1. An electroosmosis dehydration type sludge treatment tank comprises a sludge storage tank (1) with a sludge inlet pipe, and is characterized in that: the top portion of mud storage tank (1) is equipped with baffle (2), the upper end of baffle (2) is equipped with the electroosmosis dehydration body, mud inlet (201) corresponding with the electroosmosis dehydration body position is seted up to the bottom of baffle (2), the top of baffle (2) still fixedly connected with drainage layer (6), drainage layer (6) are located the outside of electroosmosis dehydration body, the outside of drainage layer (6) is equipped with kuppe (14) of cover locating mud storage tank (1) top, it has a plurality of magnetic conduction of attaching stream silver (7) that are connected with kuppe (14) inner wall to distribute on the lateral wall of positive pole conductive metal net (4), the bottom portion of kuppe (14) is equipped with downwardly extending's drain pipe (11), the bottom portion cover of kuppe (14) is equipped with annular seat (8), inlay on annular seat (8) and establish and install annular guide rail, install magnetism suction disc (9) on the annular guide rail, the magnetic suction piece (9) is arranged with a plurality of magnetic conductive fluid attached cotton strips (7) in a magnetic suction way, and the bottom end part of the sludge storage tank (1) is provided with a feeding and propelling mechanism.

2. The electroosmotic dehydration-type sludge treatment tank according to claim 1, wherein: the electroosmosis dewatering body comprises a coagulation breaking net ring (3) connected onto the partition plate (2), an anode conductive metal net (4) and a cathode conductive metal net (5) are distributed on the inner side and the outer side of the coagulation breaking net ring (3), and the bottoms of the coagulation breaking net ring (3), the anode conductive metal net (4) and the cathode conductive metal net (5) are connected with each other through insulating rods.

3. The electroosmotic dehydration-type sludge treatment tank according to claim 2, wherein: the sludge inlet (201) corresponds to the bottom end of the coagulation breaking net ring (3), the top end of the coagulation breaking net ring (3) is provided with a sludge suction cover (10), and the sludge suction cover (10) is externally connected with a sludge pump.

4. The electroosmotic dehydration-type sludge treatment tank according to claim 3, wherein: the water filtering layer (6) is of a conical structure with a narrow upper part and a wide lower part, and the water filtering layer (6) is made of high-water-absorption and hydrophilic fiber materials.

5. The electroosmotic dehydration-type sludge treatment tank according to claim 4, wherein: a plurality of meshes are arranged on the coagulation breaking net ring (3), and coagulation breaking fiber stabbing balls are embedded in the meshes.

6. The electroosmotic dehydration-type sludge treatment tank according to claim 1, wherein: attach magnetic conductance stream silver (7) including connecting water absorption cellucotton (701) on water filtering layer (6), the one end that water absorption cellucotton (701) kept away from water filtering layer (6) is equipped with elasticity shake spring (702) that are connected with kuppe (14) inner wall, the inside of elasticity shake spring (702) is inlayed and is equipped with elasticity and attaches magnetic stripe (703), elasticity attaches magnetic stripe (703) and magnetism and inhale piece (9) magnetism and set up in opposite directions.

7. The electroosmotic dehydration-type sludge treatment tank according to claim 6, wherein: the water absorption cellucotton (701) is also made of high water absorption and hydrophilic fiber materials, a plurality of hydrophobic pipe strips (704) are embedded in the outer end wall of the water absorption cellucotton (701) in an annular mode, and the hydrophobic pipe strips (704) and the elastic vibration spring (702) are made of hydrophobic materials.

8. The electroosmotic dehydration-type sludge treatment tank according to claim 7, wherein: the magnetic conduction attached flow tampons (7) are arranged in a downward bending mode, and the length of the magnetic conduction attached flow tampons (7) distributed from top to bottom is gradually reduced.

9. The electroosmotic dehydration-type sludge treatment tank according to claim 1, wherein: the feeding and propelling mechanism comprises a bottom plate connected to the bottom end of the sludge storage tank (1), a jacking plate (12) is arranged on the bottom plate, and the telescopic end of the jacking plate (12) is connected with an electric push rod (13) which is connected with the inner wall of the sludge storage tank (1) in a sliding mode.

