CN111204948A - Comprehensive treatment system for squeezing bottom mud - Google Patents

Abstract

The invention discloses a bottom mud squeezing comprehensive treatment system which comprises a treatment main body, wherein the treatment main body comprises a shell and a base, a sand-stone separation device is arranged at the upper end of the shell, a sludge treatment tank communicated with the sand-stone separation device and a plate-frame filter press communicated with the sludge treatment tank are sequentially arranged in the base from top to bottom, the sand-stone separation device comprises a high-frequency vibrating machine fixedly connected with the shell, the base is positioned in the shell and is independent from the shell, the sludge treatment tank and the plate-frame filter press are fixed in the base, a connecting mechanism is detachably connected between the base and the shell, a conveying device is arranged on the outer wall of the shell, and the upper end of the conveying device is arranged above an upper opening. The invention provides a comprehensive treatment system for squeezing bottom mud, which is convenient for replacing a treatment main body according to actual engineering and reduces construction cost.

Description

Comprehensive treatment system for squeezing bottom mud

Technical Field

The invention relates to dredging engineering, in particular to a comprehensive treatment system for squeezing sediment.

Background

With the development of economy and the promotion of urbanization in China, a large amount of industrial wastewater, domestic sewage and the like generated along the river and town streets are discharged, the river is seriously polluted, the ecological system of the river is seriously damaged, the life of residents is influenced, and the health of human bodies is harmed. At present, rivers in most cities in China have pollution of different degrees, and particularly, the pollution is prominent in cities with more developed industrial development. The pollutants entering the river channel are finally deposited into the bottom mud and gradually enriched to form polluted bottom mud which is a key endogenous pollutant of rivers and lakes. Dredging is the main measure for treating the endogenous pollution of rivers and lakes at present in China, and aims to remove the polluted bottom mud in water bodies of rivers and lakes, reduce the content of the endogenous pollutants of the rivers and lakes, improve the water quality of the rivers and lakes and improve the aquatic ecological environment.

According to the traditional river sludge treatment technology, bottom sludge is conveyed to a bottom sludge treatment yard through a pipeline or a tank car for post-treatment, an excavation treatment pool and a sedimentation pool are carried out on the yard, and a corresponding building is built to set a plate frame machine to carry out drying treatment on the bottom sludge, but once one project is finished, the yard is required to be completely restored, and in the treatment process of some small rivers and small lakes, if each project is carried out to build a corresponding yard, the cost is increased.

Disclosure of Invention

The invention aims to provide a comprehensive treatment system for squeezing bottom mud, which is convenient for replacing a treatment main body according to actual engineering and reduces the construction cost.

The technical purpose of the invention is realized by the following technical scheme: the utility model provides a bed mud squeezes integrated processing system, is including handling the main part, it includes shell and base to handle the main part, the shell upper end is provided with grit separator, from last to having set gradually under to in the base and feed through in the sludge treatment pond of grit separator, feed through in the plate and frame filter press in sludge treatment pond, grit separator includes fixed connection in the high-frequency vibration machine of shell, the base is located the shell and is independent of the shell, inside sludge treatment pond and plate and frame filter press were fixed in the base, can dismantle between base and the shell and be connected with coupling mechanism, the shell outer wall is provided with conveyer, the shell upper shed top is arranged in to the conveyer upper end.

By adopting the technical scheme, the bottom mud at the bottom of the river is conveyed upwards to the upper opening of the shell by the conveying device, so that the bottom mud falls downwards from the upper opening of the shell to the high-frequency vibrator connected with the upper end of the shell, solid garbage and gravel in the bottom mud can be screened out by the high-frequency vibrator, and the sludge in the flow state falls into the sludge treatment tank, the sludge is treated, precipitated and kept stand in the sludge treatment tank, so that partial substances in the sludge can be removed, the bottom sludge precipitated in the sludge treatment tank can enter a plate-and-frame filter press for filter pressing, the sludge is pressed into sludge cakes, the base and the shell can be connected or separated by the connecting mechanism, because the high-frequency vibrating machine can generate strong vibration in the vibration screening process, therefore, the base and the shell are separated during normal processing, so that the high-frequency vibration machine does not influence other device mechanisms in the base. And after one project is finished, the base and the shell are connected by the connecting mechanism, so that the whole system device is convenient to carry to another project site, and the cost of each project is reduced.

