment, the cleaning frequency of the mechanical filter membrane is greatly reduced, frequent shutdown of the device is not required for cleaning, and the sewage treatment efficiency is greatly improved;

Adopt the mode of injecting clear water to clean the filter screen in above-mentioned scheme for the device needs a large amount of clear water to assist its work after putting into operating condition, can waste more clean water source at the clear in-process of device self, and set up three filtration membrane and carry out sewage's processing in the device, but set up corresponding cleaning parts to three filtration membrane respectively, lead to the washing step of device also comparatively complicated, lead to the economic benefits of device during the use not high, consequently need a high rate of recovery reverse osmosis water treatment facilities to solve the above-mentioned problem that exists.

Disclosure of Invention

The invention aims to provide a reverse osmosis water treatment device with high recovery rate so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the high-recovery reverse osmosis water treatment device comprises a shell mechanism, wherein the shell mechanism comprises a shell, a round shell hole is formed in the shell, and a guide hole is formed in one side of the shell hole in a penetrating manner;

The lower surface of the shell is fixedly connected with a bottom plate;

an inner cylinder mechanism is arranged in the shell hole;

A cleaning component is arranged at the upper part of the shell;

The cleaning assembly comprises an air pipe seat, the lower end of the air pipe seat is fixedly communicated with an air pipe with an electric control valve, and the lower end of the air pipe penetrates through the shell;

a motor opposite to the shell hole is fixedly connected to one side of the upper surface of the bottom plate through a bottom column;

the inner cylinder mechanism comprises an inner cylinder matched with the plug-in shell hole, and an output shaft of the motor is fixedly connected with the inner cylinder in a positive position;

Square cylinder holes are formed in the inner cylinder, guide rail columns are fixedly connected to two ends of one side of the four inner walls of the cylinder holes respectively, and caulking grooves are formed in the other side of the four inner walls of the cylinder holes in a penetrating mode respectively;

a cross-shaped film frame mechanism is arranged in the cylindrical hole;

A moving assembly matched with the cleaning assembly is arranged in each caulking groove;

the moving assembly comprises a cylinder inserting mechanism, a cover plate mechanism and a vibration film mechanism;

the inserting cylinder mechanism comprises an inserting cylinder which is matched and inserted with the caulking groove, a socket which is right opposite to the air pipe in an matched mode is embedded and installed in the upper wall of the inserting cylinder, a U-shaped screen plate is connected to the lower end of the socket in a covering mode, elastic belts are fixedly connected to the two sides of the lower inner wall of the screen plate respectively, and the upper ends of the elastic belts are fixedly connected with the inserting cylinder.

As a preferable technical scheme of the invention, the outer port of the guide hole is fixedly communicated with a first guide pipe, and the outer port of the first guide pipe is fixedly communicated with two second guide pipes.

As a preferable technical scheme of the invention, one side of the air pipe is provided with an impurity bin, the upper side of the impurity bin is fixedly communicated with a hose, one end of the hose, which is far away from the impurity bin, is fixedly connected with an air pipe seat, one side of the impurity bin is fixedly provided with a fan, and the impurity bin and the fan are fixedly connected with a shell;

the air pipe is characterized in that an air cylinder is arranged on the other side of the air pipe, the lower end of the air pipe is fixedly connected with a connecting plate, one side of the connecting plate is fixedly connected with an air pipe seat, an upright post is fixedly connected on the other side of the air cylinder, and one end, far away from the air cylinder, of the upright post is fixedly connected with a shell.

As a preferable technical scheme of the invention, one side of the barrel hole is provided with an inflow hole in a penetrating way, the other side of the barrel hole is provided with an outflow hole in a penetrating way, and the inner ends of the inflow hole and the outflow hole are provided with electric control valves.

As a preferable technical scheme of the invention, the rope winder is embedded and installed in the middle of the inner wall of the clockwise side of the caulking groove.

