CN105903576A - Environment-friendly energy-saving tap water sludge high-efficient separation system - Google Patents

Abstract

The invention discloses an environment-friendly energy-saving tap water sludge high-efficient separation system. The environment-friendly energy-saving tap water sludge high-efficient separation system is characterized in that: a rotary drum is arranged horizontally; a spiral pushing cylinder is positioned in the rotary drum and is coaxially arranged with the rotary drum; the spiral pushing cylinder divides the inner part of the rotary drum into a feeding chamber positioned in the spiral pushing cylinder and a separation chamber positioned between the spiral pushing cylinder and the rotary drum; a primary motor drives the rotary drum to rotate, a driving module of a secondary motor adjusts the revolving speed of the spiral pushing cylinder through a differential mechanism, and meanwhile, power generated by a power generation module of the secondary motor is supplied to the primary motor. During working, slurry to be separated enters the feeding chamber, and then enters the separation chamber through distribution holes, and rotates with the rotary drum; the slurry is divided into a solid phase positioned in an outer ring and a liquid phase positioned in a center in the separation chamber; and through the dual motors, the power generation module of the secondary motor is in a power generation state all the time under the differential action of the rotary drum, and then electric energy can be utilized reasonably.

Description

A kind of environment-friendly and energy-efficient sludge of drinking water high efficiency separation system

Technical field

The present invention relates to technical field of sludge treatment, particularly relate to a kind of environment-friendly and energy-efficient sludge of drinking water efficient Piece-rate system.

Background technology

Along with development and the raising of environmental protection consciousness of scientific and technological level, people increasingly pay close attention to waterworks row Muddy water and the handling problems of mud, sludge dewatering separating treatment final disposal mud cake is that current waterworks is to dirt The difficult point that mud processes.

Containing various moisture in alum sludge, they exist with different states, including Free water, vitriol Hua Shui, capillary water and combine water.The removal of the moisture in above mud, traditional method is by interpolation Learn medicament and carry out pretreatment, then carry out solid-liquid separation with traditional centrifuge, but in processing procedure, In mud cake, solid content is relatively low, simultaneously because add chemical agent to carry out pretreatment, has certain pollution to water quality.

Meanwhile, traditional centrifuge is in processing mud separation process, owing to the granule of sludge of drinking water is less, Dissolving speed is fast, and slip is big, is difficult to release the mud separated.

Summary of the invention

For solving technical problem present in background technology, it is dirty that the present invention proposes a kind of environment-friendly and energy-efficient tap water Mud high efficiency separation system.

A kind of environment-friendly and energy-efficient sludge of drinking water high efficiency separation system that the present invention proposes, including: rotary drum, spiral shell Rotation pusher cylinder, mair motor, auxiliary motor, differential mechanism；

Rotary drum is horizontally disposed with, and rotary drum one end is provided with charging aperture and liquid outlet and the other end is provided with discharging opening, rotary drum Inside is provided with the accommodating chamber extended from charging aperture one end to discharging opening one end；

Spiral pusher cylinder periphery is provided with helical blade, is provided with entering of extending to middle part from one end in spiral pusher cylinder Material chamber, the sidewall of described charging chamber is provided with cloth hole；

Spiral pusher cylinder is positioned at described accommodating chamber and arranges to discharging opening direction along charging aperture, spiral pusher The opening of cylinder towards described charging aperture and with described charging aperture by pipeline connection, spiral pusher drum outer wall with Forming split cavity between drum inner wall, described split cavity is by described cloth hole with described charging chamber even Logical, helical blade and described accommodating chamber inwall matched in clearance and in described split cavity, form spiral lead to Road, described helical duct connects with described liquid outlet；

The clutch end of mair motor and the rotating shaft of rotary drum are connected to drive rotary drum to rotate around its rotating shaft, auxiliary Motor includes driving module and electricity generation module, drives the clutch end of module by differential mechanism and spiral pusher The rotating shaft of cylinder is connected to adjustable screw pusher cylinder rotating speed, the power output end of electricity generation module and the electricity of mair motor Power input connects.

Preferably, described charging chamber includes pre-separation room and the distribution being sequentially connected with from opening to blind end Room, cloth hole is positioned on the sidewall of distributor chamber.