The invention is further configured to: the high-frequency vibration machine includes the separation casing, set up in the separation casing and be the filter layer of slope, connect in the bobbing machine of separation casing, separation casing and shell up end all are the upper shed setting, the separation casing is located the filter layer below and has seted up the bed mud export, the impurity export of intercommunication in the filter layer top is seted up to the separation casing lateral wall.

Through adopting above-mentioned technical scheme, under the vibration effect of high-frequency vibration machine, make the downward landing of impurity from the surface of filter layer in the bed mud to discharge from the impurity export, the bed mud then sees through and discharges and enter into the sludge treatment pond from the bed mud export in the filter layer, avoids solid impurity to handle and produce adverse effect to the bed mud.

The invention is further configured to: the upper end in sludge treatment pond communicates in the sediment export, the base is connected with the auxiliary agent that communicates in sludge treatment pond and adds the device, the auxiliary agent adds the device including connecting in the hopper of base, communicating in the communicating pipe in hopper and sludge treatment pond, set up in the governing valve of communicating pipe.

Through adopting above-mentioned technical scheme, according to the actual processing requirement, add the auxiliary agent in the hopper to the sludge treatment pond in to handle the bed mud, because the high-frequency vibration machine is located the top in sludge treatment pond, then under the dead weight effect, the bed mud just can flow to the sludge treatment pond in from the bed mud export of separation casing, need not to use power equipment to go into the pump, reduced manufacturing cost.

The invention is further configured to: and a stirrer is arranged in the sludge treatment tank.

Through adopting above-mentioned technical scheme, after adding the auxiliary agent in sludge treatment pond, rely on the mixer to make auxiliary agent and bed mud intensive mixing mix, promote its utilization ratio, reach better treatment.

The invention is further configured to: the sludge treatment device is characterized in that a discharge port is formed in the bottom of the sludge treatment tank, an output pipe is arranged at the discharge port, an output valve is arranged on the output pipe, and one end, far away from the discharge port, of the output pipe is communicated with an inlet of the plate-and-frame filter press.

Through adopting above-mentioned technical scheme, after accomplishing the bed mud in the sludge treatment pond and handling, rely on the output tube to send the bed mud into and carry out the filter-pressing in the plate frame filter press to make the bed mud by the pressure dry become the mud cake, the reuse in the later stage of being convenient for.

The invention is further configured to: the base is located and is provided with the mud cake frame below the filter press, be provided with the water collector between mud cake frame and the filter press below, water collector along horizontal direction sliding connection in base, mud cake frame sliding connection in base.

Through adopting above-mentioned technical scheme, utilize the mud cake frame to collect the mud cake that plate frame pressure filter produced, but because can produce the stagnant water at the filter-pressing in-process of plate frame pressure filter, increase the back at pipeline live time, the stagnant water then drops downwards easily, and when still at the filter-pressing in-process, then places the below of pressure filter in with the water collector to can collect the outside stagnant water that produces, avoid this part stagnant water can drop in the mud cake frame and soak the mud cake again.

The invention is further configured to: the mud cake frame inner wall is towards the center slope, the mud cake frame is located the minimum department of inner wall and rotates and is connected with a conveying screw, conveying screw outer wall integrated into one piece has the section that is the spiral.

By adopting the technical scheme, when a certain amount of mud cakes are collected in the mud cake frame, the conveying screw rod is started, and the mud cakes can be further ground and conveyed outwards.

