CN113699755B

CN113699755B - Washing machine water pipe for recovering organic matters

Info

Publication number: CN113699755B
Application number: CN202110964353.3A
Authority: CN
Inventors: 马琳琳
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-22
Filing date: 2021-08-22
Publication date: 2023-11-10
Anticipated expiration: 2041-08-22
Also published as: CN113699755A

Abstract

The invention discloses a washing machine water pipe for recovering organic matters, which comprises a foam separation device, a precipitation device, a washing machine water pipe, a driving device and an end cover, wherein the driving device provides power for the foam separation device, wastewater discharged by the washing machine enters the foam separation device through the washing machine water pipe, the separated foam is discharged into the precipitation device for precipitation, and the separated wastewater is discharged through opening the end cover, so that the separation and recovery of the organic matters are realized.

Description

Washing machine water pipe for recovering organic matters

Technical Field

The invention relates to the field of water pipes, in particular to a water pipe of a washing machine for recovering organic matters.

Background

The washing powder is mainly sodium dodecyl benzene sulfonate, and some auxiliary materials are added, wherein the sodium dodecyl benzene sulfonate is a common anionic surfactant, has strong acid and alkali resistance, does not generate precipitate with calcium, magnesium and other ions in water, and has high-efficiency decontamination performance. Meanwhile, the sodium dodecyl benzene sulfonate has excellent dispersing and antistatic properties and is widely applied to industry, agriculture and daily life. However, the sodium dodecyl benzene sulfonate is extremely harmful, is difficult to be naturally degraded in natural environment when discharged into water, is easy to cause peculiar smell and a large amount of foam of water, influences the oxygen exchange of water, accelerates the oxygen enrichment rate of water, and brings biological toxicity. Sodium dodecyl benzene sulfonate enters a human body along with drinking water, can stimulate weight gain and accelerate liver to synthesize cholesterol, and is one of important sources of water pollution. Therefore, there is a need for a device for recovering such organic matters in laundry, and thus the present invention provides a water pipe for a washing machine with organic matter recovery.

Disclosure of Invention

The invention provides the washing machine water pipe for recovering the organic matters, which can effectively solve the technical problems, and has the advantages of automatic recovery of the organic matters and simple structure.

In order to solve the technical problems, the invention adopts the following technical scheme: a washing machine water pipe for recovering organic matters comprises a foam separation device, a precipitation device, a washing machine water pipe, a driving device and an end cover.

The foam separation device comprises a base, a piston driving rack, a piston driving shaft, a transmission shaft, a driving crawler wheel, a left positioning shaft, a middle positioning shaft, a right positioning shaft and a discharge port; the sedimentation device comprises a sedimentation barrel; the driving device comprises a separation driving wheel, a transmission driving wheel, a piston driving cone pulley, a transmission cone pulley and a crawler driving gear; the end cover comprises an end cover driving cylinder and a discharge port connecting pipe.

The driving crawler wheel, the separation driving wheel and the crawler driving gear are respectively provided with a left driving crawler wheel and a right driving crawler wheel, the two driving crawler wheels are respectively and fixedly arranged on the upper surface of the crawler driving gear, the driving crawler wheel and the crawler driving gear are coaxial, the two separation driving wheels are respectively and rotatably arranged on a right positioning shaft, the separation driving wheel and the driving cone wheel are rotatably arranged on a middle positioning shaft, the driving wheel and the piston driving cone wheel are fixedly arranged on a driving shaft, the piston driving wheel and the piston driving wheel are fixedly arranged on a piston driving shaft, the two crawler driving gears are respectively and rotatably arranged on the positioning shaft on the upper side of a separation water storage chamber, cylinder barrels of a sedimentation barrel and an end cover driving cylinder are respectively and fixedly arranged on a base, a discharge port and a discharge port connecting pipe are coaxially and fixedly connected, and the piston driving rack and the piston driving wheel are meshed with each other.

