CN213060615U - Sludge flow guide structure for belt type desliming machine - Google Patents

Abstract

The utility model discloses a sludge diversion structure for a belt type deslimer, which comprises a diversion plate and a sludge equal division structure; the sludge equipartition structure comprises an equipartition plate and two clamping plates with the same structure, wherein a plurality of notches are formed in the equipartition plate, and the number of the sludge equipartition structures is multiple; in the utility model, the equalizing plate is positioned between the two clamping plates, when the lower end of the equalizing plate is abutted against the bottom plate, the plurality of gaps equalize the sludge, so that the sludge flows to the filter belt more uniformly through the guide plate; divide the structure equally through setting up a plurality of mud, make the adaptability of this water conservancy diversion structure better, pressure when mud gets into and stores up the mud case directly influences the velocity of flow that mud flows out and stores up the mud case, insert the quantity of equipartition board according to the flow state adjustment of mud, make mud evenly divide the effect down at a plurality of equipartition boards, evenly flow through the guide plate, thereby evenly distributed on the filter belt, thereby promote the dewatering effect of desliming machine to mud, save operating time, reduce the mud moisture content, still avoided causing the medicament extravagant because of running mud.

Description

Sludge flow guide structure for belt type desliming machine

Technical Field

The utility model relates to a technical field of sludge dewatering handles especially relates to a mud water conservancy diversion structure for belt desliming machine.

Background

The belt type deslimer is a continuously operated sludge treatment device; the device consists of a filter belt, a rolling cylinder, a filter belt tensioning system, a filter belt deviation adjusting system, a filter belt flushing system and a filter belt driving system; the sludge is firstly mixed with a flocculating agent for reaction and flocculation to form a cluster, and then the sludge is subjected to gravity dehydration, wedge pressure dehydration, low pressure dehydration, medium pressure dehydration and high pressure dehydration to gradually reduce the moisture of the sludge, and finally the sludge is formed into a solid matter to be discharged.

When sludge is dewatered by a belt type deslimer in a sewage treatment plant, the general flow is as follows, sludge in a sludge storage pool is conveyed to a sludge storage tank through a sludge pipe by a sludge pump, the sludge storage tank is arranged at a position close to a sludge inlet of the belt type deslimer, a sludge outlet of the sludge storage tank is slightly higher than a sludge inlet of the belt type deslimer, a guide plate is arranged between the sludge outlet of the sludge storage tank and the sludge inlet of the belt type deslimer and used for guiding sludge flowing out from the sludge outlet of the sludge storage tank into the sludge inlet of the belt type deslimer, the sludge reaches a filter belt on the uppermost layer of the belt type deslimer from the sludge inlet of the belt type deslimer, and the belt type deslimer works so as to dewater the sludge. But because the lower limb of belt desliming machine income mud mouth can't accomplish absolutely parallel with the lower limb that stores up mud case mud outlet, the both sides that lead to the guide plate are highly different, and store up the unevenness that mud case itself entered mud, thereby lead to when mud volume is not enough, it is inhomogeneous to lead to mud distribution on the guide plate, thereby make the mud that reaches the filter cloth gather in one side of filter cloth, make the sludge dewatering effect poor, mud distributes inhomogeneously on the filter belt simultaneously, make the desliming machine damage after long-time easily.

Before the sludge enters the sludge storage tank, a flocculating agent is generally added into the sludge, so that sludge and water are separated conveniently, and the dewatering effect of the belt type desliming machine on the sludge is improved. At present, before sludge enters a sludge storage box, a mode of adding a medicine mixing pipe is generally adopted for adding a flocculating agent to the sludge, the sludge in the sludge pipe enters the sludge storage box through the medicine mixing pipe, and a plurality of medicine adding pipes are connected to the mud inlet end of the medicine mixing pipe and used for adding the flocculating agent to the medicine mixing pipe.

