CN206570193U - A kind of high efficiency sludge dewatering treatment system - Google Patents

Abstract

The utility model is related to a kind of high efficiency sludge dewatering treatment system, including pushing away mud system, sludge dewatering system and mud cake crushing system, by it is described push away mud system sludge be delivered to sludge dewatering system realize mud-water separation, mud cake is delivered into mud cake crushing system by sludge dewatering system realizes that mud cake is crushed；The utility model is simple in construction, easy to use, the setting of tapering point can not only make the push of sludge raw material more smoothly, it can also reduce discharging opening diameter, by setting active catch mud curtain in the contact point of discharging opening and the second charging cylinder body, rubber assembly is set at the two ends of second piston simultaneously, avoid and discharging opening is directly contacted with second piston and the problem of second piston two ends are worn and torn is speeded up, sludge dewatering system can realize 24 hours dewatering operations to sludge in the utility model, and it has the advantages that floor space is small, easy to maintain and operates.

Description

A kind of high efficiency sludge dewatering treatment system

Technical field

The utility model is related to device for dehydrating sladge waste field, more particularly to a kind of high efficiency sludge dewatering treatment system.

Background technology

At present, existing sludge dewatering equipment is that in the state of closed, sludge squeezing through more than half frames is squeezed into by high-pressure pump Pressure, makes the water in sludge be discharged by filter cloth, so as to reach the efficiency of dehydration.But existing equipment is in the process of separation of solid and liquid In, the susceptible to plugging phenomenon of appearance is all there is, can only be rinsed, thus be made by being passed through a large amount of water in order to prevent from blocking it Into the waste at water source, and a large amount of water rinse the burden for adding that who is changed in sewage disposal, equal to the work(for having made to be dehydrated successively again, And bath must shut down operation, the production running of enterprise or society so have impact on.Other existing sludge raw material is being taken off Be before water by mixer add water mixing after be diluted, pug is then squeezed into by device for dehydrating sladge waste by external membrane pump In, but the power output of existing membrane pump is up to 8kg, sludge dewatering limited by membrane pump power output so that dehydrating effect compared with Difference, and be diluted with water in this step equal to a step has been made, it is not only wasted time and energy, and can not also meet production requirement. more.Together When by artificial carry out pulverization process for the mud cake after sludge dewatering, this processing mode not only increase the employment of enterprise into This, wastes time and energy, also reduces operating efficiency.

Utility model content

The applicant is directed to above-mentioned existing issue, and having carried out Improvement, there is provided a kind of high efficiency sludge dewatering treatment system System, which raises sludge conveying capacity, makes the dewatering efficiency of sludge further improve, while mud cake can also effectively be crushed, with de- Water efficiency high, the advantage being not easily blocked.

The technical scheme that the utility model is used is as follows：

A kind of high efficiency sludge dewatering treatment system, including mud system, sludge dewatering system and mud cake crushing system are pushed away, by It is described push away mud system sludge be delivered to sludge dewatering system realize mud-water separation, mud cake is delivered to mud by sludge dewatering system Cake crushing system realizes that mud cake is crushed；

The concrete structure for pushing away mud system is as follows：

Including the first charging cylinder body, the first oil cylinder is set at the import of the described first charging cylinder body, in the described first oil The output end of cylinder is provided for stretching into the first piston for pushing sludge raw material；The first charging cylinder body is not provided with the first oil cylinder One end extends to form tapering point, and the tapering point is connected with the periphery of the second charging cylinder body, is fed in the tapering point and second The junction of cylinder body is opened up for connecting the first discharging opening for feeding cylinder body and the second charging cylinder body, in the discharging opening and second The two ends of charging cylinder body connection are also respectively and fixedly connected with active catch mud curtain, and the second oil is set at the import of the described second charging cylinder body Cylinder, the output end of second oil cylinder is provided for stretching into and pushes the second piston of sludge raw material, in the second piston Two ends stretch out to form the rubber assembly with closed angle end respectively；