As a preferable technical scheme of the invention, the membrane frame mechanism comprises a middle frame, wherein the middle frame is fixedly connected with a cylinder hole in a right position, membrane plates are respectively arranged on four sides of the middle frame, side frames are respectively clamped on two sides of the membrane plates, one side frame is fixedly connected with the middle frame, and the other side frame is fixedly connected with the cylinder hole;

The membrane plate on the right side is internally provided with a mechanical filtering membrane, the membrane plate on the lower side is internally provided with an active carbon filtering membrane, the membrane plate on the left side is internally provided with a reverse osmosis filtering membrane, and the membrane plate on the upper side is internally provided with a solid membrane.

As a preferable technical scheme of the invention, a rope groove is formed on the clockwise side surface of the insertion barrel, and the end head of an output cable of the rope winder is fixedly connected with the rope groove.

As a preferable technical scheme of the invention, two sides of the lower port of the plug tube are fixedly connected with first shaft rods respectively, one side, away from the first shaft rods, of each first shaft rod is provided with a shaft block, and one end, away from the first shaft rods, of each shaft block is fixedly connected with the plug tube;

the first shaft lever is provided with a swinging component;

The swing assembly comprises a fan plate, the lower end of the fan plate is movably sleeved with a first shaft lever, one end of the shaft block, which is close to the first shaft lever, is matched with the fan plate, the lower side of the fan plate is fixedly connected with a small column, and the lower side of the small column is fixedly connected with a counterweight rod;

the middle part of the fan plate is embedded with a meshed clamping plate;

The upper end of the fan plate is movably connected with a fan wheel through a rotating shaft, the outer side of the fan wheel is covered with a meshed baffle cover, and the baffle cover is fixedly connected to the fan plate.

The cover plate mechanism is positioned at the clockwise side of the lower part of the cylinder inserting mechanism, the cover plate mechanism is positioned in the cylinder hole, the cover plate mechanism comprises a cover plate, the cover plate is fixedly connected with the cylinder inserting mechanism, and grooves which are matched and inserted with the guide rail columns are inwards recessed at two ends of one side of the cover plate away from the cylinder inserting mechanism;

the upper inner wall of the cover plate is inclined;

The cover plate is fixedly connected with a second shaft rod at one side close to the insertion barrel, a rod ring is movably sleeved on the outer side of the second shaft rod through a bearing, a sweeping plate is fixedly connected to one side of the rod ring, and a sweeping brush is fixedly connected to one end, far away from the rod ring, of the sweeping plate;

the lower side of the rod ring is provided with a convex block in a protruding mode, pull ropes are uniformly and fixedly connected to the lower side of the convex block at equal intervals, and one ends, far away from the convex blocks, of the pull ropes are fixedly connected with the counterweight rods on the same side together.

As a preferable technical scheme of the invention, the vibration membrane mechanism is positioned at the anticlockwise side of the lower part of the cartridge inserting mechanism, the vibration membrane mechanism is positioned in the cartridge hole, the vibration membrane mechanism comprises a hanging rod, the hanging rod is fixedly connected with the cartridge inserting mechanism, and the anticlockwise surface of the hanging rod is inclined and is matched with a side frame on the membrane frame mechanism;

The lower surface of the hanging rod is uniformly and obliquely provided with slots at equal intervals, the lower ends of the slots are inserted with inserted rods, the lower ends of the inserted rods are movably connected with roll shafts through rotating shafts, one side of the roll shaft protrudes outwards and corresponds to the laminating membrane plate, the upper end of the inserted link is fixedly connected with a spring, and one end of the spring, which is far away from the inserted link, is fixedly connected with the slot.

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

A reverse osmosis water treatment device with high recovery rate is characterized in that an electric control valve inside an inflow hole is opened, sewage is led into a space surrounded by a mechanical filtering membrane and a solid membrane through a second guide pipe, the sewage is filtered to the lower side through the mechanical filtering membrane, a cylinder is started to insert an air pipe into a moving assembly to the lower side, the moving assembly is further pressed downwards through the air pipe into a socket and a pushing screen plate, the reserved space of the sewage is reduced, and therefore the filtering efficiency of the mechanical filtering membrane to the sewage is improved.

