CN104056732A

CN104056732A - High-efficiency dirt dewatering device

Info

Publication number: CN104056732A
Application number: CN201410305054.9A
Authority: CN
Inventors: 李思贤
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-06-30
Filing date: 2014-06-30
Publication date: 2014-09-24
Anticipated expiration: 2034-06-30
Also published as: CN104056732B

Abstract

The invention discloses a high-efficiency dirt dewatering device. The high-efficiency dirt dewatering device comprises a bracket, a first spiral blade which is arranged on the bracket and can rotate relative to the bracket, and a first roller, wherein a first gear part is formed at the end part of the first spiral blade; a second gear part is formed at one end of the first roller; the first gear part and the second gear part are arranged coaxially; the two ends of the first roller are open; the first spiral blade is inserted into the first roller; a plurality of first dewatering circular holes are formed in the peripheral wall of the first roller; a first outer shell covers and sleeves out of the first roller and is connected with a first liquid outlet pipeline; the dewatering device also comprises a first delivering pipe and a first sewage discharging piece, wherein the first delivering pipe is inserted from the open end, close to the second gear part, of the first roller and is used for delivering dirt to the first roller; the first sewage discharging piece is used for receiving impurities at the open end, far away from the second gear part, of the first roller. According to the high-efficiency dirt dewatering device, the dirt dewatering treatment effect can be remarkably improved, and the problem of secondary pollution generated in a treatment process is avoided effectively.

Description

A kind of efficient dirt dewater unit

Technical field

The invention belongs to environmental protection equipment field, be specifically related to a kind of efficient dirt dewater unit.

Background technology

Along with the quick propelling of urbanization of villages, existing a large amount of Floating Rural Populations, to urban agglomerations, make population and enterprises and institutions in city more and more, and the scale in city also constantly expands.A large amount of population and numerous enterprises and institutions can produce the dirt of a large amount of house refuses, sewage or high-moisture every day, and the ecological environment in city has been caused to serious impact.These dirts mostly are solid-liquid state, and the processing mode difference of the relative solid refuse of mode of its processing needs first dirt to be dewatered, then the dirt after dehydration is carried out to next step processing.

At present, although there is the equipment that the dirt of above-mentioned house refuse, sewage or high-moisture is dewatered, the poor effect of these equipment to dewatering dirt processing, and easily produce the problem of secondary pollution.

Summary of the invention

For the deficiencies in the prior art, the object of the invention is intended to provide a kind of efficient dirt dewater unit, can significantly improve the effect to dewatering dirt processing, has effectively avoided producing in processing procedure the problem of secondary pollution.

For achieving the above object, the present invention adopts following technical scheme:

A kind of efficient dirt dewater unit, comprise drive unit, support, rack-mount and can rotate relative to support the first helical blade and the first cylinder, in the termination portion of described the first helical blade, be formed with the first gear part, one end of described the first cylinder is formed with the second gear part, described the first gear part and the second gear part are driven by drive unit, described the first gear part and the second gear part are coaxial setting, described the first cylinder is both ends open shape, described the first helical blade is inserted in the first cylinder, on the perisporium of described the first cylinder, be formed with several the first dehydration circular holes, described the first roller cover cover has the first shell, on described the first shell, be connected with the first fluid pipeline, described dewater unit also comprises from the first cylinder in the open end insertion near the second gear part and for the first cylinder being carried to the first delivery tube of dirt, be used for from the first cylinder at the first blowdown part of accepting impurity away from the open end of the second gear part.

Preferably, the second helical blade and the second tin roller that can rotate relative to support are also installed on described support, the termination portion of described the second helical blade is formed with the 3rd gear part being meshed with the first gear part, one end of described second tin roller is formed with the 4th gear part being meshed with the second gear part, described the 3rd gear part and the 4th gear part are coaxial setting, described the second helical blade is inserted in second tin roller, on the perisporium of described second tin roller, be formed with several the second dehydration circular holes, the diameter of described the second dehydration circular hole is less than the diameter of the first dehydration circular hole, described second tin roller external cover has second housing, on described second housing, be connected with the second fluid pipeline, described dewater unit also comprises the second delivery tube of inserting in the open end near the 4th gear part from second tin roller, be used for from second tin roller at the second blowdown part of accepting impurity away from the open end of the 4th gear part, described the second delivery tube and the first fluid pipeline are connected.