Further, foam separator still include separation reservoir, T type slip stir piece, driven track wheel, track, foam discharge port, piston rod, piston drive shaft mounting panel, transmission shaft mounting panel, piston sieve board, rubber piston piece, the top of separation reservoir be provided with two sliding grooves, separation reservoir fixed mounting is on the base, T type slip stir piece slidable mounting is in the groove at separation reservoir top, driven track wheel distributes about two, two driven track wheels rotate the locating hole of installing in separation reservoir respectively, driven track wheel and the initiative track wheel of one side are connected to track and driven track wheel and initiative track wheel intermeshing, foam discharge port distributes two, respectively fixed mounting is on separation reservoir, piston rod fixed mounting is on piston sieve board, piston drive rack fixed mounting is on the piston rod, piston drive shaft rotation is installed in piston drive shaft mounting panel, piston drive shaft and transmission shaft mounting panel are fixed mounting respectively in the upper surface of separation reservoir, the transmission shaft rotation is installed in the transmission shaft, left side locating axle, intermediate locating axle and right side locating axle are fixed mounting respectively on the separation reservoir, piston rod fixed mounting is on the piston mounting plate of separation reservoir, piston bottom fixed mounting is fixed mounting on the piston rod bottom of separation reservoir.

Further, sediment device still include sediment motor, sediment drive cone, sediment driven cone, axis of rotation, double chain of bending, flocculant storage bucket, double sprocket, drainage guide rail, water drainage door, transmission shaft mounting panel, drainage cylinder, sediment storage drawer, sediment motor fixed mounting in the sediment bucket, sediment drive cone fixed mounting is on the output shaft of sediment motor, sediment driven cone fixed mounting is in the axis of rotation to sediment drive cone and sediment driven cone intermeshing, the axis of rotation rotates and installs in the locating hole of sediment bucket, flocculant storage bucket fixed mounting is on double chain of bending, double sprocket distributes and has upper and lower two, double chain of bending connects two double sprockets to intermeshing, water drainage guide rail fixed mounting is on the sediment bucket, water drainage door slidable mounting is in the drainage guide rail, sediment storage drawer slidable mounting is on the sediment bucket.

Further, the driving device also comprises a driving cone pulley and a driving motor, wherein the driving cone pulley is fixedly arranged on an output shaft of the driving motor, the driving motor is fixedly arranged on the upper surface of the separation water storage chamber, the separation driving wheel is fixedly connected with the transmission cone pulley, the two separation driving wheels are respectively meshed with the two crawler driving gears, the separation driving wheel is meshed with the two separation driving wheels, the transmission driving wheel is meshed with the piston driving wheel, and the transmission cone pulley is meshed with the piston driving cone pulley and the driving cone pulley.

Further, the end cover still include end cover drive rack, fixed large plate, open drive wheel, end cover upper plate, end cover drive gear, end cover gear location axle, end cover board, end cover drive rack fixed mounting on the piston rod of end cover drive cylinder, fixed large plate fixed mounting is in the one end of discharge port connecting pipe, open drive wheel fixed mounting on end cover gear location axle, end cover gear location axle rotates and connects fixed large plate and end cover upper plate, end cover drive gear rotates and installs in the middle of fixed large plate and end cover upper plate to the outside tooth of end cover drive gear intermeshes with end cover drive rack, inside tooth and the intermeshing of opening drive wheel, end cover board fixed mounting is at the up end of end cover gear location axle.

Further, the separation water storage chamber divide into upper and lower two parts, and the upper half is the rectangle, and the lower half is cylindrical, piston sieve slidable mounting in the separation water storage chamber lower half.

Further, a plurality of holes are formed in the piston sieve plate.

Further, one side of the drainage door is provided with a connecting lug, the Y-shaped joint is hinged with the connecting lug on one side of the drainage door, a cylinder barrel of the drainage cylinder is fixedly arranged on the sedimentation barrel, and a piston rod of the drainage cylinder is fixedly connected with the Y-shaped joint.

Compared with the prior art, the invention has the beneficial effects that: (1) The foam separation method is adopted, so that the foam in the water can be effectively separated; (2) Organic matters contained in the foam are precipitated in a precipitation mode, so that the organic matters can be effectively recovered; (3) the overall structure is relatively simple and efficient.