The concrete structure of the sludge dewatering system is as follows：

Including frame, the first motor is set in the side of frame, the output end of first motor is connected by transmission mechanism Differential mechanism is connect, one end of pusher shaft is connected with differential mechanism and stretched into by first bearing seat in case, between on the pusher shaft Every arrange it is multiple be used to realize to the pusher blades of sludge extrusion dehydration, passive rotating shaft through each pusher blade and with pusher shaft The pusher blade connection of stem and afterbody, also sets up the first helical blade for crushing mud cake, institute in the passive rotating shaft The quantity for stating the first helical blade is incremented by by the pusher blade of the pusher blade positioned at pusher shaft stem rearwardly；The pusher shaft The other end stretch out and case and be connected with second bearing seat；Rotary drum is also set up in the case, in the periphery of the pusher shaft, The rotary drum is rotated by the second motor and transmission mechanism control；

The concrete structure of the mud cake crushing system is as follows：

Including hopper, in the affixed installing plate of side outer wall of the hopper, drive mechanism is arranged on the installing plate, is driven Motivation structure output end connection rotary shaft, the rotary shaft through the hopper and with the 3rd axle positioned at hopper opposite side outer wall Bearing is connected, in the inside of the hopper, the second helical blade for being provided in the periphery of the rotary shaft crushing mud cake, in Rotary shaft close to each adjacent second helical blade of 3rd bearing seat one end spacing to the rotary shaft other end in gradually successively decreasing； The lower section of the rotary shaft, the also affixed polylith shake flitch in the hopper, open up multiple for mud cake in each shake on flitch The material path that passes through of grain, each other each material path on adjacent shake flitch misplace each other arrangement, in each two ends for shaking flitch, described The outer wall of hopper also sets up the dither for reducing mud cake volume；The side of the hopper and the air-out of heat blower Mouth connection, the air inlet of the heat blower connects the outlet of circulating fan by pipeline, and the import of the circulating fan is led to Piping connects active carbon deodorization device and cyclone dust collectors respectively, the hopper opposite side by another pipeline also with The inside connection of cyclone dust collectors, the cyclone dust collectors are connected with the discharge end of hopper with auger conveyor.

Its further technical scheme is：

The level sensor for monitoring sludge raw material material position is also set up in the outer surface of cylinder block of first oil cylinder；

In also opening up the outlet valve for opening and closing discharging opening on the tapering point；The tapering point is in arbitrary diameter two-end-point Bus between angle angle be 10~15 °, the diameter D of the discharging opening is no more than 10cm；The active catch mud curtain is used Elastomeric material is made；

The second bearing seat is located at the opposite side of frame；The sub-material for flowing into sludge is also set up on the pusher shaft Mouthful, one end that the pusher shaft stretches out second bearing seat sets charging aperture, the charging aperture and sub-material mouthful and the second charging cylinder body Mud mouth connection；

Be further opened with overfall at the stem pusher blade of the pusher shaft, in one end of rotary drum, the case with Inner chamber body is also formed between rotary drum, the overfall is connected with inner chamber body；

The liquid-phase outlet of sludge water abjection is also respectively arranged in the frame and is gone out for the solid phase for discharging sludge Mouthful, the other end of the rotary drum is tapered, and slag-drip opening is also opened up in the other end of the rotary drum；

One end of the hopper is back taper mechanism, and covering one layer along along the inner conical surface of the hopper makes mud cake not stick together In the waterproof layer of inwall, one end intake port of the hopper with back taper mechanism tapers off to the other end of hopper；

The material path is the through hole through shake flitch, and one end of the material path is the taper hole with circular conical surface；Institute It is the through hole through shake flitch to state material path, and one end of the material path is the taper hole with circular conical surface.