10. The electroosmotic dehydration-type sludge treatment tank according to claim 1, wherein: the top end of the air guide sleeve (14) is provided with a sealing head which is connected with the upper end surface of the coagulation breaking net ring (3), the inner wall of the air guide sleeve (14) is embedded with an electric heating wire, and the outer end wall of the air guide sleeve (14) is provided with a heat insulation layer.

Background

Can produce a large amount of sludge that the water content is high among the sewage treatment process, the water content is very big in the sludge, to the processing of sludge generally successively concentrate and dewater, through the concentrated processing back, the water content is still very high, needs further dehydration to reduce the moisture content.

At present, the belt type filter-pressing dewaterer adopted in China dewaters sludge by means of extrusion force and shearing force of a pure filter belt, and due to the fact that the extrusion force is limited, combined cell water in the sludge cannot be removed. Therefore, the belt filter-press dehydrator can only dehydrate domestic sludge to about 80% of water content at present, thereby bringing great difficulty to the subsequent treatment of the sludge.

Therefore, we propose an electroosmosis dehydration type sludge treatment tank to effectively solve some problems existing in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide an electroosmosis dehydration type sludge treatment tank, which utilizes the electroosmosis flow principle of electroosmosis dehydration body to realize the internal dehydration of sludge, the water dehydrated from the sludge moves to one side of a water filtering layer and is leached out through the water filtering layer, a plurality of magnetic conduction attached flow slivers are distributed on the outer end wall of the water filtering layer, on one hand, the magnetic conduction attached slivers are easy to adsorb and guide the water, on the other hand, the magnetic conduction attached slivers are matched with a rotary magnetic suction piece, and the intermittent magnetic attraction effect between the magnetic conduction attached flow slivers is utilized, the plurality of magnetic conduction attached flow slivers generate intermittent vibration at the inner side of a flow guide cover appropriately, during the vibration process of the magnetic conduction attached flow attached slivers are easy to scatter water molecules, the magnetic conduction attached flow attached slivers can absorb water continuously more conveniently, the dehydration efficiency is improved, in addition, under the matching of the sludge suction cover and a sludge feeding propulsion mechanism, not only discharges sludge with low water content, but also realizes sludge supply from bottom to top.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

An electroosmosis dehydration type sludge treatment tank comprises a sludge storage tank with a sludge inlet pipe, a clapboard is arranged at the top end part of the sludge storage tank, the upper end of the clapboard is provided with an electroosmosis dehydration body, the bottom end of the clapboard is provided with a sludge inlet corresponding to the position of the electroosmosis dehydration body, the top end of the clapboard is also fixedly connected with a water filtering layer which is positioned at the outer side of the electroosmosis dehydration body, the outer side of the water filtering layer is provided with a flow guide cover sleeved at the top end of the sludge storage tank, a plurality of magnetic conduction flow attached cotton strips connected with the inner wall of the flow guide cover are distributed on the outer side wall of the anode conductive metal net, the bottom end part of the air guide sleeve is provided with a drain pipe extending downwards, the bottom end part of the air guide sleeve is sleeved with an annular seat, the annular seat is embedded with an annular guide rail, the annular guide rail is provided with a magnetic suction piece, the magnetic suction piece and a plurality of magnetic conductive flow cotton strips are arranged in a magnetic suction mode, and the bottom end portion of the sludge storage tank is provided with a feeding propulsion mechanism.

Further, the electroosmosis dehydration body is including connecting the broken string ring that congeals on the baffle, the inside and outside side distribution of broken string ring that congeals is equipped with positive pole electrically conductive metal mesh and negative pole electrically conductive metal mesh, through insulator spindle interconnect between the bottom of broken string ring, positive pole electrically conductive metal mesh and negative pole electrically conductive metal mesh, when using, positive pole electrically conductive metal mesh and negative pole electrically conductive metal mesh link to each other with external power supply positive pole and negative pole respectively for carry out the electroosmosis dehydration to mud, under the electric field effect, the hydrone that breaks away from moves to negative pole electrically conductive metal mesh one side, just oozes from the drainage layer department that is close to with negative pole electrically conductive metal mesh.

