CN112275143A - Quick-release type decontamination method for reverse osmosis water treatment pipeline - Google Patents

Abstract

The invention discloses a quick-release type dirt removing method for a reverse osmosis water treatment pipeline, which comprises the following steps: rotate long oozing pipe earlier and separate with the anti-pipe that oozes, then take off the anti-pipe that oozes and clear up or change the reverse osmosis membrane, install the clear pipe again and the long oozing pipe of gyration is fixed, dock sewage case and a plurality of clear pipe again, start servo motor drive clear dirty shovel after that and fall long oozing intraductal wall mud, start the high pressure water pump again and go into sewage and wash the mud that falls long oozing pipe, get into in the sewage case through the clear pipe and be collected. The reverse osmosis component is composed of the long osmosis pipe, the reverse osmosis pipe and the short osmosis pipe, wherein the long osmosis pipe and the reverse osmosis pipe can be rapidly detached so as to clean or replace a reverse osmosis membrane in time, the sewage after cleaning the long osmosis pipe is collected through the arranged cleaning mechanism, the reverse osmosis pipe is replaced by the cleaning pipe, and the servo motor is started to drive the cleaning shovel to shovel off attachments on the inner wall of the long osmosis pipe, so that the automatic effect is good, and a large amount of working time is saved.

Description

Quick-release type decontamination method for reverse osmosis water treatment pipeline

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a quick-release type sewage disposal method for a reverse osmosis water treatment pipeline.

Background

The sewage treatment is a purification process for purifying water and then discharging the purified water to the nature. A plurality of methods such as a precipitation method, an ion exchange method, a biomembrane method and the like exist in the existing sewage treatment, and the sewage can be well purified to be discharged after reaching the standard. The biomembrane method utilizes an artificial semipermeable membrane with very small membrane aperture, and sewage passes through the reverse osmosis membrane under the pressure higher than osmotic pressure to block some dissolved salts, colloids, microorganisms, organic matters and the like, so that only water molecules permeate the membrane, and the purification effect is achieved. However, after the reverse osmosis membrane is used for a long time, the reverse osmosis membrane needs to be replaced or cleaned, a large amount of sludge can be attached to the inner wall of the pipeline for reverse osmosis, timely cleaning is needed, the reverse osmosis pipeline is mostly of an integral structure, the whole reverse osmosis pipeline needs to be dismantled, manual scrubbing and scouring are carried out, the cleaning method is troublesome and labor-consuming, and the whole working schedule is influenced.

Disclosure of Invention

The invention aims to provide a quick-release type dirt removing method for a reverse osmosis water treatment pipeline, which aims to solve the problems in the background technology.

In order to achieve the aim, the invention provides a quick-release type dirt removing method for a reverse osmosis water treatment pipeline, which comprises the following steps:

firstly, a reverse osmosis pipe quick-release cleaning stage:

s1, pressing a quick-release part in the reverse osmosis water treatment pipeline sewage disposal device downwards to drive a lock tongue to retreat and separate from a left end positioning groove of a reverse osmosis pipe;

s2, rotating the reverse osmosis tube by 180 degrees to completely separate the circular groove from the semicircular ring, loosening the nut at one end of the circular ring at the bottom end of the rotating rod, and pressing the left end of the long osmosis tube downwards to separate the right end of the long osmosis tube from the reverse osmosis tube;

s3, taking out the reverse osmosis tube, and cleaning the reverse osmosis membrane;

the reverse osmosis water treatment pipeline sewage disposal device comprises a reverse osmosis device and a sewage disposal mechanism arranged on one side of the reverse osmosis device, the reverse osmosis device consists of a plurality of reverse osmosis components from bottom to top, each reverse osmosis component comprises a long osmosis pipe which is coaxially connected in sequence, the reverse osmosis pipe and the short osmosis pipe can be rotatably disassembled and assembled, the axial section of the reverse osmosis pipe is I-shaped, the inner wall of the reverse osmosis pipe is provided with a reverse osmosis membrane, the right end of the long osmosis pipe is sleeved with a rotating sleeve which drives the long osmosis pipe to deflect downwards, the bottom of the rotating sleeve is obliquely provided with a rotating rod towards the right end of the rotating sleeve, the outer side surface of the right end of the long osmosis pipe is provided with a thickened long osmosis pipe table, the lower half part of the outer end surface of the long osmosis pipe table is provided with a semicircular ring, the top of the long osmosis pipe table is hinged with a quick disassembling part, the upper half part of the outer end surface of the long osmosis pipe table is provided with a tongue groove in an annular manner, a lock tongue is clamped in the tongue groove;

secondly, a fast assembly stage of the sewage cleaning pipe:

s4, after the reverse osmosis tube is taken out, putting the sewage cleaning tube between the long osmosis tube and the short osmosis tube, inserting the positioning groove at the right end of the sewage cleaning tube into the positioning table, extruding the whole circle of sealing gasket to press the sealing ring, and continuously rotating the sewage cleaning tube to enable the boss at the lower half part of the left end surface of the sewage cleaning tube to be arranged at the upper half part;

s5, rotating the long infiltration pipe to be in butt joint with the sewage cleaning pipe, and rotating the sewage cleaning pipe 180 degrees to enable the circular groove to be completely inserted into the semicircular ring;

s6, screwing the nut at one end of the circular ring at the bottom end of the rotating rod to stabilize the long infiltration pipe;

s7, lifting the quick-release part upwards to separate the inserting plate from the slot, ejecting the lock tongue under the action of the spring force, inserting the lock tongue into the positioning groove at the left end of the sewage disposal pipe, and further extruding the half-circle sealing gasket to press the sealing ring;

thirdly, cleaning the sewage by the long infiltration pipe:

s8, pushing the sewage tank to one side of the sewage cleaning pipe, and butting the sewage collecting pipe with the sewage discharging pipe;

s9, starting a servo motor to drive the rotating shaft to rotate in the long infiltration pipe, and driving the dirt removing shovel to synchronously rotate so as to shovel off the sludge on the inner wall of the long infiltration pipe;

s10, the high-pressure water pump is started again to pump the sewage into the long infiltration pipe, and the scoured sludge enters the sewage tank to be collected;

the sewage cleaning mechanism comprises a sewage tank for collecting sludge on the inner wall of the long seepage pipe, a sewage cleaning pipe which is coaxially butted with the long seepage pipe and the short seepage pipe and a rotating shaft and a sewage cleaning shovel which are coaxially connected with the sewage cleaning pipe, wherein the upper part of the sewage tank is provided with the sewage cleaning pipe for coaxially butting the long seepage pipe and the short seepage pipe, the middle part of the inner wall of the sewage cleaning pipe is sealed and is close to an inner cavity at the right end of the sewage cleaning pipe, a servo motor for driving the rotating shaft to rotate is installed in the inner cavity of the inner wall of the sewage cleaning pipe, the outer side of the sewage cleaning shovel is in arc surface and is in sliding connection with the inner wall of the long seepage pipe, the sewage cleaning shovel rotates around the central shaft of the rotating shaft, a plurality of springs are embedded between the spring tongue and the inner end surface of the tongue groove, sealing components which are butted with the long seepage pipe.