The utility model provides a high recovery reverse osmosis water treatment facilities, at the in-process that removes the subassembly and move down, the roller can laminate the membrane of installing on its anticlockwise membrane board to rotate at the in-process that removes the subassembly and continue to move down, one side evagination through the roller, thereby push the membrane, make membrane self produce vibrations, and then shake off the impurity of adhesion on it, in addition through the inclined plane design of peg, make it can be better laminate the membrane board and remove, strike off the impurity of adhesion on the membrane board, assist to clear up the membrane.

A reverse osmosis water treatment device with high recovery rate is characterized in that after a movable component moves to the lowest side under the pushing of a cleaning component, an electric control valve in an air pipe is opened, a fan is started to suction air, impurities filtered out of a membrane mounted on a membrane plate are further adsorbed to an impurity bin to be reserved through a cover plate and an inserting cylinder, the impurities on the membrane can be cleaned timely, and the filtering quality of the device is guaranteed.

A reverse osmosis water treatment device with high recovery rate is characterized in that impurities on a membrane are cleaned timely through downward movement of a movable component, the membrane is cleaned in a physical adsorption, scraping and vibration shaking-off mode, a large amount of clean water resources are prevented from being introduced and used, and a water source is saved.

A reverse osmosis water treatment device with high recovery rate has outflow holes just opposite to the admission holes, and can lead out filtered clean water through the inflow holes after opening an electric control valve inside the outflow holes, the device periodically completes the filtration of sewage, the operations such as resetting are not needed, and the working efficiency of the device is improved.

A reverse osmosis water treatment device with high recovery rate is characterized in that through the design of a cleaning component and the rotation working condition of an inner barrel mechanism, after each rotation, the cleaning component can always align with the next moving component, and after the sewage is pressurized and filtered by pushing the moving component, the corresponding membrane can be cleaned timely, so that the cleaning component can clean a plurality of kinds of membranes, and the working utilization rate of the cleaning component is improved.

The utility model provides a reverse osmosis water treatment facilities of high recovery rate, after the fan starts, under the effect of induced draft wind force, swing subassembly then can rotate with first axostylus axostyle as the axle, pulls through the stay cord to make the brush laminating clean the impurity on the surface of membrane to inserting the lower port of section of thick bamboo, supplementary gathering impurity improves deashing efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the housing mechanism of the present invention;

FIG. 3 is a schematic diagram of a motor according to the present invention;

FIG. 4 is a schematic view of a cleaning assembly according to the present invention;

FIG. 5 is a schematic view of a second conduit according to the present invention;

FIG. 6 is a schematic view of the position of the inner barrel mechanism of the present invention;

FIG. 7 is a schematic view of an inner barrel mechanism of the present invention;

FIG. 8 is a schematic view of the interior of the inner barrel mechanism of the present invention;

FIG. 9 is a schematic view of the position of the film frame mechanism of the present invention;

FIG. 10 is a schematic view of a film frame mechanism according to the present invention;

FIG. 11 is a schematic view of a cartridge mechanism of the present invention;

FIG. 12 is a schematic view of a swing assembly of the present invention;

FIG. 13 is a schematic cross-sectional view of a mobile assembly according to the present invention;

FIG. 14 is a schematic cross-sectional view of a vibrating membrane mechanism according to the present invention;

FIG. 15 is a schematic cross-sectional view of a body of the present invention;

fig. 16 is an enlarged schematic view of fig. 15 at a in accordance with the present invention.