Preferably, triple helical blade and the 3rd cylinder that can rotate relative to support are also installed on described support, the termination portion of described triple helical blade is formed with the 5th gear part being meshed with the 3rd gear part, one end of described the 3rd cylinder is formed with the 6th gear part being meshed with the 4th gear part, described the 5th gear part and the 6th gear part are coaxial setting, described triple helical blade is inserted in the 3rd cylinder, on the perisporium of described the 3rd cylinder, be formed with several the 3rd dehydration circular holes, the diameter of described the 3rd dehydration circular hole is less than the diameter of the first dehydration circular hole, described the 3rd roller cover cover has the 3rd shell, on described the 3rd shell, be connected with the 3rd fluid pipeline, described dewater unit also comprises the 3rd delivery tube of inserting in the open end near the 6th gear part from the 3rd cylinder, be used for from the 3rd cylinder at the 3rd blowdown part of accepting impurity away from the open end of the 6th gear part, described the 3rd delivery tube and the second delivery tube are connected.

Preferably, described drive unit comprises rack-mount gearbox, the 7th gear part being connected with output shaft of gear-box, the 8th gear part being in transmission connection by belt and the 7th gear part, described the 8th gear part is fixed in the first rotating shaft, described the first rotating shaft is articulated on support, and in the first rotating shaft, be also fixed with the 9th gear part, described the 9th gear part is meshed with the 4th gear part, in described the first gear part, be engaged with the tenth gear part, described the tenth gear part is fixed in the second rotating shaft, described the second rotating shaft is articulated on support, and in the second rotating shaft, be also fixed with the 11 gear part, described the 11 gear part and the 9th gear part are meshed.

Preferably, the hand of spiral of the blade of described the first helical blade is consistent with the hand of spiral of the blade of triple helical blade, and the hand of spiral of the blade of the hand of spiral of the blade of described the second helical blade and the first helical blade is contrary.

Preferably, in described the first delivery tube, be provided with for extraneous dirt being pumped into the first water pump in the first delivery tube, the second water pump for the dirt in the first fluid pipeline being pumped into the second delivery tube and the 3rd delivery tube is installed in described the 3rd delivery tube.

Preferably, be formed with extension track and be circular circular groove on the periphery wall of described the first helical blade, be formed with multiple screws on the periphery wall of described the first cylinder, in described screw, be fitted with screw, the termination portion of described screw is positioned at circular groove.

Beneficial effect of the present invention is:

The present invention by being provided with the first helical blade and first cylinder that can rotate relative to support on support, in the termination portion of the first helical blade, be formed with the first gear part, one end of the first cylinder is formed with the second gear part, the first helical blade is inserted in the first cylinder, on the perisporium of the first cylinder, be formed with several the first dehydration circular holes, the first roller cover cover has the first shell, on the first shell, be connected with the first fluid pipeline, dewater unit also comprises from the first cylinder in the open end insertion near the second gear part and for the first cylinder being carried to the first delivery tube of dirt, be used for from the first cylinder at the first blowdown part of accepting impurity away from the open end of the second gear part, under the turning effort of the first cylinder, less solid particle and water liquid will throw away from the first dehydration circular hole, flow in the first shell, be collected in the first fluid pipeline, and larger particle is by under the turning effort at the first helical blade, in the first cylinder, move to the first blowdown part, carry out next step work for the treatment of, the present invention is under the effect of the first cylinder and the first helical blade, can be preferably by water liquid and granule in dirt, bulky grain separates, can significantly improve the effect to dewatering dirt processing, water liquid after separation and granule are collected by the first fluid pipeline, bulky grain after separation is collected by the first blowdown part, effectively avoid producing in processing procedure the problem of secondary pollution, meanwhile, at the second helical blade and second tin roller, and under the effect of triple helical blade and the 3rd cylinder, can realize the twice dehydration work of dirt, further improve the effect of the present invention to dewatering dirt processing.

Brief description of the drawings

Fig. 1 is overall structure schematic diagram of the present invention;

Fig. 2 is the structural representation that the present invention removes vehicle and storing compartment;

Fig. 3 is the structural representation of another angle of Fig. 2;

Fig. 4 is partial structurtes schematic diagram of the present invention;

Fig. 5 is the structural representation of the second gear part of the present invention and the first cylinder;

Fig. 6 is the structural representation of the first gear part of the present invention and the first helical blade;

Fig. 7 is the structural representation of support of the present invention;

Fig. 8 is the structural representation of storing railway carriage of the present invention.