The invention is further configured to: the connecting mechanism comprises a plurality of connecting columns hinged to the bottom end of the base and used for sleeving the bottom of the shell, and clamping blocks which are in threaded connection with the bottom of the shell and located on the connecting columns to clamp the connecting columns.

Through adopting above-mentioned technical scheme, when base and shell are connected to needs, rotate the spliced pole, make the spliced pole can overlap and locate the shell bottom to the tight piece of clamp is pressed from both sides in the rotation, utilizes to press from both sides tight piece and play the clamping effect to the spliced pole, thereby makes shell and base can carry and remove in step.

The invention is further configured to: the processing main body is provided with the multiunit side by side, conveyer is including the material loading conveyer that is the slope, one end is located material loading conveyer upper end below and circulation rotation has the material conveyer that is the horizontally pay-off belt, along being on a parallel with pay-off belt direction of delivery sliding connection in the material conveyer's branch material conveyer, the branch material conveyer includes circulation rotation's branch material belt, lifting pay-off belt and forms the difference in height with the branch material belt and make the bed mud fall to the branch material belt and realize carrying to the disconnected subassembly of one of them shell upper shed.

Through adopting above-mentioned technical scheme, according to the size of actual engineering, select to set up the multiunit and handle the main part, utilize connecting device with the bed mud to distribute in the processing main part of difference, at first rely on the material loading conveyer with the bed mud upwards carry to the material conveying conveyer, rely on sliding connection again in the material conveying machine of material conveying distributes the bed mud to each and handles the main part in to can promote the handling capacity of bed mud, and be convenient for carry the distribution.

In conclusion, the invention has the following beneficial effects: make whole processing system can concentrate together to be convenient for remove the transport between different projects, reduced the treatment cost, and rely on coupling mechanism to make high-frequency vibration machine can not influence sludge treatment pond and plate and frame filter press and handle the bed mud, thereby promote the treatment effect to the bed mud.

Drawings

FIG. 1 is a schematic structural diagram of the first embodiment;

FIG. 2 is a partial cross-sectional view of the present embodiment, which is mainly used to embody the interior of the base;

FIG. 3 is a partial cross-sectional view of the embodiment, mainly used to embody the connection mechanism;

FIG. 4 is an enlarged view of section I of FIG. 3;

FIG. 5 is a schematic structural diagram of the second embodiment;

fig. 6 is a schematic structural diagram of a second embodiment of the present invention, which is mainly used for embodying a distribution conveyor.

Reference numerals: 1. a processing body; 11. a housing; 111. a housing support; 12. a base; 121. a base pillar; 2. a sand and stone separation device; 21. a high-frequency vibrator; 211. separating the shell; 212. a filter layer; 213. a vibrator; 22. placing the plate; 3. a sludge treatment tank; 31. a discharge port; 32. an output pipe; 33. an output valve; 4. a plate-and-frame filter press; 5. a connecting mechanism; 51. connecting columns; 52. a clamping block; 53. mounting blocks; 54. a limiting block; 55. a movable block; 56. a connecting bolt; 6. a conveying device; 61. a feeding conveyor; 611. a feeding conveyer belt; 62. a feed conveyor; 621. a feeding belt; 63. a distribution conveyor; 631. a material distributing frame; 632. distributing and conveying rollers; 633. a material distributing motor; 634. a material distributing belt; 7. a bottom sludge outlet; 8. an impurity outlet; 81. an impurity discharge pipe; 9. an auxiliary agent adding device; 91. a hopper; 92. a communicating pipe; 93. adjusting a valve; 10. a blender; 13. a liquid discharge pipe; 16. a mud cake frame; 161. a feeding port; 17. a water pan; 18. a conveying screw; 181. an output motor; 24. breaking the assembly; 241. breaking frames; 242. breaking the roller; 243. a tensioning cylinder; 244. a tension roller; 245. a tension rod; 23. a traveling wheel; 231. a walking motor.