Furthermore, the sludge inlet corresponds to the bottom end of the coagulation breaking net ring, the top end of the coagulation breaking net ring is provided with a sludge suction cover, the sludge suction cover is externally connected with a sludge pump, when sludge dewatering is carried out by utilizing an electroosmosis method, the moisture at the sludge position at the inner side of the coagulation breaking net ring is faster than the moisture at the sludge position at the outer side of the coagulation breaking net ring, the sludge at the inner side of the coagulation breaking net ring is also dry a little, at the moment, the sludge suction pump can be used for sucking the proper amount of the dry sludge at the inner side of the coagulation breaking net ring outwards, and the sucked and discharged dry sludge can be subjected to subsequent drying.

Furthermore, the water filtering layer is of a conical structure with a narrow top and a wide bottom, the water filtering layer is made of high-water-absorption and hydrophilic fiber materials, water molecules moving to one side of the cathode conductive metal net penetrate through the water filtering layer to seep outwards, and the conical structure with the narrow top and the wide bottom is easy for water diversion.

Furthermore, a plurality of meshes are formed in the coagulation breaking net ring, and coagulation breaking fiber pricking balls are embedded in the meshes, so that the sludge is easily crushed to a certain extent, and the sludge is more easily dehydrated.

Furthermore, attach magnetic conductance cotton silver including connecting the fibre cotton that absorbs water on the drainage layer, the one end that the drainage layer was kept away from to the fibre cotton that absorbs water is equipped with the elasticity spring that shakes that is connected with the kuppe inner wall, the inside of elasticity spring that shakes is inlayed and is equipped with elasticity and attaches the magnetic stripe, elasticity attaches the magnetic stripe and inhales the opposite setting of piece magnetism with magnetism.

Further, the cellucotton that absorbs water adopts high water absorption, hydrophilic fiber material to make equally, it is equipped with a plurality of hydrophobic tube strips, a plurality of to inhale the annular on the outer end wall of cellucotton, hydrophobic tube strip and elasticity shake the spring and all adopt hydrophobic material to make, when magnetism piece along drainage layer circular motion, under the effect of magnetic force, can shake the spring with elasticity and inhale towards magnetism piece direction of rotation, make and attach magnetic conductance flow silver warp, when magnetism piece rotates to the position of keeping away from and attaching magnetic conductance flow silver, attaches magnetic conductance flow silver and shake the spring along with elasticity and reset and produce the vibration, will adsorb the water that attaches magnetic conductance flow silver and shake off in the vibration process, easily attaches magnetic conductance flow silver and carry out the persistence and absorb water.

Furthermore, a plurality of the magnetic conduction attached flow cotton slivers are arranged in a downward bending mode, and the length of the magnetic conduction attached flow cotton slivers distributed from top to bottom is gradually reduced, so that water absorption and flow guide are facilitated.

Further, feed advancing mechanism is including linking up in the bottom plate of storage mud tank bottom, is equipped with the liftout plate on the bottom plate, the flexible end of liftout plate is connected with the electric putter that links up with the sliding of storage mud tank inner wall, and after utilizing the suction mud cover to outwards derive the comparatively dry mud of the part of broken coagulation net ring inboard, the electric putter of reuse upward movement upwards promotes the mud of storage mud tank bottom to realize the supply.

Furthermore, the top of kuppe is equipped with the head that links up mutually with broken string of congealing the net ring up end, inlays on the inner wall of kuppe to establish and installs the heating wire, be equipped with the insulating layer on the outer end wall of kuppe, when the moisture that deviates from is less, utilize the heating of kuppe to carry out the drying for the moisture of deriving.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the scheme realizes the internal dehydration of the sludge by utilizing the electroosmotic flow principle of the electroosmotic dehydration body, the water dehydrated from the sludge moves to one side of the water filtering layer and is seeped out through the water filtering layer, a plurality of magnetic conduction attached flow cotton slivers are distributed on the outer end wall of the water filtering layer, on one hand, the magnetic conduction attached flow cotton slivers are easy to absorb and guide water, on the other hand, the magnetic conduction attached flow cotton slivers are matched with the rotary magnetic suction piece, and the magnetic conduction attached flow cotton slivers moderately vibrate discontinuously on the inner side of the flow guide cover by utilizing the discontinuous magnetic suction function between the magnetic suction piece and the rotary magnetic suction piece, in the vibration process of the magnetic conduction attached cotton strip, water molecules attached to the magnetic conduction attached cotton strip are easy to fall off, continuous water absorption is more convenient for the magnetic conduction attached cotton strip, the dehydration efficiency is improved, in addition, under the cooperation of the sludge suction cover and the sludge feeding and propelling mechanism, the sludge with low water content is discharged in the aspect, and the sludge supply from bottom to top is realized.