Wherein, 1, vehicle; 2, support; 3, the 3rd shell; 4, water tank; 5, storing compartment; 51, the second chamber; 52, dividing plate; 53, the first chamber; 6, the 3rd delivery tube; 7, the second delivery tube; 8, gearbox; 9, the first delivery tube; 10, the first shell; 11, second housing; 12, the 3rd film; 13, the second film; 14, the first film; 15, the 7th gear part; 16, belt; 17, the first rotating shaft; 18, octadentate wheel; 19, the 9th gear; 20, the tenth gear part; 21, the 3rd gear part; 22, the 5th gear part; 23, the 6th gear part; 24, the 4th gear part; 25, the first gear part; 26, the second gear part; 27, the 11 gear part; 28, the first helical blade; 29, circular groove; 30, the first cylinder; 31, the first dehydration circular hole; 32, screw.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the present invention is described further:

As shown in Fig. 1-8, for the efficient dirt dewater unit of one of the present invention, comprise drive unit, support 2, the first helical blade 28 and the first cylinder 30 that are arranged on support 2 and can rotate relative to support 2, in the termination portion of described the first helical blade 28, be formed with the first gear part 25, one end of described the first cylinder 30 is formed with the second gear part 26, described the first gear part 25 and the second gear part 26 are driven by drive unit, described the first gear part 25 and the second gear part 26 are coaxial setting, described the first cylinder 30 is both ends open shape, described the first helical blade 28 is inserted in the first cylinder 30, on the perisporium of described the first cylinder 30, be formed with several the first dehydration circular holes 31, on described the first cylinder 30, the enclosure has the first shell 10, on described the first shell 10, be connected with the first fluid pipeline, described dewater unit also comprises from the first cylinder 30 in the open end insertion near the second gear part 26 and for the first cylinder 30 being carried to the first delivery tube 9 of dirt, be used for from the first cylinder 30 at the first blowdown part of accepting impurity away from the open end of the second gear part 26.Described the first dehydration circular hole 31 is arranged along the center line circumference of the first cylinder 30.

The present embodiment is under the turning effort of the first cylinder 30, less solid particle and water liquid will throw away from the first dehydration circular hole 31, flow in the first shell 10, be collected in the first fluid pipeline, and larger particle is by under the turning effort at the first helical blade 28, in the first cylinder 30, move to the first blowdown part, carry out next step work for the treatment of, the present invention can significantly improve the effect to dewatering dirt processing, has effectively avoided producing in processing procedure the problem of secondary pollution.

Preferably, the second helical blade and the second tin roller that can rotate relative to support 2 are also installed on described support 2, the termination portion of described the second helical blade is formed with the 3rd gear part 21 being meshed with the first gear part 25, one end of described second tin roller is formed with the 4th gear part 24 being meshed with the second gear part 26, described the 3rd gear part 21 and 24 of the 4th gear part are coaxial setting, described the second helical blade is inserted in second tin roller, on the perisporium of described second tin roller, be formed with several the second dehydration circular holes, the diameter of described the second dehydration circular hole is less than the diameter of the first dehydration circular hole 31, described second tin roller external cover has second housing 11, on described second housing 11, be connected with the second fluid pipeline, described dewater unit also comprises the second delivery tube 7 of inserting in the open end near the 4th gear part 24 from second tin roller, be used for from second tin roller at the second blowdown part of accepting impurity away from the open end of the 4th gear part 24, described the second delivery tube 7 and the first fluid pipeline are connected.Dirt after dehydration for the first time, flows in second tin roller by the second delivery tube 7, and then, under the turning effort of second tin roller, more tiny particle and water throw away in the second dehydration circular hole, then flow into the second fluid pipeline; The larger particle of volume, by under the effect at the second helical blade, moves to the second blowdown part in second tin roller.Dirt after twice dehydration, can be further by the larger particles of dirt and compared with separate small out.Described the second dehydration circular hole is arranged along the center line circumference of second tin roller.