As a further improvement of the technical scheme, the bottom surface of the front end of the quick-release part is provided with an arc-shaped inserting plate, the central shaft of the inserting plate coincides with the rotating shaft of the quick-release part, the top of the long infiltration pipe table is provided with a slot which is inserted into the inserting plate, and the middle part of the top surface of the lock tongue is provided with a sliding groove which is clamped with the inserting plate.

As a further improvement of the technical scheme, a thickened short infiltration pipe table is arranged on the outer side face of the left end of the short infiltration pipe, an annular positioning table is arranged on the outer end face of the short infiltration pipe table, and a sealing ring extending outwards is tightly sleeved on the inner opening of the right end of the long infiltration pipe and the inner opening of the left end of the short infiltration pipe.

As the further improvement of this technical scheme, the left end of anti-infiltration pipe and the right-hand member laminating swivelling joint of long infiltration pipe, the right-hand member of anti-infiltration pipe cup joints and is rotatable with the left end of short infiltration pipe, the left end mouth inner wall of anti-infiltration pipe bonds has and seals the semi-ring pad that the ring outer wall cup jointed, the left end face lower half of anti-infiltration pipe is equipped with the boss and the outer terminal surface of boss and sets up the ring groove that cup joints with the semi-ring, the inner wall middle part of anti-infiltration pipe is equipped with the round and keeps off the ring, the outer wall middle part radial symmetry of anti-infiltration pipe is equipped.

As the further improvement of this technical scheme, sealed inside being provided with of filling up is used for extruding it and hugs closely in the preforming that seals the ring outer wall, the sealed extrados of filling up offer with the inseparable arc groove of joint of preforming, the preforming is domes and both ends and are equipped with the pressure head perpendicularly, the extrados radial welding of preforming has a plurality of compression legs that are the mushroom-shaped, the thin section cover of compression leg is equipped with the pressure spring, the interior cambered surface of constant head tank offer with the draw-in groove of compression leg joint, the thin section of compression leg runs through to the inner wall of the pipe that oozes conversely, the pressure spring.

As the further improvement of this technical scheme, the bottom of dwang is equipped with ring and ring center and is located anti-under of oozing the pipe left end, and the bottom ring center of dwang equals to oozing a pipe center distance to its top distance and to anti-oozing, and the rotating tube that supports its deflection is installed to the left end of long oozing the pipe, rotates the cover and is open-top's ring, and dwang bottom ring rotates and is connected with the bracket that is the U type, and the both ends of bracket are vertical to be provided with branch, and the branch that is located the top passes through bolt fixed connection with the bracket that is located the below.

As a further improvement of the technical scheme, the left end of the long infiltration pipe and the right end of the short infiltration pipe are both tightly sleeved with the pipe connection sleeve, the rotating pipe is tightly sleeved with the corresponding pipe connection sleeve, the extending end of the rotating pipe is bent to be downwards provided with a section of arc pipe, the arc pipe is concentric with the circle at the bottom end of the rotating rod, a sleeve pipe concentric with the circle at the bottom end of the rotating rod is sleeved inside the arc pipe, and the bottom end of the sleeve pipe is vertically provided with a water inlet pipe.

As the further improvement of the technical scheme, the appearance size and the two-end structure of the sewage cleaning pipe and the reverse osmosis pipe are the same, the bottom of the sewage tank is provided with the chassis, the bottom surface of the chassis is symmetrically provided with at least four universal wheels, the top of the sewage tank is communicated with the sewage collecting pipe, the sewage cleaning pipe is close to the outer wall of the left end of the sewage cleaning pipe and is provided with the sewage discharge pipe communicated with the inside of the sewage cleaning pipe, and the sewage discharge pipe and the branch pipe extending from the sewage collecting pipe are tightly inserted and matched.

As the further improvement of this technical scheme, the diameter is greater than its both ends diameter in the middle of the pivot, and the both ends welding of pivot has the swivel becket, and the swivel becket cup joints and rotatable with the inner wall of long oozing pipe, and the right-hand member of pivot is equipped with and is square fixture block, and servo motor's output shaft front end symmetry is equipped with the stopper with the fixture block joint, and the top surface welding of dirt removing shovel has a plurality of connecting rods, and the welding of the top of connecting rod has the ring that cup joints with the pivot.

As a further improvement of this technical scheme, sewage suction pump is installed at the top of former water tank, and the water pump pipe is installed to high-pressure water pump's delivery port, and the cooperation of closely pegging graft in the bottom of water pump pipe and circular arc pipe, and the right-hand member below of anti-device that oozes is provided with the header tank, and the inside of header tank is equipped with disinfection room and clear water room, and the top intercommunication that the top of header tank just is located the disinfection room has the leading water pipe, and the extension pipe and the takeover cover of leading water pipe one side closely peg graft the cooperation, and the clear water suction pump is installed to the top of header tank just is located the.

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

1. in the quick-release type decontamination method for the reverse osmosis water treatment pipeline, the reverse osmosis assembly is formed by arranging the long osmosis pipe, the reverse osmosis pipe and the short osmosis pipe, the reverse osmosis device is overlapped by a plurality of groups of reverse osmosis assemblies, a plurality of groups of reverse osmosis are synchronized for purification, the long osmosis pipe can be quickly separated from the reverse osmosis pipe, the reverse osmosis pipe can be conveniently taken down to clean or replace a reverse osmosis membrane, the structure is ingenious, the operation and the use are convenient, and the popularization value is high.

2. In this reverse osmosis water treatment pipeline's quick detach formula method of decontaminating, the mechanism of decontaminating through setting up collects the sewage after the pipe washing is oozed to the length, wherein only need to clean dirty tub replacement reverse osmosis pipe, start servo motor drive and clean the dirty shovel and fall the pipe inner wall attachment that oozes, in being let in the water-washed of the intraductal long infiltration again and brushing the entering sewage case, can realize the quick decontamination of long infiltration pipe, this mode of decontaminating has realized the automation, make the clearance simpler quick, a large amount of operating time has been saved.