Preferably, the internal diameter of pre-separation room is gradually increased near junction chamber one end from away from junction chamber.

Preferably, the internal diameter of described distributor chamber is more than the maximum inner diameter of described pre-separation room.

Preferably, spiral pusher cylinder is coaxially disposed with rotary drum.

Preferably, spiral pusher cylinder and rotary drum turn to identical and rotating speed the turning more than spiral pusher cylinder of rotary drum Speed.

Preferably, rotary drum includes columnar part and taper portion, and described taper portion internal diameter is near described columnar part one End is gradually reduced to away from described columnar part one end, and charging aperture and liquid outlet are positioned at described columnar part away from described One end, taper portion, discharging opening is positioned at described taper portion away from described columnar part one end.

Preferably, spiral pusher cylinder includes cylindrical portion and conical section, and described conical section internal diameter is near described post Shape section one end is gradually reduced to away from described cylindrical portion one end, and described cylindrical portion periphery is provided with the first helical-blade Sheet, described cylindrical portion is positioned at rotary drum columnar part and the first helical blade and joins with rotary drum columnar part inwall gap Closing, described conical section periphery is provided with the second helical blade, and described conical section is positioned at rotary drum taper portion and second Helical blade and rotary drum taper portion inwall matched in clearance.

In the present invention, the environment-friendly and energy-efficient sludge of drinking water high efficiency separation system proposed, rotary drum level sets Putting, spiral pusher cylinder is positioned at rotary drum inside and is coaxially disposed with rotary drum, and spiral pusher cylinder separates internal for rotary drum For the split cavity between charging chamber and spiral pusher cylinder and the rotary drum within spiral pusher cylinder, main electricity Machine drives drum rotating, the driving module of the auxiliary motor rotating speed by differential mechanism adjustable screw pusher cylinder, simultaneously The electric power that the electricity generation module of auxiliary motor produces is that mair motor is powered；During work, slurry to be separated enters feed cavity Room, then enters disengagement chamber from cloth hole, and along with the rotation of rotary drum, slurry is separated in disengagement chamber and is positioned at The solid phase of outer ring and the liquid phase being positioned at middle part, use bi-motor structure so that the electricity generation module of auxiliary motor is turning All the time it is in generating state under the differential action of drum, thus realizes electric energy Appropriate application, economic and environment-friendly.

Accompanying drawing explanation

Fig. 1 is the connection signal of a kind of environment-friendly and energy-efficient sludge of drinking water high efficiency separation system that the present invention proposes Figure.

Fig. 2 is the structural representation of a kind of environment-friendly and energy-efficient sludge of drinking water high efficiency separation system that the present invention proposes Figure.

Detailed description of the invention

As illustrated in fig. 1 and 2, Fig. 1 is that a kind of environment-friendly and energy-efficient sludge of drinking water that the present invention proposes efficiently divides From the structural representation of system, Fig. 2 is that a kind of environment-friendly and energy-efficient sludge of drinking water that the present invention proposes efficiently divides Structural representation from system.

With reference to Fig. 1 and 2, a kind of environment-friendly and energy-efficient sludge of drinking water high efficiency separation system that the present invention proposes, bag Include: rotary drum 1, spiral pusher cylinder 2, mair motor, auxiliary motor 3, differential mechanism 4；

Rotary drum 1 is horizontally disposed with, and rotary drum 1 one end is provided with charging aperture and liquid outlet and the other end is provided with discharging opening, Rotary drum 1 is internal is provided with the accommodating chamber extended from charging aperture one end to discharging opening one end, and rotary drum 1 includes column Portion and taper portion, described taper portion internal diameter near described columnar part one end to away from described columnar part one end by The least, charging aperture and liquid outlet are positioned at described columnar part away from one end, described taper portion, and discharging opening is positioned at institute State taper portion away from described columnar part one end；

Spiral pusher cylinder 2 includes cylindrical portion and conical section, and described conical section internal diameter is near described cylindrical portion one End is gradually reduced to away from described cylindrical portion one end, and described cylindrical portion periphery is provided with the first helical blade 21, institute State conical section periphery and be provided with the second helical blade 22, be provided with in spiral pusher cylinder 2 and extend to middle part from one end Charging chamber, described charging chamber includes pre-separation room, junction chamber, distributor chamber, and junction chamber is positioned at pre-separation Room is away from described opening side, and distributor chamber is positioned at junction chamber and sets away from side, pre-separation room, the sidewall of distributor chamber Cloth hole, footpath, described pre-separation indoor is had to be gradually increased to blind end from the opening of spiral pusher cylinder 2, institute State the internal diameter maximum inner diameter more than described pre-separation room of distributor chamber；