Preferably, triple helical blade and the 3rd cylinder that can rotate relative to support 2 are also installed on described support 2, the termination portion of described triple helical blade is formed with the 5th gear part 22 being meshed with the 3rd gear part 21, one end of described the 3rd cylinder is formed with the 6th gear part 23 being meshed with the 4th gear part 24, described the 5th gear part 22 and the 6th gear part 23 are coaxial setting, described triple helical blade is inserted in the 3rd cylinder, on the perisporium of described the 3rd cylinder, be formed with several the 3rd dehydration circular holes, the diameter of described the 3rd dehydration circular hole is less than the diameter of the first dehydration circular hole 31, described the 3rd roller cover cover has the 3rd shell 3, on described the 3rd shell 3, be connected with the 3rd fluid pipeline, described dewater unit also comprises the 3rd delivery tube 6 of inserting in the open end near the 6th gear part 23 from the 3rd cylinder, be used for from the 3rd cylinder at the 3rd blowdown part of accepting impurity away from the open end of the 6th gear part 23, described the 3rd delivery tube 6 and the second delivery tube 7 are connected.Dirt after dehydration for the first time, flows in the 3rd cylinder by the 3rd delivery tube 6, and then, under the turning effort of the 3rd cylinder, comparatively tiny particle and water throw away in the 3rd dehydration circular hole, flow into the 3rd fluid pipeline; The larger particle of volume, by under the effect at triple helical blade, moves in the 3rd blowdown part in the 3rd cylinder.Under the setting of the 3rd cylinder and the 3rd shell 3, can accelerate the work of dehydration for the second time of dirt, and the precision of dewatering dirt work is for the second time improved.Described the 3rd dehydration circular hole is arranged along the center line circumference of the 3rd cylinder.The first shell 10, second housing 11 and the 3rd shell 3 are installed on support 2.

Preferably, described drive unit comprises the gearbox 8 being arranged on support 2, the 7th gear part 15 being connected with gearbox 8 output shafts, the 8th gear part 18 being in transmission connection by belt 16 and the 7th gear part 15, described the 8th gear part 18 is fixed in the first rotating shaft 17, described the first rotating shaft 17 is articulated on support 2, and in the first rotating shaft 17, be also fixed with the 9th gear part 19, described the 9th gear part 19 is meshed with the 4th gear part 24, in described the first gear part 25, be engaged with the tenth gear part 20, described the tenth gear part 20 is fixed in the second rotating shaft, described the second rotating shaft is articulated on support 2, and in the second rotating shaft, be also fixed with the 11 gear part 27, described the 11 gear part 27 and the 9th gear part 19 are meshed.On gearbox 8, can be connected with pressure release pump.

The diameter value of the 9th gear part 19 is greater than the diameter value of the tenth gear part 20, and under the effect of the 11 gear part 27, the rotating speed of the first gear part 25 is greater than the rotating speed of the second gear part 26, and the first gear part 25, the 3rd gear part 21 are identical with the 5th gear part 22 rotating speeds and be greater than the rotating speed of the second gear part 26, the 4th gear part 24 and the 6th gear part 23.That is to say, the rotating speed of the first helical blade 28, the second helical blade and triple helical blade is greater than the rotating speed of the first cylinder 30, second tin roller and the 3rd cylinder, under the rotary work of differential, can further strengthen dewatering dirt effect of the present invention.

Preferably, the hand of spiral of the blade of described the first helical blade 28 is consistent with the hand of spiral of the blade of triple helical blade, the hand of spiral of the blade of the hand of spiral of the blade of described the second helical blade and the first helical blade 28 is contrary, can further strengthen the dehydration precision of dirt.In actual use, the blade of the first helical blade 28 and triple helical blade can be all upwards to extend along clockwise direction, and the blade of the second helical blade can be along counterclockwise upwards extending.

Preferably, in described the first delivery tube 9, be provided with for extraneous dirt being pumped into the first water pump in the first delivery tube 9, the second water pump for the dirt in the first fluid pipeline being pumped into the second delivery tube 7 and the 3rd delivery tube 6 is installed in described the 3rd delivery tube 6.Under the effect of the first water pump and the second water pump, transport that can more convenient dirt.

Preferably, on the periphery wall of described the first helical blade 28, be formed with extension track and be circular circular groove 29, on the periphery wall of described the first cylinder 30, be formed with multiple screws 32, in described screw 32, be fitted with screw, the termination portion of described screw is positioned at circular groove 29.The setting of screw, can effectively prevent the first gear part 25 and the second gear part 26 disengaging when rotated, effectively ensures operating personnel's security.In addition, the 3rd gear part 21 and the 4th gear part 24, the 5th gear part 22 and the 6th gear part 23 also can adopt similar fit system, prevent its disengaging in the time of rotary work.