In the figure: 1. a housing mechanism; 101. a housing; 102. a shell hole; 103. a guide hole; 104. a first conduit; 105. a second conduit; 106. a wind pipe seat; 107. an air duct; 108. an impurity bin; 109. a hose; 110. a blower; 111. a cylinder; 112. a connecting plate; 113. a column; 114. a bottom plate; 115. a motor; 2. an inner cylinder mechanism; 201. an inner cylinder; 202. a cylindrical hole; 203. an inflow hole; 204. a discharge orifice; 205. a guide rail column; 206. a caulking groove; 207. a rope winder; 3. a film frame mechanism; 301. a middle frame; 302. a membrane plate; 303. a side frame; 304. a mechanical filtration membrane; 305. an activated carbon filtration membrane; 306. a reverse osmosis filtration membrane; 307. a solid film; 4. a cylinder inserting mechanism; 401. a plug cylinder; 402. rope grooves; 403. a socket; 404. a screen plate; 405. a belt; 406. a first shaft; 407. a shaft block; 408. a fan plate; 409. a small column; 410. a weight bar; 411. a clamping plate; 412. a fan wheel; 413. a shield; 5. a cover plate mechanism; 501. a cover plate; 502. a groove; 503. a second shaft; 504. a rod ring; 505. a sweeping plate; 506. sweeping; 507. a bump; 508. a pull rope; 6. a vibration film mechanism; 601. a hanging rod; 602. a slot; 603. a rod; 604. a roll shaft; 605. and (3) a spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: referring to fig. 1,2, 3, 4, 6, 7,9, 10, 11, 15 and 16, a high recovery reverse osmosis water treatment device comprises a housing mechanism 1, wherein the housing mechanism 1 comprises a housing 101, a circular housing hole 102 is formed in the housing 101, and a guide hole 103 is formed in one side of the housing hole 102 in a penetrating manner;

The bottom surface of the shell 101 is fixedly connected with a bottom plate 114;

An inner cylinder mechanism 2 is arranged in the shell hole 102;

the upper part of the housing 101 is provided with a cleaning assembly;

The cleaning assembly comprises an air duct seat 106, an air duct 107 with an electric control valve is fixedly communicated with the lower end of the air duct seat 106, the lower end of the air duct 107 penetrates through the shell 101, and initially, the lower end face of the air duct 107 is flush with the inner wall face of the shell hole 102;

a motor 115 opposite to the shell hole 102 is fixedly connected to one side of the upper surface of the bottom plate 114 through a bottom column;

the inner barrel mechanism 2 comprises an inner barrel 201 which is matched with the plug housing hole 102, and an output shaft of the motor 115 is fixedly connected with the inner barrel 201 in a positive position;

Square cylinder holes 202 are formed in the inner cylinder 201, guide rail columns 205 are fixedly connected to two ends of one side of the four inner walls of the cylinder holes 202 respectively, and caulking grooves 206 are formed in the other side of the four inner walls of the cylinder holes 202 in a penetrating mode respectively;

a cross-shaped film frame mechanism 3 is arranged in the barrel hole 202, and the film frame mechanism 3 divides the internal space of the barrel hole 202 into four grids;

A moving component matched with the cleaning component is arranged inside each caulking groove 206;

The moving assembly comprises a cylinder inserting mechanism 4, a cover plate mechanism 5 and a vibration film mechanism 6;

the cartridge inserting mechanism 4 comprises a cartridge 401 which is matched and inserted with the caulking groove 206, a socket 403 which is matched and opposite to the air pipe 107 is embedded and installed on the upper wall of the cartridge 401, a U-shaped screen 404 is covered at the lower end of the socket 403, elastic belts 405 are fixedly connected to the two sides of the lower inner wall of the screen 404 respectively, and the upper ends of the elastic belts 405 are fixedly connected with the cartridge 401.

Referring to fig. 4 and 5, the outer port of the guide hole 103 is fixedly connected with a first conduit 104, the outer port of the first conduit 104 is fixedly connected with two second conduits 105, and the two second conduits 105 are respectively used for introducing water and discharging water.

Referring to fig. 4, an impurity bin 108 is arranged at one side of an air pipe 107, a hose 109 is fixedly connected to the upper side of the impurity bin 108, one end, away from the impurity bin 108, of the hose 109 is fixedly connected to an air pipe seat 106, a fan 110 is fixedly arranged at one side of the impurity bin 108, and the impurity bin 108 and the fan 110 are fixedly connected to a shell 101;

the other side of the air pipe 107 is provided with an air cylinder 111, the lower end of the air cylinder 11 is fixedly connected with a connecting plate 112, one side of the connecting plate 112 is fixedly connected with an air pipe seat 106, the other side of the air cylinder 111 is fixedly connected with a stand column 113, and one end of the stand column 113 away from the air cylinder 111 is fixedly connected with the shell 101.