Detailed Description

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

The first embodiment is as follows:

the utility model provides a sediment squeezes integrated processing system, refer to fig. 1 and show, including handling main part 1, handle main part 1 including being vertical and being upper shed's shell 11, be provided with grit separator 2 in the upper end of shell 11, be provided with in 11 inside of shell and be vertical and independent base 12, combine fig. 2 and show, base 12 is from last to having set gradually intercommunication in grit separator 2's sludge treatment pond 3 down, communicate in sludge treatment pond 3's sheet frame filter press 4, be provided with conveyer 6 at the outer wall of shell 11, rely on conveyer 6 to send into the sediment of river bottom from shell 11's upper shed, thereby handle the sediment.

Referring to fig. 2, the sand-gravel separating apparatus 2 comprises a placing plate 22 connected to the inside of the casing 11 near the upper end and a high-frequency vibrator 21 connected to the surface of the placing plate 22, the high-frequency vibrator 21 comprises a separating shell 211 connected to the inside of the casing 11 at the upper end, the separating shell 211 has an upper opening structure, the upper opening of the separating shell 211 is communicated with and aligned with the upper opening of the casing 11, an inclined filtering layer 212 is fixedly connected to the upper end of the separating shell 211, the filtering layer 212 is a porous plate with a plurality of pores, the filtering layer 212 can be provided with a plurality of blocks from top to bottom according to actual requirements, the pores of the filtering layer 212 are sequentially enlarged from top to bottom, the side wall of the separating shell 211 is provided with impurity outlets 8 corresponding to each filtering layer 212 one by one, and the outer wall of the separating shell 211 is fixedly connected with impurity discharging pipes 81 corresponding, a bottom sludge outlet 7 for outputting the bottom sludge is opened at the bottom of the separation housing 211.

Referring to fig. 3, in order to prevent the high-frequency vibrator 21 from adversely affecting the base 12 during use, as shown in fig. 4, a connecting mechanism 5 is disposed between the casing 11 and the base 12, the connecting mechanism 5 is provided with two sets at least located at the upper and lower ends of the casing 11, the connecting mechanism 5 includes a casing pillar 111 connected to the casing 11, a base pillar 121 (shown in fig. 1) is fixedly connected to the base 12, and a mounting block 53 is fixed on each of the base pillars 121, a connecting pillar 51 is hinged to the sidewall of the mounting block 53, a semi-circular limiting block 54 is integrally formed at one end of the connecting pillar 51 away from the mounting block 53, a movable block 55 forming a ring with the limiting block 54 is hinged at one end of the limiting block 54 away from the connecting pillar 51, the movable block 55 is rotated to enable the movable block 55 and the limiting block 54 to sleeve the casing 11 pillar, and the movable block 55 and the connecting pillar 51 are fixed by bolts, and the upper and lower sides of the shell strut 111 at the limit block 54 are both in threaded connection with a clamping block 52, and the upper and lower clamping blocks 52 can clamp the movable block 55 and the limit block 54. Meanwhile, after the connecting column 51 rotates and is sleeved on the pillar of the housing 11, the mounting block 53 is penetrated and is in threaded connection with a connecting bolt 56 which can be in threaded connection with the connecting column 51, so that the connecting column 51 cannot rotate on the mounting block 53 any more, and the housing 11 is connected with the base 12. And rollers (not shown) may be mounted at the bottom ends of the bottom housing leg 111 and the base leg 121.