Drawings

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

FIG. 2 is a schematic view of a foam separation apparatus of the present invention.

FIG. 3 is a schematic diagram of a precipitation apparatus according to the present invention.

Fig. 4 is a schematic view of a driving device according to the present invention.

Fig. 5 is a schematic view of an end cap of the present invention.

Reference numerals: 1-a foam separation device; 2-a precipitation device; 3-washing machine water pipe; 4-a driving device; 5-end caps; 101-a base; 102-separating a water storage chamber; 103-T type sliding toggle blocks; 104-driven track wheels; 105-caterpillar tracks; 106-foam discharge port; 107-a piston rod; 108-a piston driven rack; 109-piston drive shaft; 110-a piston drive shaft mounting plate; 111-a drive shaft mounting plate; 112-a drive shaft; 113-a driving crawler wheel; 114-left positioning shaft; 115—an intermediate positioning shaft; 116-right positioning shaft; 117-discharge port; 118-piston screen plate; 119-rubber piston blocks; 201-a precipitation barrel; 202-a precipitation motor; 203-a precipitation driving cone pulley; 204-depositing a driven cone pulley; 205-rotating shaft; 206-double-row bending chains; 207-flocculant storage barrels; 208-double row sprocket; 209-a drain rail; 210-a drain door; 211-Y-type joint; 212-a drainage cylinder; 213-sediment storage drawer; 401-separating the driving wheel; 402-disengaging the drive wheel; 403-drive wheels; 404-piston drive wheel; 405-a piston driving wheel; 406-piston drive cone pulley; 407-driving cone pulley; 408-driving cone pulley; 409-a drive motor; 410-track drive gear; 501-end cap driving cylinder; 502-end cap drive rack; 503-discharge port connection tube; 504-fixing the large plate; 505-opening the drive wheel; 506-end cap upper plate; 507-end cap drive gear; 508-end cap gear positioning shaft; 509-end caps.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Examples: the washing machine water pipe for recovering organic matters as shown in fig. 1, 2, 3, 4 and 5 comprises a foam separation device 1, a sedimentation device 2, a washing machine water pipe 3, a driving device 4 and an end cover 5.

The foam separation device 1 comprises a base 101, a piston driving rack 108, a piston driving shaft 109, a transmission shaft 112, a driving crawler wheel 113, a left positioning shaft 114, a middle positioning shaft 115, a right positioning shaft 116 and a discharge outlet 117; the sedimentation device 2 comprises a sedimentation tank 201; the driving device 4 comprises a separation driving wheel 401, a separation driving wheel 402, a transmission driving wheel 403, a piston driving wheel 404, a piston driving wheel 405, a piston driving cone 406, a transmission cone 407 and a track driving gear 410; the head cover 5 includes a head cover driving cylinder 501, and a discharge port connecting pipe 503.

The driving crawler wheel 113, the separation driving wheel 401 and the crawler driving gear 410 are respectively provided with a left driving crawler wheel and a right driving crawler wheel, the two driving crawler wheels 113 are respectively and fixedly arranged on the upper surface of the crawler driving gear 410, the driving crawler wheel 113 and the crawler driving gear 410 are coaxial, the two separation driving wheels 401 are respectively and rotatably arranged on the right positioning shaft 116, the separation driving wheel 402 and the transmission cone 407 are rotatably arranged on the middle positioning shaft 115, the transmission driving wheel 403 and the piston driving cone 406 are fixedly arranged on the transmission shaft 112, the piston driving wheel 404 and the piston driving wheel 405 are fixedly arranged on the piston driving shaft 109, the two crawler driving gears 410 are respectively and rotatably arranged on the positioning shaft on the upper side of the separation water storage chamber 102, the sedimentation barrel 201 and the cylinder barrel of the end cover driving cylinder 501 are respectively and fixedly arranged on the base 101, the discharge outlet 117 and the discharge outlet connecting pipe 503 are fixedly connected, and the piston driving rack 108 and the piston driving wheel 404 are mutually meshed. During operation, water in the washing machine enters the separation water storage chamber 102 through the washing machine water pipe 3, the piston is driven by rotation of the piston driving wheel 404, the piston driving rack 108, the piston rod 107, the piston screen plate 118 and the rubber piston block 119 move up and down, so that water is pumped to the upper half part of the separation water storage chamber 102, foam floating on the water is discharged into the sedimentation device 2 through the foam discharge port 106 through reciprocating swing of the T-shaped sliding stirring block 103, separation of the foam is realized, sedimentation of the foam by the sedimentation device 2 is realized, recovery of organic matters is realized, and the rest waste water is discharged through a switch of the end cover 5.