3. In the quick-release type decontamination method of the reverse osmosis water treatment pipeline, the sealing components are arranged at the two ends of the reverse osmosis pipe and the decontamination pipe and are used for sealing the joint of the long osmosis pipe and the short osmosis pipe and preventing reverse osmosis and scouring, the sealing components can be directly inserted into the reverse osmosis pipe or the decontamination pipe to be extruded and sealed when the reverse osmosis pipe or the decontamination pipe is arranged, the structure is ingenious, and the sealing of the reverse osmosis component is easily realized.

4. In the quick-release type sewage disposal method for the reverse osmosis water treatment pipeline, the water collecting tank is arranged at the water outlet end of the reverse osmosis device, the sterilization chamber in the reverse osmosis water treatment pipeline can further sterilize the reverse osmosis purified water and then overflows into the clean water chamber for standby, so that the purification and the use of sewage are facilitated.

Drawings

FIG. 1 is a schematic view of an overall assembly structure of embodiment 1;

FIG. 2 is a schematic view of the reverse osmosis module of example 1 in a disassembled and assembled state;

FIG. 3 is a plan view showing the structure of the reverse osmosis module of example 1 in a disassembled state;

FIG. 4 is a schematic view of the reverse osmosis module assembly of example 1;

FIG. 5 is a schematic view of an assembly structure of the infiltration pipe of example 1;

FIG. 6 is an exploded view of the rotary tube according to embodiment 1;

FIG. 7 is a full sectional view of the disassembled section of the reverse osmosis module of example 1;

FIG. 8 is a full sectional view of the reverse osmosis membrane of example 1;

FIG. 9 is a full sectional view of the long infiltration pipe of example 1;

FIG. 10 is a full sectional view of the short infiltration pipe of example 1;

FIG. 11 is a schematic structural view of a seal assembly according to embodiment 1;

FIG. 12 is an exploded view of the gasket of example 1;

FIG. 13 is a full sectional view of the quick release member of embodiment 1;

fig. 14 is a full sectional view of the locking bolt of embodiment 1;

fig. 15 is a structural schematic view of a bolt lock state of embodiment 1;

fig. 16 is a structural diagram illustrating the pop-up state of the latch bolt of embodiment 1;

FIG. 17 is a schematic view of an assembled structure of the raw water tank of embodiment 1;

FIG. 18 is a schematic view showing an assembly structure of the water collecting tank according to embodiment 1;

FIG. 19 is a schematic view showing an assembly structure of the cleaning mechanism according to embodiment 1;

FIG. 20 is a schematic view showing the entire structure of the dirt removing mechanism according to embodiment 1;

FIG. 21 is a structural view showing the installation position of the cleaning mechanism in accordance with embodiment 1;

FIG. 22 is a partial sectional view of the purge mechanism according to embodiment 1;

FIG. 23 is a full sectional view of the soil cleaning pipe according to example 1;

FIG. 24 is an exploded view of the cleaning blade and the shaft of embodiment 1.

The various reference numbers in the figures mean:

100. a reverse osmosis device;

110. a reverse osmosis module; 120. a long infiltration pipe; 121. a long infiltration pipe table; 122. a semicircular ring; 123. a quick-release member; 1230. inserting plates; 124. a slot; 125. a tongue groove; 126. a latch bolt; 1260. a sliding groove; 127. a spring; 128. a sealing ring;

130. reverse osmosis pipe; 131. positioning a groove; 132. a semi-annular pad; 133. a circular groove; 134. a baffle ring; 135. a reverse osmosis membrane; 136. a card slot; 137. shifting blocks;

140. short infiltration pipes; 141. a short infiltration pipe table; 142. a positioning table; 150. rotating the sleeve; 151. rotating the rod; 152. a bracket; 153. a strut; 160. rotating the tube; 161. a circular arc tube; 162. a sleeve; 163. a water inlet pipe;

170. a seal assembly; 171. a gasket; 1710. an arc groove; 172. tabletting; 1720. a pressure head; 173. pressing the column; 174. a pressure spring; 180. a pipe connecting sleeve;

200. a dirt removing mechanism;

210. a sewage tank; 211. a chassis; 212. a sewage collecting pipe; 220. cleaning a sewage pipe; 221. a servo motor; 222. a limiting block; 223. a blow-off pipe;

230. a rotating shaft; 231. a rotating ring; 232. a clamping block; 240. cleaning a dirt shovel; 241. a connecting rod;

300. a raw water tank; 301. a water tank inlet; 302. a water outlet of the water tank; 303. a support plate;

310. a sewage water pump; 320. a high pressure water pump; 321. a water pump pipe; 322. a support;

400. a water collection tank; 401. a sterilization chamber; 402. a clear water chamber; 403. a drug feeding port;

410. a water conduit; 420. a clean water suction pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

The invention provides a quick-release type dirt removing method for a reverse osmosis water treatment pipeline, which comprises the following steps:

firstly, a reverse osmosis pipe quick-release cleaning stage:

s1, firstly, pressing a quick-release part 123 in the reverse osmosis water treatment pipeline sewage disposal device downwards to drive a bolt 126 to retreat and separate from a left end positioning groove 131 of a reverse osmosis pipe 130;

s2, rotating the reverse osmosis tube 130 by 180 degrees to completely separate the circular groove 133 from the semicircular ring 122, loosening the nut at one end of the circular ring at the bottom end of the rotating rod 151, and pressing the left end of the long osmosis tube 120 downwards to separate the right end of the long osmosis tube 120 from the reverse osmosis tube 130;

s3, taking out the reverse osmosis pipe 130, and cleaning the reverse osmosis membrane 135;

the reverse osmosis water treatment pipeline sewage disposal device comprises a reverse osmosis device 100 and a sewage disposal mechanism 200 arranged on one side of the reverse osmosis device, wherein the reverse osmosis device 100 consists of a plurality of reverse osmosis components 110 from bottom to top, each reverse osmosis component 110 comprises a long osmosis pipe 120 which are coaxially connected in sequence, the reverse osmosis tube 130 and the short osmosis tube 140 can be rotatably disassembled and assembled, the axial section of the reverse osmosis tube 130 is I-shaped, the reverse osmosis membrane 135 is installed on the inner wall of the reverse osmosis tube 130, the right end of the long osmosis tube 120 is sleeved with a rotating sleeve 150 which drives the long osmosis tube to deflect downwards, the bottom of the rotating sleeve 150 is obliquely provided with a rotating rod 151 towards the right end of the rotating sleeve 150, the outer side face of the right end of the long osmosis tube 120 is provided with a thickened long osmosis tube platform 121, the lower half part of the outer end face of the long osmosis tube platform 121 is provided with a semicircular ring 122, the top of the long osmosis tube platform 121 is hinged with a quick disassembling piece 123, the upper half part of the outer end face of the long osmosis tube platform 121 is provided with a tongue groove 125 in an annular shape, a lock tongue 126 is clamped in the tongue groove 125, and the;