The beneficial effects of the utility model are as follows：

The utility model is simple in construction, easy to use, and the setting of tapering point can not only make the push of sludge raw material more suitable Freely, it can also reduce discharging opening diameter, by setting active catch mud curtain in the contact point of discharging opening and the second charging cylinder body, simultaneously Rubber assembly is set at the two ends of second piston, it is to avoid discharging opening is directly contacted with second piston and speed up second piston The problem of two ends are worn and torn, extends the service life of second piston, and arrangement of the present utility model can put forward the conveying capacity of sludge More than 30kg is risen to, the course of conveying of sludge raw material is time saving and energy saving, substantially increases dewatering efficiency, it is to avoid need to add water in the past dilute The tedious steps released.

Sludge dewatering system can realize 24 hours dewatering operations to sludge in the utility model, its have floor space it is small, Easy to maintain and operation advantage, sets case effectively to lift the sealing property of complete machine, the setting of differential mechanism can be met not With the processing of solid content liquid, complete machine safe running performance is substantially increased, the setting of helical blade and passive rotating shaft can be by Mud cake carries out fast-crushing, and its power source is provided by pusher shaft and pusher blade, and the afterbody of rotary drum is designed to that cone type can increase The extruding force of pusher blade, greatly reduces mud extraction liquid holdup, improves solid-liquid separation efficiency.

The utility model can further be evaporated the moisture in mud cake using heat blower, the volume of mud cake is realized one Secondary diminution processing, the arrangement of bucket front back taper mechanism is easy to mud cake blanking more quick and convenient, between adjoining spiral blade The design of spacing can guarantee that the fast-crushing of different size mud cake particle, the material path and jolting plate, dither of the arrangement that misplaces The arrangement of device can make mud cake particle carry out volume-diminished processing again after secondary agitation pulverization process, quickly reduce mud cake The volume of particle, makes it meet subsequent treatment process, and the intensity of artificial treatment mud cake, time saving province are reduced using the utility model Power, substantially increases operating efficiency.

Brief description of the drawings

Fig. 1 is the structural representation of sludge dewatering system in the utility model.

Fig. 2 is to push away the structural representation of mud system in the utility model.

Fig. 3 is to push away the action schematic diagram of mud system in the utility model.

Fig. 4 is to push away the structural representation of discharging opening in mud system in the utility model.

Fig. 5 is mplifying structure schematic diagrams of the Fig. 3 at A.

Fig. 6 is the structural representation of mud cake crushing system in the utility model.

Wherein：1st, sludge dewatering system；101st, the first motor；102nd, differential mechanism；103rd, first bearing seat；104th, overflow Mouthful；105th, pusher shaft；106th, pusher blade；107th, passive rotating shaft；108th, the first helical blade；109th, sub-material mouthful；110th, deslagging Mouthful；111st, second bearing seat；112nd, charging aperture；113rd, the second motor；114th, solid-phase outlet；115th, case；116th, rotary drum；117、 Liquid-phase outlet；118th, frame；

201st, the first oil cylinder；202nd, first piston；203rd, sludge raw material；204th, belt conveyor；205th, the first charging cylinder Body；2501st, level sensor；2502nd, discharging opening；2503rd, tapering point；2504th, active catch mud curtain；206th, the second charging cylinder body； 207th, second piston；2701st, rubber assembly；208th, the second oil cylinder；209th, outlet valve；2091st, discharge valve；

3rd, hopper；301st, waterproof layer；4th, drive mechanism；401st, installing plate；402nd, sealing ring；403rd, the second helical blade； 404th, rotary shaft；405th, 3rd bearing seat；5th, dither；6th, flitch is shaken；601st, material path；7th, heat blower；8th, follow Ring blower fan；9th, active carbon deodorization device；10th, cyclone dust collectors；11st, auger conveyor.

Embodiment

Illustrate embodiment of the present utility model below.