(2) The electro-osmosis dewatering body comprises a coagulation breaking net ring connected to the partition plate, an anode conductive metal net and a cathode conductive metal net are distributed on the inner side and the outer side of the coagulation breaking net ring, the anode conductive metal net and the cathode conductive metal net are connected with each other through insulating rods, when the electro-osmosis dewatering body is used, the anode conductive metal net and the cathode conductive metal net are respectively connected with the positive pole and the negative pole of an external power supply to be used for performing electro-osmosis dewatering treatment on sludge, and separated water molecules move to one side of the cathode conductive metal net and seep out from a water filtering layer close to the cathode conductive metal net under the action of an electric field.

(3) The sludge inlet corresponds to the bottom end of the coagulation breaking net ring, the top end of the coagulation breaking net ring is provided with a sludge suction cover, the sludge suction cover is externally connected with a sludge pump, when sludge dewatering is carried out by an electroosmosis method, the moisture of the sludge at the inner side of the coagulation breaking net ring is faster than the moisture of the sludge at the outer side of the coagulation breaking net ring, the sludge at the inner side of the coagulation breaking net ring is dry, at the moment, the sludge pump can be used for sucking the dry sludge at the inner side of the coagulation breaking net ring outwards in a proper amount, and the sucked and discharged dry sludge can be subjected to subsequent drying.

(4) The water filtering layer is of a conical structure with a narrow top and a wide bottom, the water filtering layer is made of high-water-absorption and hydrophilic fiber materials, water molecules moving to one side of the cathode conductive metal net penetrate through the water filtering layer to seep outwards, and the conical structure with the narrow top and the wide bottom is easy for water diversion.

(5) The coagulation breaking net ring is provided with a plurality of meshes, and coagulation breaking fiber stabbing balls are embedded in the meshes, so that the sludge is easy to be crushed to a certain extent and is easier to be dehydrated.

(6) The magnetic conduction flow attached cotton strip comprises water absorption fiber cotton connected to a water filtration layer, one end of the water absorption fiber cotton, which is far away from the water filtration layer, is provided with an elastic vibration spring connected with the inner wall of the air guide sleeve, an elastic magnetic attachment strip is embedded inside the elastic vibration spring, the magnetic property of the elastic magnetic attachment strip is opposite to that of the magnetic attraction piece, the water absorption fiber cotton is also made of high water absorption and hydrophilic fiber materials, a plurality of drain pipe strips are annularly embedded on the outer end wall of the water absorption fiber cotton, the drain pipe strips and the elastic vibration spring are made of hydrophobic materials, when the magnetic attraction piece moves along the circumference of the water filtration layer, the elastic vibration spring is attracted towards the rotation direction of the magnetic attraction piece under the action of magnetic force, so that the magnetic conduction flow attached cotton strip is deformed, when the magnetic attraction piece rotates to the position far away from the magnetic conduction flow attached cotton strip, the magnetic conduction flow attached cotton strip resets along with the elastic vibration spring and vibrates, and water adsorbed on the magnetic conduction flow, the magnetic conduction flow attached tampon is easy to absorb water continuously.

(7) The plurality of magnetic conduction attached flow cotton slivers are arranged in a downward bending mode, and the length of the magnetic conduction attached flow cotton slivers distributed from top to bottom is gradually reduced, so that water absorption and flow guide are facilitated.

(8) The feeding and propelling mechanism comprises a bottom plate connected to the bottom end of the sludge storage tank, a jacking plate is arranged on the bottom plate, the telescopic end of the jacking plate is connected with an electric push rod in sliding connection with the inner wall of the sludge storage tank, and after the sludge sucking cover is used for outwards guiding out the part of the inner side of the coagulation breaking net ring, the sludge at the bottom of the sludge storage tank is upwards pushed by the electric push rod moving upwards so as to realize replenishment.

(9) The top of kuppe is equipped with the head that links up mutually with broken string of congealing ring up end, inlays on the inner wall of kuppe to establish and installs the heating wire, is equipped with the insulating layer on the outer end wall of kuppe, when less, utilizes the heating of kuppe to carry out the drying for the moisture of deriving.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is a perspective view of an electroosmotic dewatering body in combination with a drainage layer according to the present invention;

FIG. 4 is a perspective view of an electroosmotic dewatering body according to the present invention;

FIG. 5 is a perspective view of the present invention where the water filtration layer is combined with a tampon having magnetic flux guide and a baffle;

FIG. 6 is a perspective view of the present invention where the water filtration layer is combined with a tampon having a magnetic flux guide;

fig. 7 is an internal cross-sectional view of a magnetically permeable tampon of the present invention.