secondly, a fast assembly stage of the sewage cleaning pipe:

s4, after taking out the reverse osmosis tube 130, putting the cleaning tube 220 between the long osmosis tube 120 and the short osmosis tube 140, inserting the positioning groove 131 at the right end of the cleaning tube 220 into the positioning table 142, pressing the sealing ring 128 by extruding the whole ring of the sealing gasket 171, and continuously rotating the cleaning tube 220 to place the boss at the lower half part of the left end surface of the cleaning tube at the upper half part;

s5, rotating the long infiltration pipe 120 to be in butt joint with the sewage cleaning pipe 220, and rotating the sewage cleaning pipe 220 for 180 degrees to enable the circular groove 133 to be completely inserted into the semicircular ring 122;

s6, screwing the nut at one end of the circular ring at the bottom end of the rotating rod 151 to stabilize the long infiltration pipe 120;

s7, pulling the quick-release member 123 upwards to separate the inserting plate 1230 from the slot 124, the locking tongue 126 is ejected out under the action of the spring force of the spring 127 and inserted into the positioning groove 131 at the left end of the dirt cleaning pipe 220, and the sealing ring 128 is pressed by the half-ring sealing gasket 171;

thirdly, cleaning the sewage by the long infiltration pipe:

s8, pushing the sewage tank 210 to one side of the sewage cleaning pipe 220, and butting the sewage collecting pipe 212 with the sewage discharge pipe 223;

s9, starting the servo motor 221 to drive the rotating shaft 230 to rotate in the long infiltration pipe 120, and driving the dirt removing shovel 240 to rotate synchronously, so as to shovel off the sludge on the inner wall of the long infiltration pipe 120;

s10, the high-pressure water pump 320 is started again to pump the sewage into the long infiltration pipe 120, and the flushing sludge enters the sewage tank 210 to be collected;

the cleaning mechanism 200 comprises a sewage tank 210 for collecting sludge on the inner wall of the long infiltration pipe 120, a cleaning pipe 220 arranged above the sewage tank 210 for coaxially butting the long infiltration pipe 120 and the short infiltration pipe 140, a rotating shaft 230 and a cleaning shovel 240 which are coaxially connected with the cleaning pipe 220, the middle part of the inner wall of the sewage cleaning pipe 220 is closed and a servo motor 221 for driving the rotating shaft 230 to rotate is installed in the inner cavity close to the right end of the sewage cleaning pipe, the outer side surface of the sewage cleaning shovel 240 is in an arc surface and is in sliding connection with the inner wall of the long infiltration pipe 120, the sewage cleaning shovel 240 rotates around the central shaft of the rotating shaft 230, a plurality of springs 127 are embedded between the lock tongue 126 and the inner end surface of the tongue groove 125, sealing components 170 which are in butt joint with the long infiltration pipe 120 and the short infiltration pipe 140 and can be sealed are installed on the inner walls at the two ends of the reverse infiltration pipe 130, each sealing component 170 comprises a plurality of sealing gaskets 171 which are annularly formed and are in an arc shape, a raw water tank 300 is arranged below the.

Referring to fig. 1 to 24, the reverse osmosis apparatus with a quick-release type cleaning mechanism for reverse osmosis water treatment according to the present invention includes a reverse osmosis device 100 and a cleaning mechanism 200 installed at one side thereof. Reverse osmosis apparatus 100 is comprised of several reverse osmosis modules 110 from bottom to top. The reverse osmosis assembly 110 comprises a long osmosis pipe 120, a reverse osmosis pipe 130 capable of being rotatably disassembled and assembled and a short osmosis pipe 140 which are coaxially connected in sequence, wherein the reverse osmosis pipe 130 can be disassembled and assembled so as to replace and take out sludge accumulated in the long osmosis pipe 120. The reverse osmosis tube 130 has an i-shaped axial cross-section and an inner wall provided with a reverse osmosis membrane 135, the reverse osmosis membrane is an artificial semipermeable membrane with certain characteristics and is made of a simulated biological semipermeable membrane, and the membrane aperture of the reverse osmosis membrane is very small (water molecules can permeate) and can block dissolved salts, colloids, microorganisms, organic matters and the like under the action of the osmotic pressure higher than that of the solution, so that the water molecules can permeate and separate. The left end of the reverse osmosis pipe 130 is connected with the right end of the long osmosis pipe 120 in a fitting and rotating manner (the left end and the right end of the whole text are all in the directions shown in the attached drawings of the specification), and the right end of the reverse osmosis pipe 130 is sleeved with the left end of the short osmosis pipe 140 and can rotate, so that the reverse osmosis pipe 130 can be conveniently disassembled and assembled, and the reverse osmosis membrane 135 can be easily replaced. The right end cover of long oozing pipe 120 is equipped with and drives its rotation cover 150 that deflects downwards, and the bottom of rotation cover 150 just is provided with dwang 151 to its right-hand member slope for support and the linkage to long oozing pipe 120. The bottom of dwang 151 is equipped with ring and ring center and is located under the anti-pipe 130 left end that oozes, and dwang 151 bottom ring center and anti-pipe 130 left end face that oozes are on same vertical face promptly, and the bottom ring center of dwang 151 equals to oozing a pipe 130 central distance to its top distance and to anti-pipe 130 central distance to long oozing pipe 120 rotates around dwang 151 bottom ring, just can be smoothly with anti-pipe 130 butt joints coincide. The left end of the long infiltration pipe 120 is provided with a rotating pipe 160 for supporting the deflection thereof, and the rotating pipe 160 also plays a role of water passing. The inner walls of the two ends of the reverse osmosis tube 130 are respectively provided with a sealing component 170 which is butted with the long osmosis tube 120 and the short osmosis tube 140 and can be sealed, so that the reverse osmosis tube 130 is butted and sealed with the long osmosis tube 120 and the short osmosis tube 140, and the smooth reverse osmosis is ensured.