Referring to fig. 3, sludge treatment pond 3 connects in the below that is located high-frequency vibration machine 21 at base 12, sludge treatment pond 3 is the open-top structure of cuboid, sludge treatment pond 3's open-top is relative with the sediment export 7 of high-frequency vibration machine 21 bottom, make the sediment after the edulcoration can get into inside sludge treatment pond 3, bottom in sludge treatment pond 3 is provided with discharge port 31, sludge treatment pond 3's inside bottom is the slope, and discharge port 31 is in the minimum, be provided with the output tube 32 of carrying the sediment to in the filter press 4 at discharge port 31, be provided with the output valve 33 whether the steerable sediment flows out on the output tube 32. In order to treat the bottom sludge, an auxiliary agent adding device 9 is fixedly connected to the base 12, the auxiliary agent adding device 9 comprises a hopper 91 connected to the side wall of the base 12, a communicating pipe 92 communicated with the sludge treatment tank 3 is arranged at the bottom end of the hopper 91, an adjusting valve 93 for adjusting the flow rate is arranged on the communicating pipe 92, a plurality of groups of auxiliary agent adding devices 9 can be arranged according to actual needs, and plant ash, fly ash and a mud-water separating agent are added during treatment. In order to improve the use effect of the auxiliary agent, a stirrer 10 is rotatably connected in the sludge treatment tank 3 to stir the substrate sludge after the auxiliary agent is added. A liquid discharge pipe 13 for discharging supernatant liquid is arranged on the side wall of the sludge treatment tank 3 near the upper end, and the liquid discharge pipe 13 can be communicated with an external power pump.

Referring to fig. 3, the plate-and-frame filter press 4 is connected to the base 12 and located below the sludge treatment tank 3, one end of the output pipe 32, which is far away from the sludge treatment tank 3, is communicated with a sludge inlet of the plate-and-frame filter press 4, a sludge cake frame 16 with an upper opening is fixedly connected to the lower portion of the base 12, two ends of the two opposite vertical side walls of the length direction of the sludge cake frame 16 incline toward the center of the sludge cake frame 16, a feed opening 161 is formed at the bottommost end of the sludge cake frame 16, a conveying screw 18 is rotatably connected to the lower portion of the feed opening 161 inside the sludge cake frame 16, an output motor 181 for driving the conveying screw 18 to rotate is fixedly installed on the outer wall of the sludge cake frame 16, spiral slices (not shown in the figure) are integrally formed on the outer wall of the conveying screw 18, and a blade edge is provided at the outer edge of the slices, so as. In order to avoid that partial residual water can drop into the mud cake frame 16, a water receiving tray 17 which is of an upper opening structure is arranged between the mud cake frame 16 and the plate and frame filter press 4, the water receiving tray 17 is connected to the base 12 in a sliding mode along the horizontal direction, so that the water receiving tray 17 is moved to the position below the plate and frame filter press 4 in the filter pressing process, and when mud cakes need to be discharged, the water receiving tray 17 is moved away, and the mud cakes in the plate and frame filter press 4 drop into the mud cake frame 16.

Referring to fig. 1, the transfer device 6 includes an inclined feeding conveyor 61, the upper end of the feeding conveyor 61 is located above the upper opening of the housing 11, and a feeding conveyor belt 611 is circularly rotated on the feeding conveyor 61.

In the conveying and carrying process, the connecting column 51 is rotated, the limiting block 54 and the movable block 55 are used for sleeving the shell support column 111, the movable block 55 and the connecting column 51 are fixed, the clamping block 52 is rotated to clamp the connecting column 51, the shell 11 and the base 12 can move synchronously, and when the specified engineering place is conveyed, the connecting column 51 is separated from the shell 11. And the bottom mud is put into a feeding conveyor 61 from the river channel, the bottom mud is conveyed by the feeding conveyor 61 to enter the upper part of a filter layer 212 in a separation shell 211, solid impurities in the bottom mud are screened and discharged, the bottom mud enters a sludge treatment pool 3 under the action of self weight, corresponding auxiliary agents and medicaments are added into the sludge treatment pool 3 by an auxiliary agent adding device 9 according to actual requirements, the auxiliary agents and the bottom mud are mixed under the stirring action of a stirrer 10, after a period of sedimentation and standing, supernatant liquid is discharged firstly, an output valve 33 is opened, the bottom mud in the sludge treatment pool 3 enters a plate and frame filter press 4 from an output pipe 32, residual water in the bottom mud is pressed and dried by the plate and frame filter press 4, water dripping outside is blocked and collected by a water receiving tray 17, and the water receiving tray 17 is moved away from the lower part of the plate and frame filter press 4 after the filter press is finished, the mud cake in the plate-and-frame filter press 4 falls into the mud cake frame 16, and the mud cake is ground and conveyed outwards by the conveying screw 18 and the slices in the mud cake frame 16.