The specific structure of the foam separator 1 in this embodiment is shown in fig. 2, and further includes a separation reservoir chamber 102, a T-shaped sliding block 103, a driven crawler wheel 104, a crawler belt 105, a foam discharge port 106, a piston rod 107, a piston driving shaft mounting plate 110, a transmission shaft mounting plate 111, a piston screen plate 118, and a rubber piston block 119, wherein two sliding grooves are provided at the top of the separation reservoir chamber 102, the separation reservoir chamber 102 is fixedly mounted on the base 101, the T-shaped sliding block 103 is slidably mounted in the grooves at the top of the separation reservoir chamber 102, the driven crawler wheel 104 is distributed with a left side and a right side, the two driven crawler wheels 104 are respectively rotatably mounted in positioning holes of the separation reservoir chamber 102, the crawler belt 105 is connected with the driven crawler wheel 104 and the driving crawler wheel 113 on one side, the crawler belt 105 is meshed with the driven crawler belt 104 and the driving crawler wheel 113, the foam discharge port 106 is distributed with two, the piston rod 107 is respectively fixedly mounted on the separation reservoir chamber 102, the piston rod 107 is fixedly mounted on the piston screen plate 118, the piston driving shaft 109 is fixedly mounted on the piston rod 107, the piston driving shaft 109 is rotatably mounted in the piston driving shaft 110, the piston driving shaft 111 is slidingly mounted on the separation reservoir 102, the left and right side and the transmission shaft 111 is fixedly mounted on the transmission shaft 116, the surface of the separation reservoir 102 is fixedly mounted on the left and the transmission shaft 116, and the bottom of the transmission shaft is fixedly mounted on the transmission shaft 116 is respectively, and positioned on the left and the transmission shaft side and the transmission shaft surface is fixedly mounted on the piston shaft surface of the separation drum 102. The piston drives the rack 108, the piston rod 107, the piston sieve plate 118 and the rubber piston block 119 to move up and down, so that the water pumping function is realized, water and foam are pumped to the upper half part of the separation water storage chamber 102, and the T-shaped sliding stirring block 103 is driven to swing back and forth through the rotation of the driving crawler wheel 113, so that the foam separation function is realized.

The specific structure of the sedimentation device 2 in this embodiment is shown in fig. 3, and further includes a sedimentation motor 202, a sedimentation driving cone 203, a sedimentation driven cone 204, a rotation shaft 205, a double-row bending chain 206, a flocculant storage barrel 207, a double-row sprocket 208, a drainage guide rail 209, a drainage door 210, a transmission shaft mounting plate 111, a drainage cylinder 212, and a sediment storage drawer 213, wherein the sedimentation motor 202 is fixedly mounted on the sedimentation barrel 201, the sedimentation driving cone 203 is fixedly mounted on the output shaft of the sedimentation motor 202, the sedimentation driven cone 204 is fixedly mounted on the rotation shaft 205, the sedimentation driving cone 203 and the sedimentation driven cone 204 are meshed with each other, the rotation shaft 205 is rotatably mounted in a positioning hole of the sedimentation barrel 201, the flocculant storage barrel 207 is fixedly mounted on the double-row bending chain 206, the double-row sprocket 208 is distributed with an upper and a lower two, the double-row bending chain 206 is connected with the two double-row sprockets 208 and meshed with each other, the drainage guide rail 209 is fixedly mounted on the sedimentation barrel 201, the drainage door 210 is slidingly mounted in the drainage guide rail 209, and the sediment storage drawer 213 is slidingly mounted on the sedimentation barrel 201. During operation, the precipitation motor 202 rotates to drive the precipitation driving cone pulley 203 to rotate, and as the precipitation driving cone pulley 203 and the precipitation driven cone pulley 204 are meshed with each other, the precipitation driven cone pulley 204 is driven to rotate, and simultaneously the rotating shaft 205 and the double-row chain wheel 208 at the lower end are driven to rotate, and the double-row bending chain 206 and the upper double-row chain wheel 208 are driven to rotate, and meanwhile the flocculant storage barrel 207 is driven to move, so that the function of automatically adding flocculant is achieved, the precipitate is finally accumulated in the precipitate storage drawer 213, and the precipitate storage drawer 213 can be pulled out, so that the effect of collection is achieved.