A kind of high efficiency sludge dewatering treatment system includes pushing away mud system, sludge dewatering system 1 and mud cake crushing system, by Push away mud system sludge is delivered to sludge dewatering system 1 and realize mud-water separation, mud cake is delivered to mud cake by sludge dewatering system 1 Crushing system realizes that mud cake is crushed；

As shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the concrete structure for pushing away mud system is as follows：

Including the first charging cylinder body 205, first oil cylinder 201 is set at the import of the first charging cylinder body 205, in the first oil The output end of cylinder 201 is provided for stretching into the first piston 202 for pushing sludge raw material 203；First charging cylinder body 205 is not provided with the One end of one oil cylinder 201 extends to form tapering point 2503, and tapering point 2503 is connected with the periphery of the second charging cylinder body 206, in cone Shape end 2503 is opened up for connecting the first charging charging cylinder body 206 of cylinder body 205 and second with the junction of the second charging cylinder body 206 Discharging opening 2502, be also respectively and fixedly connected with active catch mud curtain 2504 with the second two ends for being connected of charging cylinder body 206 in discharging opening 2502, Second oil cylinder 208 is set at the import of the second charging cylinder body 206, the output end of the second oil cylinder 208 is provided for stretching into and pushed away The second piston 207 of sludge raw material 203 is sent, stretches out to form the rubber with closed angle end respectively at the two ends of second piston 207 Glue component 2701；The material position also set up in the outer surface of cylinder block of above-mentioned first oil cylinder 201 for monitoring the material position of sludge raw material 203 is passed Sensor 2501.In also opening up the outlet valve 209 for opening and closing discharging opening 2502 on above-mentioned tapering point 2503；Tapering point 2503 is in office Angle angle between the bus of meaning diameter two-end-point is 10~15 °, and the diameter D of discharging opening 2502 is no more than 10cm；Active catch Mud curtain 2504 is made of elastomeric material.

As shown in figure 1, the concrete structure of sludge dewatering system 1 is as follows：

Including frame 118, the first motor 101 is set in the side of frame 118, and the output end of the first motor 101 is by passing Motivation structure connected with differential 102, one end of pusher shaft 105 is connected with differential mechanism 102 and stretches into case by first bearing seat 103 In 115, in the multiple pusher blades 106 for being used for realization to sludge extrusion dehydration of arranged for interval on pusher shaft 105, passive rotating shaft 107 run through each pusher blade 106 and are connected with the pusher blade 106 of stem and afterbody on pusher shaft 105, in passive rotating shaft 107 On also set up the first helical blade 108 for crushing mud cake, the quantity of the first helical blade 108 is by first positioned at pusher shaft 105 The pusher blade 106 of the pusher blade 106 in portion rearwardly is incremented by；The other end of pusher shaft 105 stretch out case 115 and with the second axle Bearing 111 is connected；Also set up rotary drum 116 in the case 115, in the periphery of pusher shaft 105, rotary drum 116 by the second motor 113 and Transmission mechanism control is rotated；Above-mentioned second bearing seat 111 is located at the opposite side of frame 118；Being also set up on pusher shaft 105 is used for Flow into the sub-material mouthfuls 109 of sludge, one end that pusher shaft 105 stretches out second bearing seat 111 sets charging aperture 112, charging aperture 112 with The mud mouth connection of the charging cylinder body 206 of sub-material mouthful 109 and second.At the stem pusher blade 106 of above-mentioned pusher shaft 105, in One end of rotary drum 116 is further opened with overfall 104, also forms inner chamber body between case 115 and rotary drum 116, overfall 104 with Inner chamber body is connected.The liquid-phase outlet 117 of sludge water abjection is also respectively arranged in above-mentioned frame 118 and for discharging sludge Solid-phase outlet 114, the other end of rotary drum 116 is tapered, and slag-drip opening 110 is also opened up in the other end of rotary drum 116.