Specifically, the rotating sleeve 150 is a circular ring with an open top, which is convenient to be sleeved on the long infiltration pipe 120, and the open end of the rotating sleeve 150 is fixedly connected with the long infiltration pipe 120 through a bolt, so that the rotating sleeve 150 and the long infiltration pipe 120 are connected into a whole and move synchronously. The bottom end of the rotating rod 151 is connected with a bracket 152 in a U shape in a circular ring rotating mode, the middle of the top surface of the bracket 152 is also provided with a circular ring, the two circular rings are connected in a rotating mode through bolts and nuts, and the long infiltration pipe 120 can be kept still by screwing the bolts and nuts. The two ends of the bracket 152 are vertically provided with the supporting rods 153, and the height of the supporting rods 153 is larger than the outer diameter of the reverse osmosis tube 130, so that the reverse osmosis tube 130 can pass through the lower part of the bracket 152. The upper struts 153 are fixedly connected with the lower brackets 152 by bolts, so that each layer of reverse osmosis assemblies 110 is stably suspended.

Further, the left end of the long infiltration pipe 120 and the right end of the short infiltration pipe 140 are both tightly sleeved with a pipe connecting sleeve 180 for connecting other water pipes. The rotary pipe 160 is tightly sleeved with the corresponding adapter sleeve 180 so as to guide the sewage to enter the long infiltration pipe 120 for reverse osmosis purification. The extension end of the rotating pipe 160 is bent and downwards provided with a section of circular arc pipe 161, and the circular arc pipe 161 and the circular ring at the bottom end of the rotating rod 151 are concentric, so that the left end and the right end of the long infiltration pipe 120 rotate concentrically, and interference is avoided. The inside cover of circular arc pipe 161 is equipped with the sleeve pipe 162 with dwang 151 bottom ring concentric circles for pivoted circular arc pipe 161 cup joints with sleeve pipe 162 all the time, and the bottom outside of circular arc pipe 161 and the top outside of sleeve pipe 162 all overlap and are equipped with the sealing washer of rubber material, play damping and sealed effect, do benefit to the steady rotation of long oozing pipe 120. The bottom end of the sleeve pipe 162 is vertically provided with a water inlet pipe 163 for being butted with other water pipes, so that the drainage sewage enters the long infiltration pipe 120 through the sleeve pipe 162, the circular arc pipe 161 and the rotating pipe 160 to be purified by reverse osmosis.

Specifically, the right end outer side surface of the long infiltration pipe 120 is provided with a thickened long infiltration pipe table 121, the lower half part of the outer end surface of the long infiltration pipe table 121 is provided with a semicircular ring 122, and the semicircular ring 122 and the long infiltration pipe table 121 share the same central axis. The top of the long infiltration pipe table 121 is hinged with a quick-release part 123, the bottom surface of the front end of the quick-release part 123 is provided with an arc-shaped inserting plate 1230, and the central axis of the inserting plate 1230 is overlapped with the rotating shaft of the quick-release part 123. The top of the long infiltration pipe table 121 is provided with a slot 124 inserted with the inserting plate 1230, the inner wall of the slot 124 is an arc surface, the upper half part of the outer end surface of the long infiltration pipe table 121 is provided with a tongue groove 125 in a ring shape, the tongue groove 125 and the long infiltration pipe table 121 share the same central axis, the tongue groove 125 is internally clamped with a locking tongue 126, the middle part of the top surface of the locking tongue 126 is provided with a sliding groove 1260 clamped with the inserting plate 1230, a plurality of springs 127 are tightly embedded between the locking tongue 126 and the inner end surface of the tongue groove 125, when the quick-release member 123 is pressed down, the inserting plate 1230 passes through the slot 124 and contacts the vertical surface of the sliding groove 1260, as the inserting plate 1230 makes a circular rotation motion, the locking tongue 126 is pushed into the tongue groove 125, the springs 127 are compressed, when the quick-release member 123 is pulled up, the inserting plate 1230 is separated from the sliding groove 1260, and the.

Furthermore, a thickened short infiltration pipe table 141 is arranged on the outer side surface of the left end of the short infiltration pipe 140, an annular positioning table 142 is arranged on the outer end surface of the short infiltration pipe table 141, and the positioning table 142 and the short infiltration pipe table 141 share the same central axis. The sealing ring 128 extending outwards is tightly sleeved at the inner opening of the right end of the long infiltration pipe 120 and the inner opening of the left end of the short infiltration pipe 140. The upper half part of the left end surface and the whole right end surface of the reverse osmosis tube 130 are provided with positioning grooves 131 which are respectively spliced with the ejected lock tongue 126 and the positioning table 142, so that the reverse osmosis tube 130 is clamped and limited by the long osmosis tube 120 and the short osmosis tube 140. The inner wall of the left port of the reverse osmosis tube 130 is bonded with a half ring pad 132 which is sleeved with the outer wall of the sealing ring 128, and the half ring pad 132 is made of rubber and has a sealing effect due to flexibility. The lower half part of the left end face of the reverse osmosis pipe 130 is provided with a boss, and the outer end face of the boss is provided with a circular groove 133 sleeved with the semicircular ring 122, so that the reverse osmosis pipe 130 and the long osmosis pipe 120 are connected into a whole without slipping. After the left end of the long infiltration pipe 120 rotates downwards, the reverse infiltration pipe 130 is placed between the long infiltration pipe 120 and the short infiltration pipe 140, the positioning groove 131 at the right end of the reverse infiltration pipe 130 is firstly inserted into the positioning table 142, then the reverse infiltration pipe 130 is rotated to enable the boss at the lower half part of the left end face of the reverse infiltration pipe to be arranged at the position of the upper half part, then the long infiltration pipe 120 is rotated to be in butt joint with the reverse infiltration pipe 130, and then the reverse infiltration pipe 130 is rotated for 180 degrees, so that the circular groove 133 at the outer end face of the boss is inserted into the semicircular ring 122. A ring of baffle rings 134 are provided at the middle of the inner wall of the reverse osmosis tube 130 so that the outer frame of the reverse osmosis membrane 135 is fixed thereto by bolts. The middle part of the outer wall of the reverse osmosis pipe 130 is radially and symmetrically provided with a shifting block 137 so that the reverse osmosis pipe 130 can be easily shifted to rotate by hands.