The specific structure of the driving device 4 in this embodiment is shown in fig. 4, and further includes a driving cone 408 and a driving motor 409, where the driving cone 408 is fixedly installed on an output shaft of the driving motor 409, the driving motor 409 is fixedly installed on an upper surface of the separation reservoir 102, the separation driving wheel 402 is fixedly connected with the driving cone 407, two separation driving wheels 401 are meshed with two crawler driving gears 410 respectively, the separation driving wheel 402 is meshed with two separation driving wheels 401, the driving wheel 403 is meshed with the piston driving wheel 405, and the driving cone 407 is meshed with the piston driving cone 406 and the driving cone 408. The driving cone 408 is driven to rotate by the operation of the driving motor 409, meanwhile, the transmission cone 407 and the separation driving wheel 402 are driven to rotate, the piston driving cone 406 can be driven to rotate by the rotation of the transmission cone 407, the transmission driving wheel 403, the piston driving wheel 405 and the piston driving wheel 404 are driven to rotate, and the separation driving wheel 401 and the caterpillar driving gear 410 on two sides can be driven to rotate by the rotation of the separation driving wheel 402, so that power is provided.

The specific structure of the end cover 5 in this embodiment is shown in fig. 5, and the end cover further comprises an end cover driving rack 502, a fixed large plate 504, an opening driving wheel 505, an end cover upper plate 506, an end cover driving gear 507, an end cover gear positioning shaft 508 and an end cover plate 509, wherein the end cover driving rack 502 is fixedly mounted on a piston rod of the end cover driving cylinder 501, the fixed large plate 504 is fixedly mounted at one end of the discharge port connecting pipe 503, the opening driving wheel 505 is fixedly mounted on the end cover gear positioning shaft 508, the end cover gear positioning shaft 508 is rotationally connected with the fixed large plate 504 and the end cover upper plate 506, the end cover driving gear 507 is rotationally mounted between the fixed large plate 504 and the end cover upper plate 506, teeth outside the end cover driving gear 507 are meshed with the end cover driving rack 502, the teeth inside are meshed with the opening driving wheel 505, and the end cover plate 509 is fixedly mounted on the upper end surface of the end cover gear positioning shaft 508. Through the work of end cover drive cylinder 501, drive the removal of end cover drive rack 502, drive the rotation of end cover drive gear 507 simultaneously, the rotation of end cover drive gear 507 can drive the rotation of opening drive wheel 505, opens the rotation of drive wheel 505 and drives the rotation of end cover gear location axle 508 to the removal of end cover 509 is driven, the function of switch is realized.

In this embodiment, the separation reservoir 102 is divided into an upper half with a rectangular shape and a lower half with a cylindrical shape, and the piston screen plate 118 is slidably mounted on the lower half of the separation reservoir 102.

In this embodiment, the piston screen plate 118 is provided with a plurality of holes.