Spiral pusher cylinder 2 is positioned at described accommodating chamber and arranges to discharging opening direction along charging aperture, and spiral pushes away Barrel 2 is coaxially disposed with rotary drum 1, the opening of spiral pusher cylinder 2 towards described charging aperture and with described enter Material mouth, by pipeline connection, forms split cavity between spiral pusher cylinder 2 outer wall and rotary drum 1 inwall, described Split cavity is by described cloth hole and described charging chamber, helical blade and described accommodating chamber inwall Matched in clearance and form helical duct in described split cavity, described helical duct and described liquid outlet are even Logical；In specifically arranging, described cylindrical portion is positioned at rotary drum 1 columnar part and the first helical blade 21 and rotary drum 1 columnar part inwall matched in clearance, described conical section be positioned at rotary drum 1 taper portion and the second helical blade 22 with Rotary drum 1 taper portion inwall matched in clearance；

The clutch end of mair motor is connected to drive rotary drum 1 to revolve around its rotating shaft with the rotating shaft of rotary drum 1 Turning, auxiliary motor 3 includes driving module and electricity generation module, drives the clutch end of module by differential mechanism 4 Rotating shaft with spiral pusher cylinder 2 is connected to adjustable screw pusher cylinder 2 rotating speed, the electric power output of electricity generation module End is connected with the power input end of mair motor.

During the specific works of the environment-friendly and energy-efficient sludge of drinking water high efficiency separation system of the present embodiment, spiral Pusher cylinder 2 and rotary drum 1 turn to identical and rotary drum 1 rotating speed to be more than the rotating speed of spiral pusher cylinder 2, during work, Slurry to be separated enters feed cavity, and along with the rotation of spiral pusher cylinder, slurry realizes pre-point in feed cavity From, pre-separated slurry enters disengagement chamber from cloth hole, owing to the rotating speed of rotary drum is more than spiral pusher cylinder Rotating speed, along with the rotation of rotary drum, slurry receives centrifugal force increase at disengagement chamber thus is further separated into being positioned at The solid phase of outer ring and the liquid phase being positioned at middle part, the solid phase after separation is attached on drum inner wall, at spiral pusher Under the effect of cylinder, solid phase sludge promotes to rotary drum discharging opening side, and the clear liquid after separating is along around spiral The helical duct of pusher drum outer wall is back to rotary drum liquid outlet；In the course of the work, mair motor drives rotary drum high Speed rotates, and the spiral pusher cylinder being positioned at rotary drum also rotates with, and the driving module of auxiliary motor passes through differential mechanism The rotating speed of adjustable screw pusher cylinder, on the one hand, make the rotating speed rotating speed less than rotary drum of spiral pusher cylinder, separately On the one hand, the electricity generation module of auxiliary motor can be in generating state under rotary drum differential action all the time, is produced Electric energy be mair motor auxiliary power supply, thus be greatly improved utilization rate of electrical.

In the present embodiment, the environment-friendly and energy-efficient sludge of drinking water high efficiency separation system proposed, rotary drum level Arranging, spiral pusher cylinder is positioned at rotary drum inside and is coaxially disposed with rotary drum, and spiral pusher cylinder is by part in rotary drum It is divided into the split cavity between charging chamber and spiral pusher cylinder and the rotary drum within spiral pusher cylinder, main Motor drives drum rotating, the driving module of the auxiliary motor rotating speed by differential mechanism adjustable screw pusher cylinder, with Time auxiliary motor electricity generation module produce electric power be that mair motor is powered；Use bi-motor structure so that auxiliary motor Electricity generation module under the differential action of rotary drum, be in generating state all the time, thus realize electric energy Appropriate application, Economic and environment-friendly.