Besides, the sealing assembly 170 includes a plurality of circular-arc-shaped sealing gaskets 171 formed in an annular shape and a pressing piece 172 arranged inside the sealing gasket 171 and used for pressing the sealing gasket to be tightly attached to the outer wall of the sealing ring 128, and the plurality of sealing gaskets 171 are enclosed into a circular ring structure and have the same overall inner diameter and diameter as the outer diameter of the sealing ring 128, so that the sealing gasket 171 is further sealed after being pressed. The sealing gasket 171 is made of rubber, has good sealing effect and flexibility, and is easy to recover after deformation, and the pressing sheet 172 is made of spring steel into a sheet shape, so that the pressing sheet has high elasticity and is easy to recover after deformation. The arc groove 1710 that closely joints with preforming 172 is seted up to sealed extrados face of pad 171, preforming 172 is domes and both ends are equipped with the pressure head 1720 perpendicularly, the radial welding of extrados face of preforming 172 has a plurality of compression columns 173 that are the mushroom, the thin section cover of compression column 173 is equipped with pressure spring 174, draw-in groove 136 with compression column 173 joint is seted up to the interior cambered surface of constant head tank 131, the thin section of compression column 173 runs through to the inner wall of anti-infiltration pipe 130, pressure spring 174 is located the inside of draw-in groove 136. The outer edges of the inner diameters of the locking tongue 126 and the positioning table 142 are chamfered so as to smoothly contact the round head of the pressing column 173 and press the round head into the clamping groove 136, so that the pressing sheet 172 is pressed to press the sealing gasket 171 to be attached to the outer wall of the sealing ring 128, and the pressing head 1720 presses the two ends of the sealing gasket 171 to be closely attached to the adjacent sealing gasket 171, so that the butt joint of the reverse osmosis tube 130 is sealed.

When the reverse osmosis membrane is cleaned, the quick-release member 123 is pressed to push the insertion plate 1230 to push the lock tongue 126 to enter the tongue groove 125, the spring 127 is compressed, the lock tongue 126 is separated from the left end positioning groove 131 of the reverse osmosis tube 130 at the moment, then the reverse osmosis tube 130 is rotated by 180 degrees to completely separate the circular groove 133 from the semicircular ring 122, the nut at one end of the circular ring at the bottom end of the rotating rod 151 is unscrewed, the left end of the long osmosis tube 120 is pressed downwards to separate the right end of the reverse osmosis tube 130, the reverse osmosis tube 130 can be taken out, and then the reverse osmosis membrane 135 is cleaned.

The cleaning mechanism 200 comprises a sewage tank 210 for collecting sludge on the inner wall of the long infiltration pipe 120, a cleaning pipe 220 arranged above the sewage tank 210 and used for coaxially butting the long infiltration pipe 120 and the short infiltration pipe 140, and a rotating shaft 230 and a cleaning shovel 240 which are coaxially connected with the cleaning pipe 220, wherein the cleaning pipe 220 and the reverse infiltration pipe 130 have the same appearance size and the same structure at two ends, so that the cleaning pipe 220 can be butted with the long infiltration pipe 120 and the short infiltration pipe 140 according to the assembly mode of the reverse infiltration pipe 130. However, the middle part of the inner wall of the sewage cleaning pipe 220 is closed, and a servo motor 221 for driving the rotating shaft 230 to rotate is installed in the inner cavity at the right end of the sewage cleaning pipe, and an output shaft of the servo motor 221 penetrates through the inner cavity at the left end of the sewage cleaning pipe 220. The outer side surface of the cleaning shovel 240 is a circular arc surface and the inner wall of the long infiltration pipe 120 is connected in a sliding manner, and the cleaning shovel 240 rotates around the central shaft of the rotating shaft 230. The rotating shaft 230 and the cleaning shovel 240 are installed inside the long infiltration pipe 120 in advance, so that the occupied space is small, and the circulation of sewage inside the long infiltration pipe 120 is not influenced.

Specifically, a bottom plate 211 is installed at the bottom of the sewage tank 210, at least four universal wheels are symmetrically installed on the bottom surface of the bottom plate 211, and a water valve is installed at one side of the bottom of the sewage tank 210, so that the sewage tank 210 can be pushed to discharge sewage in a centralized manner. The top of the sewage tank 210 is communicated with a sewage collecting pipe 212, the outer wall of the sewage cleaning pipe 220 near the left end thereof is provided with a sewage discharge pipe 223 communicated with the inside thereof, namely the sewage discharge pipe 223 is communicated with the inside of the long seepage pipe 120, and the sewage discharge pipe 223 is closely inserted and matched with the branch pipe extended from the sewage collecting pipe 212, so that the cleaning sewage in the sewage discharge long seepage pipe 120 enters the sewage tank 210. The middle diameter of the rotating shaft 230 is larger than the diameters of both ends thereof, and since the length of the rotating shaft 230 matches the inner length of the long infiltration pipe 120, the middle portion thereof is thickened to avoid bending. The two ends of the rotating shaft 230 are welded with rotating rings 231, and the rotating rings 231 are sleeved and rotated with the inner wall of the long infiltration pipe 120, so that the rotating shaft 230 and the long infiltration pipe 120 rotate coaxially and stably. A square clamping block 232 is arranged at the right end of the rotating shaft 230, the front end of the output shaft of the servo motor 221 is symmetrically provided with a limiting block 222 clamped with the clamping block 232, and the clamping block 232 is clamped by the limiting block 222, so that the rotating shaft 230 can be smoothly driven to rotate in the long infiltration pipe 120 after the servo motor 221 is started. The top surface of the cleaning shovel 240 is welded with a plurality of connecting rods 241, the top end of each connecting rod 241 is welded with a circular ring sleeved with the rotating shaft 230, and the rotation of the rotating shaft 230 drives the cleaning shovel 240 to synchronously rotate, so that the cleaning shovel 240 shovels the sludge on the inner wall of the long infiltration pipe 120.

When the long infiltration pipe is cleaned, the reverse infiltration pipe 130 is taken out, the sewage cleaning pipe 220 is placed between the long infiltration pipe 120 and the short infiltration pipe 140, the positioning groove 131 at the right end of the sewage cleaning pipe 220 is inserted into the positioning table 142, the sewage cleaning pipe 220 is rotated to enable the boss at the lower half part of the left end surface of the sewage cleaning pipe to be arranged at the position of the upper half part, then the long infiltration pipe 120 is rotated to be in butt joint with the sewage cleaning pipe 220, the sewage cleaning pipe 220 is rotated 180 degrees to enable the circular groove 133 to be inserted into the semicircular ring 122, the nut at one end of the circular ring at the bottom end of the rotating rod 151 is screwed to enable the long infiltration pipe 120 to be stable, then the quick-release piece 123 is lifted upwards to enable the inserting plate 1230 to be separated from the inserting groove 124, the locking tongue 126 is ejected out to be inserted into the positioning groove 131 at the left end of the sewage cleaning pipe 220 under the elastic force of the spring 127, the semicircular sealing gasket 171 is pressed to tightly press the sealing ring 128 for butt joint sealing, then the sewage tank 210 is, the clamping block 232 is clamped between the pair of limiting blocks 222, the servo motor 221 is started to drive the rotating shaft 230 to rotate in the long seepage pipe 120, the dirt removing shovel 240 is driven to rotate synchronously, the sludge on the inner wall of the long seepage pipe 120 is shoveled, then the high-pressure water pump 320 is started to pump the sewage into the long seepage pipe 120, the sludge is flushed into the sewage tank 210 to be collected, and after the operation is finished, the reverse seepage pipe 130 is replaced to continue reverse osmosis purification.