Example two:

a comprehensive treatment system for squeezing bottom mud is different from the first embodiment in that a plurality of groups of treatment main bodies 1 are arranged in parallel as shown in a combined mode in fig. 5 and fig. 6, a conveying device 6 further comprises a horizontal feeding conveyor 62, a horizontal feeding belt 621 rotates on the feeding conveyor 62 in a circulating mode, the upper end of a feeding conveyor 61 is located above one end of the feeding belt 621, a distributing conveyor 63 is connected to the feeding conveyor 62 in a sliding mode along the length direction of the feeding conveyor 62, the distributing conveyor 63 comprises a distributing frame 631, the length direction of the distributing frame is perpendicular to the length direction of the feeding conveyor, and the distributing frame 631 is transversely arranged above the feeding conveyor 62. A material distributing and conveying roller 632 is rotatably connected to each end of the material distributing frame 631 in the length direction, a material distributing motor 633 for driving the material distributing and conveying roller 632 to rotate is arranged at one end of the material distributing frame 631, a material distributing belt 634 is circularly rotated by the two material distributing and conveying rollers 632, two traveling wheels 23 are rotatably connected to each side of the material distributing frame 631 in the width direction of the material conveying belt 621, the traveling wheels 23 are embedded and roll-connected to each side of the material conveying machine 62 in the width direction, a traveling motor 231 for driving the traveling wheels 23 to rotate is arranged on the material distributing frame 631, a separating assembly 24 for lifting the belt and forming a height difference with the material distributing belt and conveying bottom mud from the material conveying belt 621 to the upper side of the material distributing belt 634 is arranged at one side of the material distributing frame 631, the separating assembly 24 comprises a separating frame 241 which is connected to the side wall of the material distributing frame 631 and is inclined, the high end of the cutting frame 241 is higher than the upper part of the material distributing belt 634, a cutting roller 242 is rotatably connected with the high end of the cutting frame 241, a tension cylinder 243 is hinged below the breaking roll 242 of the breaking frame 241, a tension rod 245 which is rotatably connected with the breaking frame 241 is hinged to a piston rod of the tension cylinder 243, two tension rods 245 are symmetrically arranged, a tension roll 244 is rotatably connected between the two tension rods 245, a connecting line between the center of the tension roll 244 and the center of the breaking roll 242 is inclined, and the distance between the cutting roller 242 and the feed belt 634 is smaller than the distance between the tension roller 244 and the feed belt 634, during the conveying process, the feeding belt 621 sequentially winds around the breaking roller 242 and the tension roller 244, the outer wall of the breaking roller 242 abuts against the inner surface of the feeding belt 621, the outer wall of the tension roller 244 abuts against the outer surface of the feeding belt 621, and the feeding belt 621 is conveyed in an S shape by the tension roller 244 and the breaking roller 242.

The distributing conveyor 63 is moved to one of the shells 11, the substrate sludge is conveyed to the surface of the feeding belt 621 by the feeding conveying frame, because the feeding belt 621 conveys the substrate sludge to the surface of the distributing belt 634 due to the lifting action of the breaking assembly 24, and the substrate sludge is fed to the high-frequency vibrator 21 in the shell 11 by the distributing belt 634.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a bed mud squeezes integrated processing system which characterized by: comprises a processing main body (1), the processing main body (1) comprises a shell (11) and a base (12), a sand-stone separation device (2) is arranged at the upper end of the shell (11), a sludge treatment tank (3) communicated with the sand-stone separation device (2) and a plate-frame filter press (4) communicated with the sludge treatment tank (3) are sequentially arranged in the base (12) from top to bottom, the sand-stone separating device (2) comprises a high-frequency vibrator (21) fixedly connected with the shell (11), the base (12) is located within the housing (11) and is independent of the housing (11), the sludge treatment tank (3) and the plate-and-frame filter press (4) are fixed inside the base (12), a connecting mechanism (5) is detachably connected between the base (12) and the shell (11), the outer wall of the shell (11) is provided with a conveying device (6), and the upper end of the conveying device (6) is arranged above an upper opening of the shell (11).