The reference numbers in the figures illustrate:

1 mud storage tank, 2 baffle plates, 201 mud inlet, 3 coagulating screen rings, 4 anode conductive metal mesh, 5 cathode conductive metal mesh, 6 water filtering layer, 7 magnetic conductive flow cotton strip, 701 water absorption fiber cotton, 702 elastic vibration spring, 703 elastic magnetic strip, 704 hydrophobic pipe strip, 8 annular seat, 9 magnetic suction sheet, 10 mud suction cover, 11 drain pipe, 12 top plate, 13 electric push rod, 14 flow guide cover.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-2, an electroosmosis dehydration type sludge treatment tank comprises a sludge storage tank 1 with a sludge inlet pipe, a partition plate 2 is arranged at the top end of the sludge storage tank 1, an electroosmosis dehydration body is arranged at the upper end of the partition plate 2, a sludge inlet 201 corresponding to the electroosmosis dehydration body is arranged at the bottom end of the partition plate 2, sludge is guided into the sludge storage tank 1 through the sludge inlet pipe, the sludge in the sludge storage tank 1 is squeezed into the electroosmosis dehydration body from bottom to top through the sludge inlet 201, a water filtering layer 6 is fixedly connected to the top end of the partition plate 2, the water filtering layer 6 is positioned at the outer side of the electroosmosis dehydration body, and water in the sludge is removed by the electroosmosis dehydration body and is seeped out through the water filtering layer 6.

Referring to fig. 3-5 and the drawings, in particular, the electroosmotic dewatering body comprises a coagulation breaking net ring 3 connected to a partition plate 2, an anode conductive metal net 4 and a cathode conductive metal net 5 are distributed on the inner side and the outer side of the coagulation breaking net ring 3, the anode conductive metal net 4 and the bottom of the cathode conductive metal net 5 are connected with each other through an insulating rod, when the electroosmotic dewatering body is used, the anode conductive metal net 4 and the cathode conductive metal net 5 are respectively connected with an anode and a cathode of an external power supply for performing electroosmotic dewatering treatment on sludge, under the action of an electric field, separated water molecules move to one side of the cathode conductive metal net 5 and seep from a water filtering layer 6, a sludge inlet 201 corresponds to the bottom end position of the coagulation breaking net ring 3, a sludge suction cover 10 is arranged on the top end of the coagulation breaking net ring 3, a sludge suction pump is externally connected to the sludge cover 10, and when sludge dewatering is performed by the electroosmotic method, water at the sludge at the inner side of the coagulation breaking net ring 3 is more than at the outer side of the coagulation breaking net ring 3 At this time, the sludge pump can be used to suck the dried sludge at the inner side of the coagulation breaking net ring 3 outwards by a proper amount through the sludge suction cover 10, and the dried sludge discharged by suction can be subsequently dried.

What need to supplement is, draining layer 6 is the toper body structure of narrow top down width, draining layer 6 adopts high water absorption, hydrophilic fiber material to make, and the hydrone of moving to negative pole conductive metal net 5 one side passes through filtering water layer 6 and outwards oozes, and the water conservancy diversion of the toper body structure of narrow top down width easily, broken congeals and has seted up a plurality of meshes on the net ring 3, and mesh department inlays and is equipped with broken congeals fibre thorn ball, and broken congeals fibre thorn ball adopts the porous globular thing that metal fiber thorn material made, and broken congeals fibre thorn ball easily plays certain broken handle effect to mud, changes in dehydration.