Disclosure of Invention

To the above-mentioned problem that prior art exists, the utility model discloses a technical problem who solves is: the sludge is distributed on the filter cloth unevenly.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a sludge flow guide structure for a belt type deslimer comprises a flow guide plate. The guide plate comprises a bottom plate and two side plates, the two side plates are respectively positioned on the left side and the right side of the bottom plate, the side plates are perpendicular to the bottom plate, and the two side plates are fixedly connected with the bottom plate. Still include mud and equally divide the structure.

The sludge equipartition structure: the sludge equipartition structure comprises an equipartition plate and two clamping plates with the same structure.

Two cardboard transversely set up between two curb plates, two cardboards all are perpendicular with the bottom plate, both ends all with adjacent curb plate fixed connection about two cardboards, gapped between two cardboards, the width of cardboard is less than the width of curb plate, and has the distance between the lower extreme of cardboard and the bottom plate.

The equipartition board sets up between two cardboards, and the equipartition board lower extreme offsets with the bottom plate, and the upper end of equipartition board is higher than the upper end of two cardboards, and equipartition board length equals with cardboard length, and the equipartition board can slide from top to bottom between two cardboards.

The latter half of equipartition board is equipped with the breach that a plurality of widths equal, and the interval of adjacent breach equals.

Through setting up two cardboards, equally divide the board and can insert between two cardboards, equally divide the latter half of board to be equipped with a plurality of breachs, when the lower extreme of equally dividing the board offsets with the bottom plate, equally divide the board just can equally divide mud through a plurality of breachs, make mud through the comparatively even filter belt that flows of guide plate on to promote the dehydration effect of desliming machine to mud, avoid the desliming machine to damage.

Preferably, the upper surface of each of the dividing plates is provided with a handle.

Through setting up the handle, it is more convenient when making the workman insert or take out the equipartition board.

Preferably, the number of the sludge equally dividing structures is plural.

A plurality of mud are equallyd divide the structure and from the past back interval setting in proper order on the guide plate, the quantity of equipartition board breach increases in proper order in the structure is equallyd divide to a plurality of mud that set up from the past back, and the breach width reduces in proper order.

Through setting up a plurality of mud equipartition structures, make the adaptability of this water conservancy diversion structure better, pressure when mud gets into the storage mud case directly influences the velocity of flow that mud flows out the storage mud case, thereby be in the quantity of operating condition's mud equipartition structure according to the flow state adjustment of mud, insert the quantity of equipartition board promptly, when mud pressure is great, do not insert equipartition board mud and also can comparatively evenly flow through the guide plate, when mud pressure is little, the equipartition structure of foremost side inserts the equipartition board, carry out the equipartition to mud, along with the reduction of mud pressure, insert the equipartition board by preceding mud equipartition structure backward in proper order, make mud under the equipartition effect of a plurality of equipartition boards, evenly flow through the guide plate, thereby evenly distributed on the filter belt.

Preferably, the system further comprises a plurality of pneumatic structures, and the pneumatic structures correspond to the sludge uniform distribution structures one to one.

Each pneumatic structure comprises a connecting block, a miniature air cylinder, an air pipe and a miniature air pump.

The micro cylinder is located on one side, away from the gap, of one clamping plate, the piston end of the micro cylinder is vertically upward, and the cylinder body of the micro cylinder is fixedly connected with the clamping plate.

The lower surface of the connecting block is fixedly connected with the piston end of the micro cylinder, and the side face of the connecting block is fixedly connected with the side face of the corresponding uniform-distribution plate.

The miniature air cylinder is connected with the miniature air pump through an air pipe. The air tube and the micro air pump are not shown in the figure.

Through setting up miniature cylinder, miniature cylinder's piston end action can make and equally divide the board to descend and rise, and when the lower extreme and the bottom plate contact of evenly dividing the board, equally divide the board to play the effect of equally dividing to mud, mud equally divides the structure promptly to be in operating condition, when the quantity of structure is equally divided to the mud that needs the adjustment to be in operating condition, need not climb to the position of storing up the mud case export and insert or take out evenly dividing the board with the hand. Workers can remotely adjust the number of the sludge equal-dividing structures in the working state by only controlling the micro air pumps corresponding to the sludge equal-dividing structures.