In a specific embodiment, by the optimization of feed cavity is designed, footpath, pre-separation indoor ascending by Cumulative greatly, and the internal diameter of distributor chamber is more than the maximum inner diameter of pre-separation room so that centrifugal force suffered by slurry by It is cumulative that slurry makes the solid phase that proportion is bigger have the trend to outer ring motion under the influence of centrifugal force greatly, And the less liquid phase of proportion moves in the middle part of pre-separating cavity, is greatly improved the pre-separation effect of slurry.

In another detailed description of the invention, the solid phase after separation is pushed to rotary drum under the effect of spiral pusher cylinder Taper portion, owing to the internal diameter in taper portion is gradually reduced, solid phase sludge is pressed further by, and reduces further The moisture content of mud, improves separating effect.

The above, the only present invention preferably detailed description of the invention, but protection scope of the present invention not office Being limited to this, any those familiar with the art is in the technical scope that the invention discloses, according to this The technical scheme of invention and inventive concept thereof in addition equivalent or change, all should contain the protection in the present invention Within the scope of.

Claims (8)

1. an environment-friendly and energy-efficient sludge of drinking water high efficiency separation system, it is characterised in that including: rotary drum (1), spiral pusher cylinder (2), mair motor, auxiliary motor (3), differential mechanism (4)；

Rotary drum (1) is horizontally disposed with, and rotary drum (1) one end is provided with charging aperture and liquid outlet and the other end is provided with out Material mouth, rotary drum (1) is internal is provided with the accommodating chamber extended from charging aperture one end to discharging opening one end；

Spiral pusher cylinder (2) periphery is provided with helical blade, be provided with in spiral pusher cylinder (2) from one end to The charging chamber that portion extends, described charging chamber sidewall is provided with cloth hole；

Spiral pusher cylinder (2) is positioned at described accommodating chamber and arranges to discharging opening direction along charging aperture, spiral The opening of pusher cylinder (2) passes through pipeline connection, spiral pusher towards described charging aperture and with described charging aperture Forming split cavity between cylinder (2) outer wall and rotary drum (1) inwall, described split cavity passes through described cloth Hole and described charging chamber, helical blade and described accommodating chamber inwall matched in clearance and separate described Forming helical duct in chamber, described helical duct connects with described liquid outlet；

The clutch end of mair motor is connected to drive rotary drum (1) around its turn with the rotating shaft of rotary drum (1) Axle rotates, and auxiliary motor (3) includes driving module and electricity generation module, drives the clutch end of module by poor Speed device (4) is connected to adjustable screw pusher cylinder (2) rotating speed with the rotating shaft of spiral pusher cylinder (2), generating The power output end of module is connected with the power input end of mair motor.

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 1, its feature Being, described charging chamber includes pre-separation room and distributor chamber, the cloth being sequentially connected with from opening to blind end Material hole is positioned on the sidewall of distributor chamber.

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 2, its feature Being, the internal diameter of pre-separation room is gradually increased near junction chamber one end from away from junction chamber.

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 3, its feature Being, the internal diameter of described distributor chamber is more than the maximum inner diameter of described pre-separation room.

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 1, its feature Being, spiral pusher cylinder (2) is coaxially disposed with rotary drum (1).

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 5, its feature Being, spiral pusher cylinder (2) and rotary drum (1) turn to identical and rotary drum (1) rotating speed to be more than spiral pusher The rotating speed of cylinder (2).

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 1, its feature Being, rotary drum (1) includes columnar part and taper portion, and described taper portion internal diameter is near described columnar part one end Being gradually reduced to away from described columnar part one end, charging aperture and liquid outlet are positioned at described columnar part away from described cone One end, shape portion, discharging opening is positioned at described taper portion away from described columnar part one end.

Environment-friendly and energy-efficient sludge of drinking water high efficiency separation system the most according to claim 7, its feature Being, spiral pusher cylinder (2) includes cylindrical portion and conical section, and described conical section internal diameter is near described cylindricality Duan Yiduan is gradually reduced to away from described cylindrical portion one end, and described cylindrical portion periphery is provided with the first helical blade (21), described cylindrical portion is positioned at rotary drum (1) columnar part and the first helical blade (21) and rotary drum (1) Columnar part inwall matched in clearance, described conical section periphery is provided with the second helical blade (22), described conical section It is positioned at rotary drum (1) taper portion and the second helical blade (22) to join with inwall gap, rotary drum (1) taper portion Close.