Referring to fig. 7 and 8, one side of the barrel hole 202 is provided with an inlet hole 203 in a penetrating manner, initially, the inlet hole 203 is in butt joint with the guide hole 103, the other side of the barrel hole 202 is provided with an outlet hole 204 in a penetrating manner, the position of the outlet hole 204 is obtained by ninety degrees of anticlockwise rotation of the position of the inlet hole 203 by taking the axis of the inner barrel 201 as the axis, and the inner ends of the inlet hole 203 and the outlet hole 204 are respectively provided with an electric control valve.

Referring to fig. 8, a rope winder 207 is fitted in the middle of the inner wall of the insertion groove 206 on the clockwise side.

Referring to fig. 10, the film frame mechanism 3 includes a middle frame 301, wherein the middle frame 301 is fixedly connected with a tube hole 202, film plates 302 are respectively arranged on four sides of the middle frame 301, two sides of each film plate 302 are respectively clamped with a side frame 303, the side frame 303 on one side is fixedly connected with the middle frame 301, and the side frame 303 on the other side is fixedly connected with the tube hole 202;

A mechanical filtration membrane 304 is installed in the membrane plate 302 on the right side, an activated carbon filtration membrane 305 is installed in the membrane plate 302 on the lower side, a reverse osmosis filtration membrane 306 is installed in the membrane plate 302 on the left side, and a solid membrane 307 is installed in the membrane plate 302 on the upper side.

Referring to fig. 11 and 16, a rope groove 402 is formed on the clockwise side surface of the socket 401, and the rope groove 402 is fixedly connected to the output cable end of the rope reel 207.

Referring to fig. 11, 12, 13 and 15, two sides of a lower port of the cartridge 401 are fixedly connected with first shaft rods 406 respectively, one side of each of the two first shaft rods 406, which is away from the other side, is provided with a shaft stop 407 respectively, and one end of the shaft stop 407, which is away from the first shaft rod 406, is fixedly connected with the cartridge 401;

the first shaft 406 has a swing assembly disposed thereon;

the swing assembly comprises a fan plate 408, a first shaft lever 406 is movably sleeved at the lower end of the fan plate 408, one end, close to the first shaft lever 406, of a shaft block 407 is matched with the fan plate 408, a small column 409 is fixedly connected to the lower side of the fan plate 408, and a counterweight rod 410 is fixedly connected to the lower side of the small column 409;

the middle part of the fan plate 408 is embedded and provided with a meshed clamping plate 411;

The upper end of the fan plate 408 is movably connected with a fan wheel 412 through a rotating shaft, the outer side of the fan wheel 412 is covered with a meshed baffle cover 413, and the baffle cover 413 is fixedly connected on the fan plate 408.

The cover plate mechanism 5 is positioned at the clockwise side of the lower part of the cartridge inserting mechanism 4, the cover plate mechanism 5 is positioned in the cartridge hole 202, the cover plate mechanism 5 comprises a cover plate 501, the cover plate 501 is fixedly connected with the cartridge 401, and both ends of one side of the cover plate 501 away from the cartridge 401 are inwards recessed with grooves 502 which are matched and inserted with the guide rail columns 205;

The upper inner wall of the cover plate 501 is inclined;

A second shaft 503 is fixedly connected to one side of the cover plate 501 close to the cartridge 401, a rod ring 504 is movably sleeved on the outer side of the second shaft 503 through a bearing, a sweeping plate 505 is fixedly connected to one side of the rod ring 504, a sweeping brush 506 is fixedly connected to one end of the sweeping plate 505, which is far away from the rod ring 504, and initially, the inclination angles of the sweeping plate 505, the sweeping brush 506 and the upper inner wall of the cover plate 501 are consistent;

The lower side of the rod ring 504 is provided with a bump 507 in a protruding way, the lower side of the bump 507 is uniformly and fixedly connected with a pull rope 508 at equal intervals, and one end of the pull rope 508 far away from the bump 507 is fixedly connected with a counterweight rod 410 at the same side together.