2. The integrated processing system for pressing the bottom sludge as claimed in claim 1, which is characterized in that: high-frequency vibration machine (21) including separation casing (211), set up in separation casing (211) and be filter layer (212) of slope, connect in bobbing machine (213) of separation casing (211), separation casing (211) and shell (11) up end all are the upper shed setting, separation casing (211) are located filter layer (212) below and have seted up bed mud export (7), impurity export (8) that communicate in filter layer (212) top are seted up to separation casing (211) lateral wall.

3. The integrated processing system for pressing the bottom sludge as claimed in claim 2, which is characterized in that: the upper end in sludge treatment pond (3) communicates in bed mud export (7), base (12) are connected with and communicate in auxiliary agent interpolation device (9) in sludge treatment pond (3), auxiliary agent interpolation device (9) including connect in hopper (91) of base (12), communicate in communicating pipe (92) of hopper (91) and sludge treatment pond (3), set up in governing valve (93) of communicating pipe (92).

4. The integrated processing system for pressing the bottom sludge as claimed in claim 3, which is characterized in that: a stirrer (10) is arranged in the sludge treatment tank (3).

5. The integrated processing system for pressing the bottom sludge as claimed in claim 3, which is characterized in that: the sludge treatment device is characterized in that a discharge port (31) is formed in the bottom of the sludge treatment tank (3), an output pipe (32) is arranged at the discharge port (31), an output valve (33) is arranged on the output pipe (32), and one end, far away from the discharge port (31), of the output pipe (32) is communicated with an inlet of the plate-and-frame filter press (4).

6. The integrated processing system for pressing the bottom sludge as claimed in claim 5, which is characterized in that: the filter press is characterized in that a mud cake frame (16) is arranged below the plate-and-frame filter press (4) on the base (12), a water receiving tray (17) is arranged between the mud cake frame (16) and the lower part of the plate-and-frame filter press (4), the water receiving tray (17) is connected to the base (12) in a sliding mode along the horizontal direction, and the mud cake frame (16) is connected to the base (12) in a sliding mode.

7. The integrated processing system for pressing the bottom sludge as claimed in claim 6, which is characterized in that: the mud cake frame (16) inner wall is towards the center slope, mud cake frame (16) are located the minimum department of inner wall and rotate and are connected with a conveying screw (18), conveying screw (18) outer wall integrated into one piece has the section that is the spiral.

8. The integrated processing system for pressing the bottom sludge as claimed in claim 1, which is characterized in that: the connecting mechanism (5) comprises a plurality of connecting columns (51) hinged to the bottom end of the base (12) and used for sleeving the bottom of the shell (11), and clamping blocks (52) in threaded connection with the bottom of the shell (11) and located on the connecting columns (51) and playing a clamping role on the connecting columns (51) from top to bottom.

9. The integrated processing system for pressing the bottom sludge as claimed in claim 2, which is characterized in that: the processing main body (1) is provided with a plurality of groups in parallel, the conveying device (6) comprises an inclined feeding conveyor (61), a feeding conveyor (62) with one end positioned below the upper end of the feeding conveyor (61) and a horizontal feeding belt (621) in a circulating rotation mode, and a distributing conveyor (63) connected to the feeding conveyor (62) in a sliding mode along the conveying direction parallel to the feeding belt (621), wherein the distributing conveyor (63) comprises a circulating rotating distributing belt (634), a lifting feeding belt (621) and a distributing belt (634) to form a height difference, so that bottom mud falls to the distributing belt (634) and is conveyed to an opening on one of the shells (11).

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