Preferably, the sludge treatment device further comprises a plurality of flushing structures, and the flushing structures correspond to the sludge homogenizing structures one to one.

Each flushing structure comprises a flushing pipe.

The flushing pipe is located on one side of the equal dividing plate, one end of the flushing pipe is closed, the closed end of the flushing pipe is fixedly connected with one side plate, and the other end of the flushing pipe penetrates out of the other side plate.

The flushing pipe is provided with a plurality of nozzles, the nozzles face the uniform distribution plate, and the flushing pipe is provided with a water valve. The water valve is not shown in the figure.

By arranging the flushing pipe, when the uniform plate is not needed to uniformly flush the sludge, water in the flushing pipe is sprayed out by the spray head to flush the lower half part of the uniform plate, and then the uniform plate rises again; the uniform distribution plate is washed, residual sludge on the uniform distribution plate is washed away, and drying and caking of the sludge on the uniform distribution plate are avoided, so that the uniform distribution effect of the uniform distribution plate on the sludge is reduced.

Preferably, the water valve is an electromagnetic valve. Through setting up the solenoid valve, conveniently controlling the washing pipe is intake, the control of being convenient for is to the washing process of equalling divide the board.

Preferably, the automatic control system further comprises an automatic control part, wherein the automatic control part comprises a controller and a hydraulic pressure sensor.

The hydraulic sensor is arranged on the medicine mixing pipe, the hydraulic sensor is close to the joint of the medicine mixing pipe and the mud storage box, the probe of the hydraulic sensor is positioned in the medicine mixing pipe, and the signal output end of the hydraulic sensor is connected with the pressure signal input end of the controller.

And the signal output end of the controller is respectively connected with the plurality of miniature air pumps and the plurality of electromagnetic valves. The controller, hydraulic pressure sensor and solenoid valve are not shown in the drawings.

Through setting up controller and hydraulic sensor, hydraulic sensor gathers the mud pressure that advances of mud storage box, transmit pressure data into the controller into, the controller controls the quantity of opening of a plurality of miniature air pumps according to mud pressure, thereby the quantity of structure is equallyd divide to the mud that control is in operating condition, make this water conservancy diversion structure can adjust the quantity that the structure is equallyd divide to the mud that is in operating condition according to the outflow speed of mud, thereby make this water conservancy diversion structure have better equallyd divide the effect to mud all the time, automatic control replaces artifical real-time observation, adjust the water conservancy diversion structure, greatly reduced workman intensity of labour.

Preferably, the connecting device further comprises a plurality of bolts, and the connecting block is fixedly connected with the sharing plate through the bolts.

Pass through bolt fixed connection through the connecting block with equalling divide the board, when using pneumatic mode can't adjust equalling divide the board, need overhaul parts such as cylinder, air pump and sensor, can be with the connecting block with equalling divide the board split this moment, the quantity of equalling divide the structure that manual adjustment is in operating condition makes when maintaining, and this water conservancy diversion structure still can normal use.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the utility model discloses in, through setting up two cardboards, equally divide the board and can insert between two cardboards, equally divide the latter half of board to be equipped with a plurality of breachs, when the lower extreme of equipartition board offsets with the bottom plate, the equipartition board just can equally divide mud through a plurality of breachs, makes mud through the comparatively even filtration belt that flows of guide plate on to promote the desliming machine to the dehydration effect of mud, avoid the desliming machine to damage.

2. The utility model discloses in, equally divide the structure through setting up a plurality of mud, the adaptability that the structure was equallyd divide to the messenger is better, pressure when mud got into the storage mud case directly influences the velocity of flow that mud flows out the storage mud case, thereby the quantity of structure is equallyd divide to the mud that is in operating condition according to the flow state adjustment of mud, the quantity of inserting the equipartition board promptly, when mud pressure is great, it also can comparatively even flow through the guide plate not to insert equipartition board mud, when mud pressure is little, the equipartition structure of foremost side inserts the equipartition board, carry out the equipartition to mud, along with the reduction of mud pressure, insert the equipartition board by preceding mud equipartition structure backward in proper order, make mud under the equipartition effect of a plurality of equipartition boards, evenly flow through the guide plate, thereby evenly distributed on the.