Referring to fig. 14 and 16, the vibration membrane mechanism 6 is located at the counterclockwise side of the lower part of the cartridge inserting mechanism 4, the vibration membrane mechanism 6 is located inside the cartridge hole 202, the vibration membrane mechanism 6 comprises a hanging rod 601, the hanging rod 601 is fixedly connected with the cartridge 401, and the counterclockwise surface of the hanging rod 601 is inclined and is matched with the side frame 303 on the membrane frame mechanism 3;

The lower surface equidistance of peg 601 evenly inclines to have seted up slot 602, and peg graft the lower extreme of slot 602 has inserted bar 603, and the lower extreme of inserted bar 603 has roller 604 through pivot swing joint, and one side evagination of roller 604 just corresponds laminating lamina membranacea 302, and the upper end fixedly connected with spring 605 of inserted bar 603, the one end fixed connection slot 602 of inserted bar 603 is kept away from to spring 605.

The working principle of the invention is as follows:

The first step: the electric control valve in the inflow hole 203 is opened, sewage is led into a space surrounded by the mechanical filtering membrane 304 and the solid membrane 307 through a second conduit 105, the sewage is filtered to the lower side through the mechanical filtering membrane 304, the air cylinder 111 is started to insert the air pipe 107 to the lower side into the movable assembly, the movable assembly is further pressed downwards through the air pipe 107 inserted into the insertion opening 403 and the pushing screen 404, and the reserved space of the sewage is reduced, so that the filtering efficiency of the mechanical filtering membrane 304 on the sewage is improved.

And a second step of: in the process of moving the assembly downwards, the roller 604 can be attached to the film mounted on the film plate 302 at the anticlockwise side of the roller, and the roller rotates in the process of continuously moving the assembly downwards, and the film is pushed out through one side of the roller 604, so that the film itself vibrates, impurities adhered to the film are shaken off, in addition, the film plate 302 can be better attached to the film plate by the design of the inclined surface of the hanging rod 601, the impurities adhered to the film plate 302 are scraped, and the film is cleaned in an auxiliary manner.

And a third step of: after the movable assembly moves to the bottommost side under the pushing of the cleaning assembly, an electric control valve in the air pipe 107 is opened, the fan 110 is started to suck air, impurities filtered out of the membrane mounted on the membrane plate 302 are further adsorbed to the impurity bin 108 for storage through the cover plate 501 and the cartridge 401, and the impurities on the membrane can be cleaned timely, so that the filtering quality of the device is guaranteed.

Fourth step: through the downshift of moving the subassembly, timely clear up the impurity on the membrane to clean the membrane through physical adsorption, strike off and vibrations shake off the mode, avoided introducing and the use of a large amount of clear water resources, practice thrift the water source.

Fifth step: the sewage led into the inside of the cylindrical hole 202 is filtered to the next grid of the inner space of the cylindrical hole 202 through the mechanical filtering membrane 304, then the inner cylinder mechanism 2 is rotated for ninety degrees once through the starting motor 115, so that the angle of the membrane frame mechanism 3 is switched, the sewage is filtered again through the active carbon filtering membrane 305 through the same principle, finally the sewage is filtered through the reverse osmosis filtering membrane 306, after the sewage is filtered through the reverse osmosis filtering membrane 306, the starting motor 115 rotates the inner cylinder mechanism 2 for ninety degrees again, the outlet hole 204 just right corresponds to the inlet hole 203 at the moment, after an electric control valve inside the outlet hole 204 is opened, the filtered clean water can be led out through the inlet hole 203, the sewage is filtered through the device periodically, the operations such as resetting are not needed, and the working efficiency of the device is improved.

Sixth step: through the design of clean subassembly and the rotation behavior of inner tube mechanism 2, at every turn after, clean subassembly always aims at next removal subassembly to through promoting removal subassembly and carry out the pressurized filtration to sewage after, just can be timely clear up corresponding membrane, make clean subassembly can clean to a plurality of kinds of membranes, improve its work utilization ratio.