In this embodiment, a connecting lug is disposed on one side of the drainage door 210, a Y-shaped joint 211 is hinged to the connecting lug on one side of the drainage door 210, a cylinder barrel of the drainage cylinder 212 is fixedly mounted on the sedimentation barrel 201, and a piston rod of the drainage cylinder 212 is fixedly connected with the Y-shaped joint 211. By the operation of the drainage cylinder 212, the drainage door 210 is pushed to move, thereby realizing drainage of wastewater after sedimentation.

Claims

1. The utility model provides a washing machine water pipe that organic matter was retrieved, includes foam separator (1), sediment device (2), washing machine water pipe (3), drive arrangement (4), end cover (5), its characterized in that:

the foam separation device (1) comprises a base (101), a separation water storage chamber (102), a T-shaped sliding stirring block (103), a driven crawler wheel (104), a crawler belt (105), a foam discharge port (106), a piston rod (107), a piston driving rack (108), a piston driving shaft (109), a piston driving shaft mounting plate (110), a transmission shaft mounting plate (111), a transmission shaft (112), a driving crawler wheel (113), a left positioning shaft (114), a middle positioning shaft (115), a right positioning shaft (116), a discharge port (117), a piston screen plate (118) and a rubber piston block (119), wherein two sliding grooves are arranged at the top of the separation water storage chamber (102), the separation water storage chamber (102) is fixedly arranged on the base (101), the T-shaped sliding stirring block (103) is slidably arranged in the grooves at the top of the separation water storage chamber (102), the driven crawler wheel (104) is distributed with a left side and a right side, the two driven crawler wheel (104) are respectively rotatably arranged in the positioning holes of the separation water storage chamber (102), the crawler belt (105) is connected with the driven crawler wheel (104) and the driving crawler wheel (113), the foam crawler wheel (105) and the crawler wheel (104) are mutually meshed with the two driving crawler wheel (104) and the two crawler wheel (113), the device is fixedly arranged on a separation water storage chamber (102) respectively, a piston rod (107) is fixedly arranged on a piston sieve plate (118), a piston driving rack (108) is fixedly arranged on the piston rod (107), a piston driving shaft (109) is rotatably arranged in a piston driving shaft mounting plate (110), the piston driving shaft mounting plate (110) and a transmission shaft mounting plate (111) are fixedly arranged on the upper surface of the separation water storage chamber (102) respectively, a transmission shaft (112) is rotatably arranged in the transmission shaft mounting plate (111), a left positioning shaft (114), a middle positioning shaft (115) and a right positioning shaft (116) are fixedly arranged on the upper surface of the separation water storage chamber (102) respectively, a discharge outlet (117) is fixedly arranged on the separation water storage chamber (102), and a rubber piston block (119) is fixedly arranged at the bottom of the piston rod (107);

the sedimentation device (2) comprises a sedimentation barrel (201), a sedimentation motor (202), a sedimentation driving cone pulley (203), a sedimentation driven cone pulley (204), a rotating shaft (205), a double-row bending chain (206), a flocculating agent storage barrel (207), double-row chain wheels (208), a drainage guide rail (209), a drainage door (210), a transmission shaft mounting plate (111), a drainage cylinder (212) and a sediment storage drawer (213), wherein the sedimentation motor (202) is fixedly arranged on the sedimentation barrel (201), the sedimentation driving cone pulley (203) is fixedly arranged on an output shaft of the sedimentation motor (202), the sedimentation driven cone pulley (204) is fixedly arranged on the rotating shaft (205), the sedimentation driving cone pulley (203) and the sedimentation driven cone pulley (204) are meshed with each other, the rotating shaft (205) is rotatably arranged in a positioning hole of the sedimentation barrel (201), the flocculating agent storage barrel (207) is fixedly arranged on the double-row bending chain (206), the double-row chain wheels (208) are distributed with an upper part and a lower part, the double-row bending chain wheels (206) are connected with the two double-row chain wheels (208) and meshed with each other, the drainage guide rail (209) is fixedly arranged on the sedimentation barrel (201), the drainage door (210) is arranged in a sliding way, a sediment storage drawer (213) is slidably mounted on the sediment tank (201);