In addition, in order to facilitate the rotary work of the first cylinder 30, second tin roller and the 3rd cylinder, can also be formed with corresponding gear part at its other end; In order to support the first gear part 25, the 3rd gear part 21 and the 5th gear part 22, simultaneously also in order to prevent that the first gear part 25, the 3rd gear part 21 and the 5th gear part 22 from being to break away at rotary work, can on the periphery wall of the first gear part 25, the 3rd gear part 21 and the 5th gear part 22, offer guide rail, the pulley that pivot joint matches with guide rail on support 2.

The present invention, in the time that reality is used, can be arranged on support 2 of the present invention movably on vehicle 1, and water tank 4 and storing compartment 5 are also installed on vehicle 1.The second fluid pipeline of the present invention and the 3rd fluid pipeline can be communicated with on water tank 4, and the water liquid after processed and fine particle are collected on water tank 4, do further processing.The first blowdown part, the second blowdown part and the 3rd blowdown part are communicated with on storing compartment 5, the larger particles after processed can be collected on storing compartment 5, for next step work for the treatment of ready.

The first blowdown part of the present invention can be that the first film 14, the second blowdown parts can be that the second film 13, the three blowdown parts can be the 3rd films 12, and the setting of these films can the elastic reset work of convenient storage compartment 5 in the time of unloading.In addition, in order to prevent that the first cylinder 30, second tin roller and the 3rd cylinder are under High Rotation Speed, the phenomenon that larger particles splashes while being expelled to storing railway carriage 5 from the first film 14, the second film 13, the 3rd film 12, the first film 14, the second film 13, the 3rd film 12 closely can be connected with storing compartment 5, thereby the larger particles of effectively stopping to splash shines into injury to the operating personnel of periphery, the security that ensures operating personnel is played to positive effect.

In addition, storing compartment 5 is separated into the first chamber 53 and the second chamber 51, the first films 14 and the first chamber 53 by dividing plate 52 and is connected, the second film 13, the 3rd film 12 all and the second chamber 51 be connected.The setting of the first chamber 53 and the second chamber 51, can collect the larger particles after the larger particles after dehydration for the first time and dehydration for the second time respectively.

In addition, on the junction of storing compartment 5 and the first film 14, the second film 13 and the 3rd film 12, be provided with the baffle plate of can relative storing compartment 5 opening or closing.

Dirt of the present invention can be under the effect of the first water pump, is pumped into fast in the first delivery tube 9, then flows in the first cylinder 30, and the power of the first water pump can be provided by gearbox 8.Then by controlling the work of gearbox 8, drive the rotation of the 7th gear part 15, and then the rotary work of drive the 9th gear part 19 and the tenth gear part 20, and the synchronous rotary work that drives the 4th gear part 24, the second gear part 26, the 6th gear part 23 of the 9th gear part 19, and the synchronous rotary work that drives the first gear part 25, the 3rd gear part 21 and the 5th gear part 22 of the tenth gear part 20.The first gear part 25 drives the rotation of the first helical blade 28, the second gear part 26 drives the rotation of the first cylinder 30, the more short grained dirt and the water liquid that flow in the first cylinder 30 will throw away in the first dehydration circular hole 31, larger particle is discharged to the first film 14 from the first cylinder 30 is interior under the effect of the first helical blade 28, finally flow in first chamber 53 in storing compartment 5, carry out next step work for the treatment of.More short grained dirt and water liquid, under the effect of the second water pump, are pumped into respectively in second tin roller and the 3rd cylinder in the first drain pipe, carry out processed for the second time.Finally, larger particle moves in the second chamber 51 from the second film 13 and the 3rd film 12 respectively, carries out next step work for the treatment of; Less particle and water flows into water tank 4 from the second drain pipe and the 3rd drain pipe respectively relatively, carries out next step processing.

For a person skilled in the art, can be according to technical scheme described above and design, make other various corresponding changes and distortion, and these all changes and distortion all should belong to the protection domain of the claims in the present invention within.