Seventh step: after the fan 110 is started, under the action of induced draft force, the swing assembly rotates by taking the first shaft lever 406 as an axis, and pulls the pull rope 508, so that the brush 506 is attached to the surface of the film to clean impurities on the surface of the film towards the lower port of the plug cylinder 401, the impurities are gathered in an auxiliary manner, and the ash cleaning efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The high-recovery reverse osmosis water treatment device comprises a shell mechanism (1), wherein the shell mechanism (1) comprises a shell (101), a round shell hole (102) is formed in the shell (101), and a guide hole (103) is formed in one side of the shell hole (102) in a penetrating manner;

the lower surface of the shell (101) is fixedly connected with a bottom plate (114);

An inner cylinder mechanism (2) is arranged in the shell hole (102);

the method is characterized in that: the upper part of the shell (101) is provided with a cleaning component;

The cleaning assembly comprises an air pipe seat (106), an air pipe (107) with an electric control valve is fixedly communicated with the lower end of the air pipe seat (106), and the lower end of the air pipe (107) penetrates through the shell (101);

A motor (115) opposite to the shell hole (102) is fixedly connected to one side of the upper surface of the bottom plate (114) through a bottom column;

The inner cylinder mechanism (2) comprises an inner cylinder (201) which is matched with the plug-in shell hole (102), and an output shaft of the motor (115) is fixedly connected with the inner cylinder (201) in a positive position;

square cylinder holes (202) are formed in the inner cylinder (201), guide rail columns (205) are fixedly connected to two ends of one side of the four-side inner walls of the cylinder holes (202) respectively, and caulking grooves (206) are formed in the other side of the four-side inner walls of the cylinder holes (202) in a penetrating mode respectively;

a cross-shaped film frame mechanism (3) is arranged in the cylinder hole (202);

A moving component matched with the cleaning component is arranged in each caulking groove (206);

the moving assembly comprises a cylinder inserting mechanism (4), a cover plate mechanism (5) and a vibration film mechanism (6);

The inserting cylinder mechanism (4) comprises an inserting cylinder (401) which is matched and inserted with the caulking groove (206), a socket (403) which is right opposite to the air pipe (107) in a matched mode is embedded and installed on the upper wall of the inserting cylinder (401), a U-shaped screen plate (404) is covered at the lower end of the socket (403), elastic belts (405) are fixedly connected to two sides of the lower inner wall of the screen plate (404) respectively, and the upper ends of the elastic belts (405) are fixedly connected with the inserting cylinder (401).

2. The high recovery reverse osmosis water treatment device according to claim 1, wherein: the outer port of the guide hole (103) is fixedly communicated with a first guide pipe (104), and the outer port of the first guide pipe (104) is fixedly communicated with two second guide pipes (105).

3. The high recovery reverse osmosis water treatment device according to claim 1, wherein: an impurity bin (108) is arranged on one side of the air pipe (107), a hose (109) is fixedly communicated with the upper side of the impurity bin (108), one end, away from the impurity bin (108), of the hose (109) is fixedly connected with an air pipe seat (106), a fan (110) is fixedly arranged on one side of the impurity bin (108), and the impurity bin (108) and the fan (110) are both fixedly connected with the shell (101);

The air conditioner is characterized in that an air cylinder (111) is arranged on the other side of the air pipe (107), a connecting plate (112) is fixedly connected to the lower end of the air pipe (11), an air pipe seat (106) is fixedly connected to one side of the connecting plate (112), an upright post (113) is fixedly connected to the other side of the air cylinder (111), and one end, far away from the air cylinder (111), of the upright post (113) is fixedly connected with a shell (101).

4. A high recovery reverse osmosis water treatment device according to claim 2, characterized in that: one side of the barrel hole (202) is provided with an inflow hole (203) in a penetrating way, the other side of the barrel hole (202) is provided with an outflow hole (204) in a penetrating way, and the inner ends of the inflow hole (203) and the outflow hole (204) are provided with electric control valves.

5. The high recovery reverse osmosis water treatment device according to claim 1, wherein: the rope winder (207) is embedded and installed in the middle of the inner wall of the clockwise side of the caulking groove (206).