3. The utility model discloses in, the piston end action of miniature cylinder can make and equally divide the board and descend and rise, and when the lower extreme and the bottom plate contact of equalling divide the board, equally divide the board to play the effect of equalling divide to mud, when the quantity of equalling divide the structure that needs the adjustment to be in operating condition, need not climb to the position of storing up mud case export and insert or take out the equalling divide the board with the hand, and the workman only need control every miniature air pump that equalling divide the structure to correspond, just can the quantity of equalling divide the structure that long-range adjustment is in operating condition.

4. The utility model discloses in, hydraulic sensor gathers the mud pressure of advancing of mud storage box, spread pressure data into the controller into, the controller controls the quantity of opening of a plurality of miniature air pumps according to mud pressure, thereby the control is in the quantity of the structure of equalling divide of operating condition, make this water conservancy diversion structure can adjust the quantity of the structure of equalling divide that is in operating condition according to the outflow speed of mud, thereby make this water conservancy diversion structure have better equalling divide the effect to mud all the time, automatic control replaces artifical real-time observation, adjust the water conservancy diversion structure, greatly reduced workman intensity of labour.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 shows the middle flow guiding structure of the present invention.

Fig. 3 is a perspective view of the middle uniform dividing plate of the present invention.

Fig. 4 is a perspective view of the overall structure of the present invention.

Fig. 5 is a perspective view of the overall structure of the present invention.

Fig. 6 is a schematic view of the overall structure of the present invention in a use state.

In the figure, 1-guide plate, 11-bottom plate, 12-side plate; 2-sludge equipartition structure, 22-snap-gauge, 23-equipartition plate, 24-gap; 31-a handle; 41-connecting block, 42-micro cylinder; 51-a flush tube; 61-belt mud removing machine, 62-belt mud removing machine mud inlet, 63-mud storage tank, 64-mud storage tank mud outlet, 65-medicine mixing pipe, 66-sludge pipe and 67-medicine adding pipe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

For convenience of description, the following description concepts are introduced in the writing of the present invention:

in the present invention 'front', 'rear', 'left', 'right', 'up', 'down' all refer to the orientation in fig. 1, wherein 'front' refers to facing outwards in fig. 1 with respect to the paper surface and 'rear' refers to facing inwards in fig. 1 with respect to the paper surface.

Referring to fig. 1-6, the present invention provides an embodiment:

example 1: a mud water conservancy diversion structure for belt desliming machine, includes guide plate 1. Guide plate 1 includes bottom plate 11 and two curb plates 12, two curb plates 12 are located the left and right sides of bottom plate 11 respectively, and curb plate 12 all is perpendicular with bottom plate 11, two curb plates 12 and bottom plate 11 fixed connection. Also comprises a sludge equipartition structure 2.

The sludge equipartition structure: the sludge equipartition structure 2 comprises an equipartition plate 23 and two clamping plates 22 with the same structure.

Two cardboard 22 transversely set up between two curb plates 12, two cardboard 22 all are perpendicular with bottom plate 11, both ends all with adjacent curb plate 12 fixed connection about two cardboard 22, gapped between two cardboard 22, the width of cardboard 22 is less than the width of curb plate 12, and has the distance between the lower extreme of cardboard 22 and the bottom plate 11.

Divide equally board 23 and set up between two cardboard 22, divide equally board 23 lower extreme and bottom plate 11 to offset, divide equally the upper end of board 23 to be higher than two cardboard 22's upper end, divide equally board 23 length and cardboard 22 length equal, and divide equally board 23 and can slide from top to bottom between two cardboard 22.