The raw water tank 300 is arranged below the reverse osmosis device 100, and the raw water tank 300 is made of stainless steel, so that the device is not rusted and is durable. The top of the raw water tank 300 is provided with a sewage suction pump 310, one side of the top of the raw water tank 300 is communicated with a water tank water inlet 301, one side of the bottom of the raw water tank 300 is communicated with a water tank water outlet 302 so as to discharge sewage sediments, and the water tank water outlet 302 is provided with a water valve for controlling the discharge of sewage. The water inlet 301 of the water tank is tightly sleeved with the water outlet of the sewage suction pump 310, the water inlet of the sewage suction pump 310 is sleeved with a water pipe, the water pipe is communicated with the sewage pool, and the sewage suction pump 310 is started to pump sewage into the original water tank 300 for standby. The high pressure water pump 320 is installed at one side of the bottom of the raw water tank 300, the water pump pipe 321 is installed at the water outlet of the high pressure water pump 320, and the supports 322 are installed at the front end and the middle part of the water pump pipe 321 and supported on the ground, so that the left end of the long infiltration pipe 120 is stably supported. The water inlet of the high pressure water pump 320 is communicated with one side of the bottom of the raw water tank 300 through a water pipe, and the water pump pipe 321 is closely inserted and matched with the bottom end of the circular arc pipe 161, namely, is closely inserted and matched with the water inlet pipe 163, so that the high pressure water pump 320 is started to pump the sewage in the raw water tank 300 into the rotating pipe 160, and then the sewage enters the long seepage pipe 120 to perform reverse osmosis purification or wash the sludge cleaned by the dirt cleaning mechanism 200. A support plate 303 is welded to one side of the raw water tank 300, and the support rod 153 positioned at the lowest part is fixed to the support plate 303 through a bolt, so that the reverse osmosis device 100 is stably suspended.

The water collection tank 400 is arranged below the right end of the reverse osmosis device 100, and the water collection tank 400 is made of stainless steel, cannot rust and is durable. The inside of the water collecting tank 400 is provided with a disinfection chamber 401 and a clean water chamber 402, a partition plate is welded in the water collecting tank 400 and between the disinfection chamber 401 and the clean water chamber 402, and the top end of the partition plate extends to the top of the water collecting tank 400 but is not closed, so that disinfected water in the disinfection chamber 401 overflows into the clean water chamber 402. The top of the water collecting tank 400 and the upper part of the disinfection chamber 401 are communicated with a water conduit 410, and an extension pipe at one side of the water conduit 410 is closely inserted and matched with the adapter sleeve 180, so that the water after reverse osmosis purification enters the disinfection chamber 401 through the water conduit 410. The top of the water collecting tank 400 above the disinfection chamber 401 is provided with a drug feeding opening 403 communicated with the inside thereof, so that a worker can put disinfection powder into the disinfection chamber 401 to disinfect the water after reverse osmosis. A clear water suction pump 420 is installed at the top of the water collection tank 400 and above the clear water chamber 402, a straight pipe is inserted into a water inlet of the clear water suction pump 420, and the bottom end of the straight pipe extends to the top of the bottom of the clear water chamber 402, so that clear water in the whole clear water chamber 402 can be extracted.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A quick-release type decontamination method of a reverse osmosis water treatment pipeline is characterized by comprising the following steps: the method comprises the following steps:

firstly, a reverse osmosis pipe quick-release cleaning stage:

s1, pressing a quick-release part in the reverse osmosis water treatment pipeline sewage disposal device downwards to drive a lock tongue to retreat and separate from a left end positioning groove of a reverse osmosis pipe;

s2, rotating the reverse osmosis tube by 180 degrees to completely separate the circular groove from the semicircular ring, loosening the nut at one end of the circular ring at the bottom end of the rotating rod, and pressing the left end of the long osmosis tube downwards to separate the right end of the long osmosis tube from the reverse osmosis tube;

s3, taking out the reverse osmosis tube, and cleaning the reverse osmosis membrane;

the reverse osmosis water treatment pipeline sewage disposal device comprises a reverse osmosis device and a sewage disposal mechanism arranged on one side of the reverse osmosis device, the reverse osmosis device consists of a plurality of reverse osmosis components from bottom to top, each reverse osmosis component comprises a long osmosis pipe which is coaxially connected in sequence, the reverse osmosis pipe and the short osmosis pipe can be rotatably disassembled and assembled, the axial section of the reverse osmosis pipe is I-shaped, the inner wall of the reverse osmosis pipe is provided with a reverse osmosis membrane, the right end of the long osmosis pipe is sleeved with a rotating sleeve which drives the long osmosis pipe to deflect downwards, the bottom of the rotating sleeve is obliquely provided with a rotating rod towards the right end of the rotating sleeve, the outer side surface of the right end of the long osmosis pipe is provided with a thickened long osmosis pipe table, the lower half part of the outer end surface of the long osmosis pipe table is provided with a semicircular ring, the top of the long osmosis pipe table is hinged with a quick disassembling part, the upper half part of the outer end surface of the long osmosis pipe table is provided with a tongue groove in an annular manner, a lock tongue is clamped in the tongue groove;

secondly, a fast assembly stage of the sewage cleaning pipe:

s4, after the reverse osmosis tube is taken out, putting the sewage cleaning tube between the long osmosis tube and the short osmosis tube, inserting the positioning groove at the right end of the sewage cleaning tube into the positioning table, extruding the whole circle of sealing gasket to press the sealing ring, and continuously rotating the sewage cleaning tube to enable the boss at the lower half part of the left end surface of the sewage cleaning tube to be arranged at the upper half part;

s5, rotating the long infiltration pipe to be in butt joint with the sewage cleaning pipe, and rotating the sewage cleaning pipe 180 degrees to enable the circular groove to be completely inserted into the semicircular ring;

s6, screwing the nut at one end of the circular ring at the bottom end of the rotating rod to stabilize the long infiltration pipe;