6. The high recovery reverse osmosis water treatment device according to claim 1, wherein: the membrane frame mechanism (3) comprises a middle frame (301), wherein the middle frame (301) is fixedly connected with a cylinder hole (202) in a right position, membrane plates (302) are respectively arranged on four sides of the middle frame (301), side frames (303) are respectively clamped on two sides of the membrane plates (302), one side frame (303) is fixedly connected with the middle frame (301), and the other side frame (303) is fixedly connected with the cylinder hole (202);

A mechanical filter membrane (304) is arranged in the membrane plate (302) on the right side, an activated carbon filter membrane (305) is arranged in the membrane plate (302) on the lower side, a reverse osmosis filter membrane (306) is arranged in the membrane plate (302) on the left side, and a solid membrane (307) is arranged in the membrane plate (302) on the upper side.

7. The high recovery reverse osmosis water treatment device according to claim 5, wherein: a rope groove (402) is formed in the clockwise side surface of the plug tube (401), and the cable output end of the rope reel (207) is fixedly connected with the rope groove (402).

8. The high recovery reverse osmosis water treatment device according to claim 1, wherein: the two sides of the lower port of the plug cylinder (401) are fixedly connected with first shaft rods (406) respectively, shaft stops (407) are arranged on the sides, away from each other, of the two first shaft rods (406), and one end, away from the first shaft rods (406), of each shaft stop (407) is fixedly connected with the plug cylinder (401);

a swing assembly is disposed on the first shaft (406);

The swing assembly comprises a fan plate (408), a first shaft lever (406) is movably sleeved at the lower end of the fan plate (408), one end, close to the first shaft lever (406), of the shaft block (407) is matched with the fan plate (408), a small column (409) is fixedly connected to the lower side of the fan plate (408), and a counterweight rod (410) is fixedly connected to the lower side of the small column (409);

The middle part of the fan plate (408) is embedded with a meshed clamping plate (411);

the upper end of the fan plate (408) is movably connected with a fan wheel (412) through a rotating shaft, the outer side of the fan wheel (412) is covered with a meshed baffle cover (413), and the baffle cover (413) is fixedly connected to the fan plate (408).

9. The high recovery reverse osmosis water treatment device according to claim 8, wherein: the cover plate mechanism (5) is positioned at the clockwise side of the lower part of the cartridge inserting mechanism (4), the cover plate mechanism (5) is positioned in the cartridge hole (202), the cover plate mechanism (5) comprises a cover plate (501), the cover plate (501) is fixedly connected with the cartridge (401), and grooves (502) which are matched and inserted with the guide rail columns (205) are inwards recessed at two ends of one side of the cover plate (501) away from the cartridge (401);

The upper inner wall of the cover plate (501) is inclined;

one side of the cover plate (501) close to the plug cylinder (401) is fixedly connected with a second shaft rod (503), the outer side of the second shaft rod (503) is movably sleeved with a rod ring (504) through a bearing, one side of the rod ring (504) is fixedly connected with a sweeping plate (505), and one end, far away from the rod ring (504), of the sweeping plate (505) is fixedly connected with a sweeping brush (506);

the lower side of the rod ring (504) is provided with a bump (507) in a protruding mode, pull ropes (508) are uniformly and fixedly connected to the lower side of the bump (507) at equal intervals, and one ends, far away from the bump (507), of the pull ropes (508) are fixedly connected with the counterweight rods (410) on the same side together.

10. The high recovery reverse osmosis water treatment device according to claim 6, wherein: the vibration membrane mechanism (6) is positioned at the anticlockwise side of the lower part of the cartridge inserting mechanism (4), the vibration membrane mechanism (6) is positioned in the cartridge hole (202), the vibration membrane mechanism (6) comprises a hanging rod (601), the hanging rod (601) is fixedly connected with the cartridge inserting mechanism (401), and the anticlockwise surface of the hanging rod (601) is inclined and is matched with a side frame (303) on the membrane frame mechanism (3);

The utility model discloses a peg, including peg (603) and peg (605), peg (603) have been seted up to the lower surface equidistance of peg (601) evenly slope, peg graft in the lower extreme of peg (602) has peg (603), the lower extreme of peg (603) is through pivot swing joint has roller (604), one side evagination of roller (604) just corresponds laminating lamina membranacea (302), the upper end fixedly connected with spring (605) of peg (603), one end fixed connection slot (602) of peg (603) are kept away from to spring (605).