The latter half of equipartition board 23 is equipped with the breach 24 that a plurality of widths are equal, and the interval of adjacent breach 24 equals.

Further, the upper surface of the equalizing plate 23 is provided with a handle 31.

Further, the number of the sludge equally distributing structures 2 is multiple.

A plurality of mud are equallyd divide structure 2 and from the past back interval setting in proper order on guide plate 1, the quantity that divides breach 24 on the equipartition board 23 increases in proper order in a plurality of mud that set up backward in the past are equallyd divide structure 2, and breach 24 width reduces in proper order.

During concrete implementation, the width of bottom plate is 1m, and the quantity of mud equipartition structure is three, the breach quantity on the equipartition board that leans on the front is 3, and the width of every breach is 20cm, then when the mud equipartition structure that leans on the front is in operating condition, the mud that the guide plate can flow through is only original 60%, when the mud flow is not enough, under the blockking of equipartition board, mud just can follow the three breach of equipartition board and evenly flow to on the filter belt.

The number of the gaps on the middle uniform distribution plate is 5, the width of each gap is 8cm, when the front sludge uniform distribution structure and the middle sludge uniform distribution structure are both in a working state, the amount of sludge which can flow through the guide plate is only 40% of the original amount, and the sludge can be effectively uniformly distributed when the flow rate of the sludge is smaller.

The number of the gaps on the rear equal-dividing plate is 9, the width of each gap is 3cm, when the three sludge equal-dividing structures are in working states, the sludge which can flow through the guide plate is only 27% of the original sludge, and when the sludge flow is extremely small, the sludge can be effectively divided equally.

The three equipartition structures are connected in series, and when the rear equipartition structure works, all the equipartition structures in front are also in a working state, so that the equipartition effect is better.

Further, still include a plurality of pneumatic structures, a plurality of pneumatic structures and a plurality of mud are equallyd divide structure 2 one-to-one.

Each pneumatic structure comprises a connecting block 41, a micro air cylinder 42, an air pipe and a micro air pump.

The micro cylinder 42 is located on one side of one of the chuck plates 22 far away from the gap, the piston end of the micro cylinder 42 is vertically upward, and the cylinder body of the micro cylinder 42 is fixedly connected with the chuck plate 22.

The lower surface of the connecting block 41 is fixedly connected with the piston end of the micro cylinder 42, and the side surface of the connecting block 41 is fixedly connected with the side surface of the corresponding uniform distribution plate 23.

The micro air cylinder 42 is connected with a micro air pump through an air pipe.

Further, still include a plurality of structures of washing, a plurality of structures of washing and a plurality of mud are equallyd divide structure 2 one-to-one.

Each of the flushing structures comprises a flushing pipe 51.

The flushing pipe 51 is positioned on one side of the uniform distribution plate 23, one end of the flushing pipe 51 is closed, the closed end of the flushing pipe 51 is fixedly connected with one side plate 12, and the other end of the flushing pipe 51 penetrates out of the other side plate 12.

A plurality of nozzles are arranged on the flushing pipe 51, the nozzles are arranged towards the uniform distribution plate 23, and a water valve is arranged on the flushing pipe 51.

Further, the water valve is an electromagnetic valve.

Further, the automatic control device also comprises an automatic control part, wherein the automatic control part comprises a controller and a hydraulic pressure sensor.

The hydraulic sensor is arranged on the medicine mixing pipe 65, the hydraulic sensor is close to the joint of the medicine mixing pipe 65 and the mud storage box 63, the probe of the hydraulic sensor is positioned in the medicine mixing pipe 65, and the signal output end of the hydraulic sensor is connected with the pressure signal input end of the controller.

And the signal output end of the controller is respectively connected with the plurality of miniature air pumps and the plurality of electromagnetic valves.

Further, the device also comprises a plurality of bolts, and the connecting block 41 is fixedly connected with the uniform distribution plate 23 through the bolts.