Claims

1. an efficient dirt dewater unit, it is characterized in that: comprise drive unit, support, rack-mount and can rotate relative to support the first helical blade and the first cylinder, in the termination portion of described the first helical blade, be formed with the first gear part, one end of described the first cylinder is formed with the second gear part, described the first gear part and the second gear part are driven by drive unit, described the first gear part and the second gear part are coaxial setting, described the first cylinder is both ends open shape, described the first helical blade is inserted in the first cylinder, on the perisporium of described the first cylinder, be formed with several the first dehydration circular holes, described the first roller cover cover has the first shell, on described the first shell, be connected with the first fluid pipeline, described dewater unit also comprises from the first cylinder in the open end insertion near the second gear part and for the first cylinder being carried to the first delivery tube of dirt, be used for from the first cylinder at the first blowdown part of accepting impurity away from the open end of the second gear part.

2. efficient dirt dewater unit as claimed in claim 1, it is characterized in that: the second helical blade and the second tin roller that can rotate relative to support are also installed on described support, the termination portion of described the second helical blade is formed with the 3rd gear part being meshed with the first gear part, one end of described second tin roller is formed with the 4th gear part being meshed with the second gear part, described the 3rd gear part and the 4th gear part are coaxial setting, described the second helical blade is inserted in second tin roller, on the perisporium of described second tin roller, be formed with several the second dehydration circular holes, the diameter of described the second dehydration circular hole is less than the diameter of the first dehydration circular hole, described second tin roller external cover has second housing, on described second housing, be connected with the second fluid pipeline, described dewater unit also comprises the second delivery tube of inserting in the open end near the 4th gear part from second tin roller, be used for from second tin roller at the second blowdown part of accepting impurity away from the open end of the 4th gear part, described the second delivery tube and the first fluid pipeline are connected.

3. efficient dirt dewater unit as claimed in claim 2, it is characterized in that: triple helical blade and the 3rd cylinder that can rotate relative to support are also installed on described support, the termination portion of described triple helical blade is formed with the 5th gear part being meshed with the 3rd gear part, one end of described the 3rd cylinder is formed with the 6th gear part being meshed with the 4th gear part, described the 5th gear part and the 6th gear part are coaxial setting, described triple helical blade is inserted in the 3rd cylinder, on the perisporium of described the 3rd cylinder, be formed with several the 3rd dehydration circular holes, the diameter of described the 3rd dehydration circular hole is less than the diameter of the first dehydration circular hole, described the 3rd roller cover cover has the 3rd shell, on described the 3rd shell, be connected with the 3rd fluid pipeline, described dewater unit also comprises the 3rd delivery tube of inserting in the open end near the 6th gear part from the 3rd cylinder, be used for from the 3rd cylinder at the 3rd blowdown part of accepting impurity away from the open end of the 6th gear part, described the 3rd delivery tube and the second delivery tube are connected.

4. efficient dirt dewater unit as claimed in claim 3, it is characterized in that: described drive unit comprises rack-mount gearbox, the 7th gear part being connected with output shaft of gear-box, the 8th gear part being in transmission connection by belt and the 7th gear part, described the 8th gear part is fixed in the first rotating shaft, described the first rotating shaft is articulated on support, and in the first rotating shaft, be also fixed with the 9th gear part, described the 9th gear part is meshed with the 4th gear part, in described the first gear part, be engaged with the tenth gear part, described the tenth gear part is fixed in the second rotating shaft, described the second rotating shaft is articulated on support, and in the second rotating shaft, be also fixed with the 11 gear part, described the 11 gear part and the 9th gear part are meshed.

5. efficient dirt dewater unit as claimed in claim 3, it is characterized in that: the hand of spiral of the blade of described the first helical blade is consistent with the hand of spiral of the blade of triple helical blade, the hand of spiral of the blade of the hand of spiral of the blade of described the second helical blade and the first helical blade is contrary.

6. efficient dirt dewater unit as claimed in claim 3, it is characterized in that: in described the first delivery tube, be provided with for extraneous dirt being pumped into the first water pump in the first delivery tube, the second water pump for the dirt in the first fluid pipeline being pumped into the second delivery tube and the 3rd delivery tube is installed in described the 3rd delivery tube.

7. efficient dirt dewater unit as claimed in claim 3, it is characterized in that: on the periphery wall of described the first helical blade, be formed with extension track and be circular circular groove, on the periphery wall of described the first cylinder, be formed with multiple screws, in described screw, be fitted with screw, the termination portion of described screw is positioned at circular groove.