Referring to fig. 1-2, a draft shield 14 sleeved on the top end of the sludge storage tank 1 is disposed on the outer side of the water filtering layer 6, a plurality of magnetic current absorption tampons 7 connected with the inner wall of the draft shield 14 are distributed on the outer side wall of the anode conductive metal mesh 4, a drain pipe 11 extending downward is disposed at the bottom end of the draft shield 14, an annular seat 8 is sleeved on the bottom end of the draft shield 14, an annular guide rail is embedded on the annular seat 8, a magnetic attraction sheet 9 is mounted on the annular guide rail, the magnetic attraction sheet 9 is magnetically attracted to the magnetic current absorption tampons 7, the annular guide rail realizes that the magnetic attraction sheet 9 moves circumferentially along the draft shield 14, and because the magnetic attraction sheet 9 and the magnetic current absorption tampons 7 are magnetically attracted, the magnetic current absorption tampons 7 are necessarily influenced by traction and vibration during movement of the magnetic attraction sheet 9.

Referring to fig. 5-7, specifically, the magnetic conductive fluid attached tampon 7 includes an absorbent fiber cotton 701 connected to the water filtering layer 6, an elastic vibration spring 702 connected to the inner wall of the air guide sleeve 14 is disposed at an end of the absorbent fiber cotton 701 away from the water filtering layer 6, an elastic magnetic attachment strip 703 is embedded inside the elastic vibration spring 702, the elastic magnetic attachment strip 703 and the magnetic attraction sheet 9 are opposite in magnetic polarity, the absorbent fiber cotton 701 is made of a high-water-absorption and hydrophilic fiber material, a plurality of hydrophobic tube strips 704 are annularly embedded on an outer end wall of the absorbent fiber cotton 701, the plurality of hydrophobic tube strips 704 and the elastic vibration spring 702 are made of hydrophobic materials, when the magnetic attraction sheet 9 moves along the circumference of the water filtering layer 6, under the action of magnetic force, the elastic vibration spring 702 is attracted toward the rotation direction of the magnetic attraction sheet 9, so that the magnetic conductive fluid attached tampon 7 deforms, when the magnetic attraction sheet 9 rotates to a position away from the magnetic conductive fluid attached tampon 7, the magnetic conduction attached flow cotton sliver 7 elastically resets along with the elastic vibrating spring 702 and vibrates, water adsorbed on the magnetic conduction attached flow cotton sliver 7 is shaken off in the vibration process, the magnetic conduction attached flow cotton sliver 7 is easy to absorb water continuously, the magnetic conduction attached flow cotton slivers 7 are arranged in a downward bending mode, the length of the magnetic conduction attached flow cotton slivers 7 distributed from top to bottom is gradually reduced, and water absorption and flow guiding are easy.

Referring to fig. 2, a feeding and propelling mechanism is disposed at the bottom end of the sludge storage tank 1, the feeding and propelling mechanism includes a bottom plate connected to the bottom end of the sludge storage tank 1, a material ejecting plate 12 is disposed on the bottom plate, a telescopic end of the material ejecting plate 12 is connected to an electric push rod 13 slidably connected to the inner wall of the sludge storage tank 1, and when the sludge sucking cover 10 is used to guide out the dried sludge inside the coagulation breaking mesh ring 3, the electric push rod 13 moving upwards pushes the sludge at the bottom of the sludge storage tank 1 upwards to realize replenishment.

The top end of the air guide sleeve 14 is provided with an end socket which is connected with the upper end surface of the coagulation breaking net ring 3, the inner wall of the air guide sleeve 14 is embedded with an electric heating wire, the outer end wall of the air guide sleeve 14 is provided with a heat insulation layer, and when the removed water is less, the water is dried by heating the air guide sleeve 14.

This scheme utilizes the electroosmotic flow principle of electroosmotic dehydration body to realize the inside dehydration of mud, the moisture that deviates from in the mud moves to drainage 6 one side, and ooze through drainage 6, and distribute a plurality of magnetic conduction of attachment tampons 7 on the outer end wall of drainage 6, the absorption of a plurality of magnetic conduction of attachment tampons 7 easy moisture on the one hand, the water conservancy diversion effect, on the other hand, at the rotatory magnetic suction piece 9 of cooperation, utilize discontinuous magnetic attraction effect, a plurality of magnetic conduction of attachment tampons 7 vibrate in the inboard moderate degree of kuppe 14, in the vibration process of magnetic conduction of attachment tampons 7, easily will be attached to the hydrone that attaches on magnetic conduction flow tampons 7 and spill, it absorbs water to be more convenient for to attach magnetic conduction flow tampons 7 and carry out the continuation, the efficiency of dehydration is improved, in addition, under the cooperation of suction mud cover 10 and mud feed advancing mechanism, realize row material and supply.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.