s7, lifting the quick-release part upwards to separate the inserting plate from the slot, ejecting the lock tongue under the action of the spring force, inserting the lock tongue into the positioning groove at the left end of the sewage disposal pipe, and further extruding the half-circle sealing gasket to press the sealing ring;

thirdly, cleaning the sewage by the long infiltration pipe:

s8, pushing the sewage tank to one side of the sewage cleaning pipe, and butting the sewage collecting pipe with the sewage discharging pipe;

s9, starting a servo motor to drive the rotating shaft to rotate in the long infiltration pipe, and driving the dirt removing shovel to synchronously rotate so as to shovel off the sludge on the inner wall of the long infiltration pipe;

s10, the high-pressure water pump is started again to pump the sewage into the long infiltration pipe, and the scoured sludge enters the sewage tank to be collected;

the sewage cleaning mechanism comprises a sewage tank for collecting sludge on the inner wall of the long seepage pipe, a sewage cleaning pipe which is coaxially butted with the long seepage pipe and the short seepage pipe and a rotating shaft and a sewage cleaning shovel which are coaxially connected with the sewage cleaning pipe, wherein the upper part of the sewage tank is provided with the sewage cleaning pipe for coaxially butting the long seepage pipe and the short seepage pipe, the middle part of the inner wall of the sewage cleaning pipe is sealed and is close to an inner cavity at the right end of the sewage cleaning pipe, a servo motor for driving the rotating shaft to rotate is installed in the inner cavity of the inner wall of the sewage cleaning pipe, the outer side of the sewage cleaning shovel is in arc surface and is in sliding connection with the inner wall of the long seepage pipe, the sewage cleaning shovel rotates around the central shaft of the rotating shaft, a plurality of springs are embedded between the spring tongue and the inner end surface of the tongue groove, sealing components which are butted with the long seepage pipe.

2. The method of claim 1, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the front end bottom surface of quick detach spare is equipped with and is circular-arc picture peg, and the center pin of picture peg coincides with the rotation axis of quick detach spare, and the slot of pegging graft with the picture peg is seted up at the top of long oozing the pipe stand, and the sliding tray with the picture peg joint is seted up in the top surface middle part of spring bolt.

3. The method of claim 2, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the left end lateral surface of short infiltration pipe is equipped with the short infiltration pipe platform of thickening, and the outer terminal surface of short infiltration pipe platform is equipped with and is annular location platform, and the ring of sealing of outside extension all closely has been cup jointed to the right-hand member inner orifice department of long infiltration pipe and the left end inner orifice department of short infiltration pipe.

4. The method of claim 3, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the left end of anti-infiltration pipe and the right-hand member laminating swivelling joint of long infiltration pipe, the right-hand member of anti-infiltration pipe cup joints and is rotatable with the left end of short infiltration pipe, and the left port inner wall of anti-infiltration pipe bonds has and seals the semi-ring pad that the ring outer wall cup jointed, and the left end face lower half of anti-infiltration pipe is equipped with boss and the outer terminal surface of boss and sets up the ring groove that cup joints with the semi-ring, and the inner wall middle part of anti-infiltration pipe is equipped with the round and keeps off the ring, and the outer wall middle part radial symmetry of anti-infiltration pipe.

5. The method of claim 4, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the inside preforming that is used for extruding it and hugs closely in sealing the ring outer wall that is provided with of sealed pad, the arc groove with the inseparable joint of preforming is seted up to the extrados of sealed pad, the preforming is domes and both ends and is equipped with the pressure head perpendicularly, the radial welding of extrados of preforming has a plurality of compression columns that are the mushroom, the thin section cover of compression column is equipped with the pressure spring, the draw-in groove with the compression column joint is seted up to the intrados of constant head tank, the thin section of compression column runs through to the inner wall of reverse osmosis pipe, the pressure spring.

6. The method of claim 1, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the bottom of dwang is equipped with ring and ring center position under the pipe left end is oozed to the anti-, and the bottom ring center of dwang equals to oozing a pipe center distance to its top distance and to anti-oozing, and the left end of long oozing the pipe is installed and is supported its rotating tube that deflects, and the rotating sleeve is open-top's ring, and dwang bottom ring rotates and is connected with the bracket that is the U type, and the both ends of bracket are vertical to be provided with branch, and the branch that is located the top passes through bolt fixed connection with the bracket that is located the below.

7. The method of claim 1, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the left end of long infiltration pipe and the right-hand member of short infiltration pipe all closely cup jointed the takeover cover, and the rotating tube closely cup joints rather than the takeover cover that corresponds, and the extension end of rotating tube is bent and is provided with one section circular arc pipe downwards, and the circular arc pipe is with the dwang bottom ring centre of a circle, and the inside cover of circular arc pipe is equipped with the sleeve pipe with the dwang bottom ring centre of a circle, and the sheathed tube bottom is vertical to be equipped with the inlet tube.

8. The method of claim 1, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the appearance size and the both ends structure homogeneous phase of dirt cleaning pipe and anti-infiltration pipe are the same, and the chassis is installed to the bottom of sewage case, and four at least universal wheels are installed to the bottom surface symmetry on chassis, and the top intercommunication of sewage case has the dirty pipe of collection, and dirt cleaning pipe is close to and is equipped with the blow off pipe rather than inside being linked together on its left end outer wall, and the blow off pipe closely pegs graft the cooperation with the branch pipe that the dirty pipe of collection extends.

9. The method of claim 1, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the diameter is greater than its both ends diameter in the middle of the pivot, and the welding of the both ends of pivot has the swivel becket, and the swivel becket cup joints and rotatable with the inner wall of long oozing pipe, and the right-hand member of pivot is equipped with and is square fixture block, and servo motor's output shaft front end symmetry is equipped with the stopper with the fixture block joint, and the top surface welding of dirt removing shovel has a plurality of connecting rods, and the top welding of connecting rod has the ring that cup joints with the pivot.

10. The method of claim 7, wherein the reverse osmosis water treatment pipeline is cleaned by quickly disassembling the reverse osmosis water treatment pipeline, and the method comprises the following steps: the sewage suction pump is installed at the top of former water tank, and the water pump pipe is installed to the delivery port of high pressure water pump, and the cooperation of closely pegging graft in the bottom of water pump pipe and circular arc pipe, the right-hand member below of reverse osmosis unit is provided with the header tank, and the inside of header tank is equipped with disinfection room and clear water room, and the top intercommunication that the top of header tank just is located the disinfection room has the leading water pipe, and the extension pipe and the takeover cover of leading water pipe one side closely peg graft the cooperation, and the clear water suction pump is installed to the top of header tank and the top that is located the clear.

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