The concrete structure of mud cake crushing system is as follows：

Including hopper 3, in the affixed installing plate 401 of the side outer wall of hopper 3, drive mechanism 4 is arranged on installing plate 401, The output end connection rotary shaft 404 of drive mechanism 4, rotary shaft 404 through hopper 3 and with positioned at the of the opposite side outer wall of hopper 3 Three bearing blocks 405 are connected, in the inside of hopper 3, the second helical blade for being provided in the periphery of rotary shaft 404 crushing mud cake 403, in rotary shaft 404 close to each adjacent second helical blade 403 of 405 one end of 3rd bearing seat spacing to rotary shaft 404 The other end is in gradually to successively decrease；In the lower section of rotary shaft 404, the also affixed polylith shake flitch 6 in hopper 3, opened on each shake flitch 6 If multiple material paths 601 passed through for mud cake particle, each material path 601 on adjacent shake flitch 6 misplaces arrangement each other each other, Dither 5 for reducing mud cake volume is also set up in the two ends of each shake flitch 6, in the outer wall of hopper 3；The one of hopper 3 Side is connected with the air outlet of heat blower 7, and the air inlet of heat blower 7 connects the outlet of circulating fan 8 by pipeline, follows The import of ring blower fan 8 connects active carbon deodorization device 9 and cyclone dust collectors 10 by pipeline respectively, leads in the opposite side of hopper 3 Cross inside of another pipeline also with cyclone dust collectors 10 to connect, the discharge end of cyclone dust collectors 10 and hopper 3 is and spiral transferring Device 11 is sent to connect.One end of above-mentioned hopper 3 is back taper mechanism, and covering one layer along along the inner conical surface of hopper 3 makes mud cake not stick The waterproof layer 301 in inwall, the other end of one end intake port to hopper 3 of the hopper 3 with back taper mechanism tapers off. Above-mentioned material path 601 is the through hole through shake flitch 6, and one end of material path 601 is the taper hole with circular conical surface；Material path 601 be the through hole through shake flitch 6, and one end of material path 601 is the taper hole with circular conical surface.Passed through in above-mentioned rotary shaft 404 The periphery for wearing hopper 3 also sets up the sealing ring 402 for preventing that sludge from flowing out.

Specific work process of the present utility model is as follows：

As shown in Figure 2, Figure 3, Figure 4, sludge raw material 203 is conveyed into the first charging cylinder body 205 by belt conveyor 204 Portion, after the sludge raw material 203 that level sensor 2501 is monitored in the first charging cylinder body 205 reaches specified location, by outside PLC controls the first oil cylinder 201 to start, and first piston 202 is moved downward sludge raw material 203 enters second by discharging opening 2502 Feed in cylinder body 206, the discharge valve 2091 of outlet valve 209 is always on and keeps sludge raw material 203 in the course of conveying Conveying, when sludge raw material 203 enter second feed cylinder body 206 in after, above-mentioned first piston 202 retracts, while outlet valve 209 Discharge valve 2091 close, while above-mentioned belt conveyor 204 continues to convey sludge raw material 203 and enters first and feed cylinder body In 205, then second piston 207 by second charging cylinder body 206 push sludge raw material 203 forward, as shown in figure 4, due to The two ends that discharging opening 2502 is connected with the second charging cylinder body 206 also set up active catch mud curtain 2504, and the active catch mud curtain 2504 is adopted It is made, therefore is produced by the rubber assembly 2701 of second piston 207 when being contacted to active catch mud curtain 2504 of elastomeric material Thrust, makes active catch mud curtain 2504 turn over upwards and pass through second piston 207, active catch mud curtain 2504 and rubber assembly 2701 contacts ensure that the two ends of second piston 207 and the contact point of discharging opening 2502 do not produce abrasion, improve the use of equipment Life-span.It is dehydrated, is circulated with this as shown in Fig. 2 making sludge raw material 203 enter in sludge dewatering system 1.