The utility model discloses a theory of operation that is used for mud water conservancy diversion structure of belt desliming machine that well embodiment 1 injectd is as follows:

1. when using the mud water conservancy diversion structure, need carry out simple programming to the controller, it can accomplish to do the controller to carry out simple programming to the controller does not need to pay creative work for the technical staff in the field, in addition, the utility model discloses the protection is the structure of mud water conservancy diversion structure to programming method or the procedure that adopts when not protecting to use this mud water conservancy diversion structure.

The pressure in the sludge pipe determines the flow rate of the sludge, thereby determining the sludge discharge flow of the sludge storage tank, the controller is simply programmed, and the pressure value interval is set as [ P ]₁,P₃]And P is₁＜P₂＜P₃The real-time pressure value P of the sludge pipe is measured by the hydraulic sensor₀And transmitted to the controller.

When P is present₀≥P₃During the process, the controller controls the three micro air pumps to respectively convey high-pressure air to the three micro air cylinders 42, the piston ends of the micro air cylinders 42 extend out, so that the connecting blocks 41 are pushed upwards, the connecting blocks 41 drive the uniform distribution plates 23 to move upwards between the two clamping plates 22, a certain distance is reserved between the three uniform distribution plates 23 and the bottom plate 11, the guide plate 1 is completely smooth, and sludge can uniformly flow through the guide plate due to large sludge flow.

When P is present₂＜P₀＜P₃When the sludge treatment device is used, the controller controls the two micro air pumps corresponding to the middle micro air cylinder 42 and the rear micro air cylinder 42 to convey high-pressure air to the two micro air cylinders 42, so that a certain distance is reserved between the two corresponding uniform plates 23 and the bottom plate 11, and the front uniform plate 23 is in contact with the bottom plate 11, so that the sludge which can flow through the guide plate 1 is only 60% of the original sludge; the mud flow is less this moment, and mud flows through the guide plate and makes the condition that mud can appear gathering to one side, nevertheless because the effect of equipartition board 23 for can supply the cross section of mud circulation to diminish on the guide plate 1, mud can flow from three breach 24 simultaneously, and mud can disperse again after three breach 24, makes mud when reacing the filter belt, and the distribution is comparatively even.

When P is present₁≤P₀≤P₂When in use, the controller controls the micro air pump corresponding to the next micro air cylinder 42 to deliver high-pressure air to the micro air cylinder 42, so that the next uniform plate 23 keeps a certain distance from the bottom plate 11, the front and middle uniform plates 23 are both contacted with the bottom plate 11,so that the sludge which can flow through the guide plate is only 40 percent of the original sludge; the sludge passes through the gap near the front equalizing plate 23 and then passes through the gap of the middle equalizing plate 23, so that the sludge is equalized.

When P is present₀＜p₁During the time, the controller control three miniature air pump all closes to make three equipartition board 23 all contact with bottom plate 11, mud passes through the breach of three equipartition board 23 in proper order, and instant mud flow is not enough, and mud also can the even flow on the filter cloth, makes the dewatering effect of mud improve.

2. Before the micro cylinder 42 is controlled by the controller to move to enable the corresponding equalizing plate 23 to ascend, the electromagnetic valve on the corresponding flushing pipe 51 of the sludge equalizing structure 2 is controlled to be opened for a certain time, so that water is sprayed out from the spray head to flush the equalizing plate, and sludge adhesion is avoided.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. A sludge flow guide structure for a belt type deslimer comprises a flow guide plate (1); the guide plate (1) comprises a bottom plate (11) and two side plates (12), the two side plates (12) are respectively positioned at the left side and the right side of the bottom plate (11), the side plates (12) are both vertical to the bottom plate (11), and the two side plates (12) are fixedly connected with the bottom plate (11); the method is characterized in that: the sludge equalization device also comprises a sludge equalization structure (2);

the sludge equipartition structure: the sludge equipartition structure (2) comprises an equipartition plate (23) and two clamping plates (22) with the same structure;