the driving device (4) comprises a separation driving wheel (401), a separation driving wheel (402), a transmission driving wheel (403), a piston driving wheel (404), a piston driving wheel (405), a piston driving cone (406), a transmission cone (407), a track driving gear (410), a driving cone (408) and a driving motor (409), wherein the driving cone (408) is fixedly arranged on an output shaft of the driving motor (409), the driving motor (409) is fixedly arranged on the upper surface of the separation water storage chamber (102), the separation driving wheel (402) is fixedly connected with the transmission cone (407), the two separation driving wheels (401) are respectively meshed with the two track driving gears (410), the separation driving wheel (402) is meshed with the two separation driving wheels (401), the transmission driving wheel (403) is meshed with the piston driving wheel (405), and the transmission cone (407) is meshed with the piston driving cone (406) and the driving cone (408);

the end cover (5) comprises an end cover driving cylinder (501), a discharge port connecting pipe (503), an end cover driving rack (502), a fixed large plate (504), an opening driving wheel (505), an end cover upper plate (506), an end cover driving gear (507), an end cover gear positioning shaft (508) and an end cover plate (509), wherein the end cover driving rack (502) is fixedly arranged on a piston rod of the end cover driving cylinder (501), the fixed large plate (504) is fixedly arranged at one end of the discharge port connecting pipe (503), the opening driving wheel (505) is fixedly arranged on the end cover gear positioning shaft (508), the end cover gear positioning shaft (508) is rotationally connected with the fixed large plate (504) and the end cover upper plate (506), the end cover driving gear (507) is rotationally arranged between the fixed large plate (504) and the end cover upper plate (506), teeth outside the end cover driving gear (507) are meshed with the end cover driving rack (502), the inner teeth are meshed with the opening driving wheel (505), and the end cover plate (509) is fixedly arranged on the upper end surface of the end cover gear positioning shaft (508);

the driving crawler wheel (113), the separation driving wheel (401) and the crawler driving gear (410) are respectively provided with a left driving crawler wheel and a right driving crawler wheel, the two driving crawler wheels (113) are respectively and fixedly arranged on the upper surface of the crawler driving gear (410), the driving crawler wheel (113) and the crawler driving gear (410) are coaxial, the two separation driving wheels (401) are respectively and rotatably arranged on a left positioning shaft (114) and a right positioning shaft (116), the separation driving wheel (402) and the transmission cone (407) are rotatably arranged on an intermediate positioning shaft (115), the transmission driving wheel (403) and the piston driving cone (406) are fixedly arranged on a transmission shaft (112), the piston driving wheel (404) and the piston driving wheel (405) are fixedly arranged on a piston driving shaft (109), the two crawler driving gears (410) are respectively and rotatably arranged on the positioning shafts on the upper sides of the separation water storage chamber (102), the sedimentation barrel (201) and the cylinder barrel of the end cover driving cylinder (501) are respectively and fixedly arranged on the base (101), the discharge port (117) and the discharge port (503) are coaxially and fixedly connected, and the piston driving wheel (108) and the piston driving cone (404) are meshed with the piston driving wheel (404).

2. A water pipe for a washing machine for organic matter recovery as claimed in claim 1, wherein: the separation water storage chamber (102) is divided into an upper half part and a lower half part, the upper half part is rectangular, the lower half part is cylindrical, and the piston sieve plate (118) is slidably arranged on the lower half part of the separation water storage chamber (102).

3. A water pipe for a washing machine for organic matter recovery as claimed in claim 1, wherein: the piston screen plate (118) is provided with a plurality of holes.

4. A water pipe for a washing machine for organic matter recovery as claimed in claim 1, wherein: one side of the drainage door (210) is provided with a connecting lug, the Y-shaped joint (211) is hinged with the connecting lug on one side of the drainage door (210), a cylinder barrel of the drainage cylinder (212) is fixedly arranged on the sedimentation barrel (201), and a piston rod of the drainage cylinder (212) is fixedly connected with the Y-shaped joint (211).