As shown in figure 1, power is transferred into differential mechanism 102 by transmission mechanism by the first motor 101 and pusher shaft is driven 105th, pusher blade 106, the helical blade 108 of passive rotating shaft 107 and first are rotated, and the second motor 113 is driven by transmission mechanism Rotary drum 116 rotates, and starts to after full speed and to produce powerful centrifugal force field, the upper dirt by pushing away the push of mud system by rotation Mud raw material 203 is entered by charging aperture 112 and flowed out to from sub-material mouthful 109 in rotary drum 116, in the presence of centrifugal force field, than More great solid-phase material is heavy to be attached at the inwall of rotary drum 116, by differential mechanism 102 make pusher shaft 105, pusher blade 106 with Rotary drum 116 produces a constant differential speed, and the solid phase sediment being then dehydrated is discharged from slag-drip opening 110, and the liquid phase of light specific gravity is then Flowed out from overfall 104, the purpose of dehydration is reached by continuously working.Sludge can form mud in continuous conveying process Cake, makes it crush immediately, so as to ensure rotary drum 116 when forming mud cake by the first helical blade 108 and the effect of passive rotating shaft 107 Inside it is not easily blocked.

As shown in fig. 6, solid phase sediment such as mud cake is fallen into hopper 3 after the discharge of solid-phase outlet 114, cyclone dust collectors 10 Dedusting gas is sent into circulating fan 8 by pipeline, by 9 pairs of gas of active carbon deodorization device while circulating fan 8 are sent into Body carries out deodorization, and wind feeding heat blower 7 is heated, then sends into hopper 3 high-temperature gas, pass through height by circulating fan 8 Wet body handles the first time diminution that the moisture evaporation in mud cake realizes mud cake volume, and then mud cake passes through the second helical-blade The operation of piece 403 realizes that second of volume-diminished handles and form little particle, and little particle mud cake is fallen on shake flitch 6, dither The work of device 5 makes little particle mud cake be beated on shake flitch 6 and forms molecule mud cake, and molecule mud cake is arranged by misplacing Material path 601 hole wall collide and fall into auger conveyor 11 stirring be ground into ultra-fine little particle and be discharged.Steamed simultaneously The moisture content of hair enters cyclone dust collector along pipeline and finally evaporated.

Above description is explained of the present utility model, is not the restriction to utility model, what the utility model was limited Scope is referring to claim, and in the case of without prejudice to basic structure of the present utility model, the utility model can make any shape The modification of formula.

Claims (8)

1. a kind of high efficiency sludge dewatering treatment system, it is characterised in that：Including pushing away mud system, sludge dewatering system and mud cake powder Broken system, by it is described push away mud system sludge be delivered to sludge dewatering system realize mud-water separation, by sludge dewatering system by mud Cake is delivered to mud cake crushing system and realizes that mud cake is crushed；

The concrete structure for pushing away mud system is as follows：

Including the first charging cylinder body (205), the first oil cylinder (201) is set at the import of the described first charging cylinder body (205), The output end of first oil cylinder (201) is provided for stretching into the first piston (202) for pushing sludge raw material；First charging One end that cylinder body (205) is not provided with the first oil cylinder (201) extends to form tapering point (2503), the tapering point (2503) and second The periphery connection of cylinder body (206) is fed, being opened up in the junction of the tapering point (2503) and the second charging cylinder body (206) is used for Connection first feeds the discharging opening (2502) of cylinder body (205) and the second charging cylinder body (206), in the discharging opening (2502) and the The two ends of two charging cylinder body (206) connections are also respectively and fixedly connected with active catch mud curtain (2504), in the described second charging cylinder body (206) Second oil cylinder (208) is set at import, and the output end of second oil cylinder (208) is provided for stretching into and pushes sludge raw material Second piston (207), stretches out to form the rubber assembly with closed angle end respectively at the two ends of the second piston (207) (2701)；

The concrete structure of the sludge dewatering system is as follows：

Including frame (118), the first motor (101), the output of first motor (101) are set in the side of frame (118) End is by transmission mechanism connected with differential (102), and one end of pusher shaft (105) is connected and by first axle with differential mechanism (102) Bearing (103) is stretched into case (115), multiple de- to sludge extruding for realizing in arranged for interval on the pusher shaft (105) The pusher blade (106) of water, passive rotating shaft (107) through each pusher blade (106) and with stem and afterbody on pusher shaft (105) Pusher blade (106) connection, the first helical blade for crushing mud cake is also set up in the passive rotating shaft (107) (108), the quantity of first helical blade (108) by the pusher blade (106) positioned at pusher shaft (105) stem rearwardly Pusher blade (106) is incremented by；The other end of the pusher shaft (105) stretches out case (115) and connected with second bearing seat (111) Connect；Rotary drum (116) is also set up in the case (115), in the periphery of the pusher shaft (105), and the rotary drum (116) is by the Two motors (113) and transmission mechanism control are rotated；