the two clamping plates (22) are transversely arranged between the two side plates (12), the two clamping plates (22) are perpendicular to the bottom plate (11), the left end and the right end of each clamping plate (22) are fixedly connected with the adjacent side plates (12), a gap is formed between the two clamping plates (22), the width of each clamping plate (22) is smaller than that of each side plate (12), and a space is formed between the lower end of each clamping plate (22) and the bottom plate (11);

the uniform distribution plate (23) is arranged between the two clamping plates (22), the lower end of the uniform distribution plate (23) is abutted against the bottom plate (11), the upper end of the uniform distribution plate (23) is higher than the upper ends of the two clamping plates (22), the length of the uniform distribution plate (23) is equal to that of the clamping plates (22), and the uniform distribution plate (23) can slide up and down between the two clamping plates (22);

the latter half of equipartition board (23) is equipped with breach (24) that a plurality of widths equal, and the interval of adjacent breach (24) equals.

2. The sludge guide structure for the belt type deslimer as set forth in claim 1, wherein: the upper surface of the uniform distribution plate (23) is provided with a handle (31).

3. The sludge guide structure for the belt type deslimer as set forth in claim 1 or 2, wherein: the number of the sludge equally distributing structures (2) is multiple;

a plurality of mud is equallyd divide structure (2) and in the past to back interval setting in proper order on guide plate (1), the quantity of equalling divide board (23) to go up breach (24) increases in proper order in a plurality of mud that set up backward in the past equally divide structure (2), and breach (24) width reduces in proper order.

4. The sludge guide structure for the belt type deslimer as set forth in claim 3, wherein: the sludge treatment system also comprises a plurality of pneumatic structures, wherein the pneumatic structures correspond to the sludge sharing structures (2) one by one;

each pneumatic structure comprises a connecting block (41), a micro air cylinder (42), an air pipe and a micro air pump;

the micro cylinder (42) is positioned on one side of one of the clamping plates (22) far away from the gap, the piston end of the micro cylinder (42) is vertically upward, and the cylinder body of the micro cylinder (42) is fixedly connected with the clamping plate (22);

the lower surface of the connecting block (41) is fixedly connected with the piston end of the micro cylinder (42), and the side surface of the connecting block (41) is fixedly connected with the side surface of the corresponding uniform distribution plate (23);

the micro air cylinder (42) is connected with the micro air pump through an air pipe.

5. The sludge guide structure for the belt type deslimer as set forth in claim 4, wherein: the sludge treatment device also comprises a plurality of flushing structures, wherein the flushing structures correspond to the sludge sharing structures (2) one by one;

each flushing structure comprises a flushing pipe (51);

the flushing pipe (51) is positioned on one side of the uniform distribution plate (23), one end of the flushing pipe (51) is closed, the closed end of the flushing pipe (51) is fixedly connected with one side plate (12), and the other end of the flushing pipe (51) penetrates out of the other side plate (12);

a plurality of spray heads are arranged on the flushing pipe (51) and face the uniform distribution plate (23), and a water valve is arranged on the flushing pipe (51).

6. The sludge guide structure for the belt type deslimer as set forth in claim 5, wherein: the water valve is an electromagnetic valve.

7. The sludge guide structure for the belt type deslimer as set forth in claim 6, wherein: the automatic control part comprises a controller and a hydraulic sensor;

the hydraulic sensor is arranged on the medicine mixing pipe (65), the hydraulic sensor is close to the joint of the medicine mixing pipe (65) and the sludge storage box (63), a probe of the hydraulic sensor is positioned in the medicine mixing pipe (65), and a signal output end of the hydraulic sensor is connected with a pressure signal input end of the controller;

and the signal output end of the controller is respectively connected with the plurality of miniature air pumps and the plurality of electromagnetic valves.

8. A sludge guide structure for a belt type deslimer as claimed in any one of claims 4 to 7, wherein: the uniform distribution plate is characterized by further comprising a plurality of bolts, and the connecting blocks (41) are fixedly connected with the uniform distribution plate (23) through the bolts.

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