The concrete structure of the mud cake crushing system is as follows：

Including hopper (3), in the affixed installing plate of side outer wall (401) of the hopper (3), drive mechanism (4) is arranged at described On installing plate (401), the output end connection rotary shaft (404) of drive mechanism (4), the rotary shaft (404) runs through the hopper (3) and with the 3rd bearing seat (405) positioned at hopper (3) opposite side outer wall it is connected, inside in the hopper (3), described The periphery of rotary shaft (404) is provided for crushing the second helical blade (403) of mud cake, in rotary shaft (404) close to the 3rd axle The spacing of each adjacent second helical blade (403) of bearing (405) one end is in gradually to successively decrease to rotary shaft (404) other end； The lower section of the rotary shaft (404), the also affixed polylith shake flitch (6) in the hopper (3), open up on each shake flitch (6) Multiple material paths (601) passed through for mud cake particle, each material path (601) shaken on flitch (6) adjacent each other misplaces each other Arrangement, dither for reducing mud cake volume is also set up in the two ends of each shake flitch (6), in the outer wall of the hopper (3) Device (5)；The side of the hopper (3) is connected with the air outlet of heat blower (7), the air inlet of the heat blower (7) The outlet of circulating fan (8) is connected by pipeline, the import of the circulating fan (8) connects active carbon deodorizing respectively by pipeline Device (9) and cyclone dust collectors (10), the hopper (3) opposite side by another pipeline also with cyclone dust collectors (10) Inside connection, the cyclone dust collectors (10) connect with the discharge end of hopper (3) with auger conveyor (11).

2. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：In first oil cylinder (201) outer surface of cylinder block also sets up the level sensor (2501) for monitoring sludge raw material material position.

3. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：In the tapering point (2503) outlet valve (209) for opening and closing discharging opening (2502) is also opened up on；The tapering point (2503) is in arbitrary diameter two Angle angle between the bus of end points is 10~15 °, and the diameter D of the discharging opening (2502) is no more than 10cm；The activity Gear mud curtain (2504) is made of elastomeric material.

4. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：The second bearing seat (111) it is located at the opposite side of frame (118)；The sub-material mouthful for flowing into sludge is also set up on the pusher shaft (105) (109), the pusher shaft (105) stretches out one end setting charging aperture (112) of second bearing seat (111), the charging aperture (112) Connected with the mud mouth of sub-material mouthful (109) and the second charging cylinder body (206).

5. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：In the pusher shaft (105) stem pusher blade (106) place, in one end of rotary drum (116) overfall (104) is further opened with, in the case (115) inner chamber body is also formed between rotary drum (116), the overfall (104) connects with inner chamber body.

6. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：

The liquid-phase outlet (117) of sludge water abjection is also respectively arranged in the frame (118) and for discharging sludge Solid-phase outlet (114), the other end of the rotary drum (116) is tapered, and slag-drip opening is also opened up in the other end of the rotary drum (116) (110)。

7. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：The one of the hopper (3) Hold as back taper mechanism, covering one layer along along the inner conical surface of the hopper (3) makes mud cake can not be attached to the waterproof layer of inwall (301), the other end of one end intake port to hopper (3) of the hopper (3) with back taper mechanism tapers off.

8. a kind of high efficiency sludge dewatering treatment system as claimed in claim 1, it is characterised in that：The material path (601) For through the through hole of shake flitch (6), one end of the material path (601) is the taper hole with circular conical surface；The material path (601) it is that one end of the material path (601) is the taper hole with circular conical surface through the through hole for shaking flitch (6).