CN112679027A - Water conservancy rubbish separation sewage treatment device - Google Patents

Abstract

The invention relates to a water conservancy device, in particular to a water conservancy garbage separation sewage treatment device, in water conservancy projects, sewage contains a large amount of recyclable resources, and resource waste and environmental pollution can be caused by random treatment.

Description

Water conservancy rubbish separation sewage treatment device

Technical Field

The invention relates to water conservancy equipment, in particular to water conservancy garbage separation sewage treatment equipment.

Background

In water conservancy projects, sewage contains a large amount of recyclable resources, and random treatment can cause resource waste and environmental pollution.

Disclosure of Invention

The invention aims to provide water conservancy garbage separation sewage treatment equipment which can be used for separating and utilizing various resources in sewage layer by layer.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a water conservancy rubbish separation sewage treatment device, collects assembly and mud-water separation assembly including filtering assembly, metal, filtering assembly and metal are collected the assembly and are connected, and the metal is collected the assembly and is connected with mud-water separation assembly.

As a further optimization of the technical scheme, the filtering combination body comprises a separating box I, separating pipelines, a converging inclined plate, a motor I sliding frame, a T-shaped chute, a motor I shaft, a reciprocating shaft, a friction wheel I, a friction wheel II, a bevel gear I, a bevel gear II shaft bracket, a sliding bracket, a limiting upper plate, a collision plate, a bevel gear III shaft, a friction wheel II, a friction wheel III, a walking gear, a fixed rack, a friction wheel IV shaft, a friction wheel V, a clamping clip, a clip bracket, a shovel connecting frame, a connecting frame sliding rail, a shovel, a filtering sieve plate, a water shielding plate I and a water shielding plate II, wherein the separating box I is connected with the two separating pipelines which are converged and connected with the inclined plate, the motor I is connected with the motor I sliding frame, and the motor I sliding groove is connected with the T-shaped, the T-shaped chute is positioned in the side wall of the separation box I, the motor I is connected with the shaft of the motor I, the shaft of the motor I is rotationally connected with the reciprocating shaft and embedded in the reciprocating shaft, the shaft of the motor I is connected with the friction wheel I, the shaft of the friction wheel II is connected with the shaft of the friction wheel II, the shaft of the friction wheel II is connected with the bevel gear I, the bevel gear I is meshed with the bevel gear II, the shaft of the bevel gear II is connected with the shaft bracket of the bevel gear II, the shaft bracket of the bevel gear II is rotationally connected with the shaft bracket of the bevel gear II, the shaft bracket of the bevel gear II is connected with the sliding bracket, the limiting upper plate, the collision plate and the fixed rack are all connected with the separation box I, the limiting upper plate is slidably connected with the sliding bracket, the bevel gear II is meshed with the bevel gear III, the shaft of the bevel gear III is rotationally connected with the shaft of the bevel gear III, the friction wheel III is connected with a reciprocating shaft, the reciprocating shaft is connected with a collision plate in a sliding mode, the reciprocating shaft is connected with a walking gear, the walking gear is meshed with a fixed rack, a friction wheel IV is connected with a friction wheel IV shaft, the friction wheel IV shaft is connected with a sliding support, the friction wheel IV shaft is connected with a friction wheel V, a clamping clamp is connected with a clamp support, the clamp support is connected with a sliding frame of a motor I, a shovel connecting frame is rotationally connected with the reciprocating shaft and sliding rails of the connecting frame, the connecting frame sliding rails are located on two sides of a separation box I, the shovel connecting frame is connected with a shovel, the shovel is in contact with a filter sieve plate, and the filter sieve plate, a water shielding plate I and a water shielding plate II are connected with the separation box I.

As a further optimization of the technical scheme, the metal collection assembly comprises a motor II, a motor II shaft, a belt wheel I shaft, magnetic rollers, a gear I, a gear II shaft, a fan-shaped friction wheel, a turning friction wheel I, a turning friction wheel II shaft, a turning friction wheel I shaft, a metal shovel, a spring fixing plate, a spring I, a belt wheel II, a belt II, a collection plate and a belt wheel II shaft, wherein the motor II is connected with a separation box I, the motor II is connected with the motor II shaft, the motor II shaft is connected with the belt wheel I, two belt wheels I are connected through the belt I, one belt wheel I is connected with the belt wheel I shaft, the motor II shaft is connected with the gear I, the gear I is meshed with the gear II, the gear II shaft is connected with the gear II shaft, the motor II shaft and the gear II shaft are respectively connected with the two magnetic rollers, the first shaft of the belt wheel, the second shaft of the motor and the second shaft of the gear are all rotationally connected with a separation box I, the first shaft of the belt wheel is connected with a fan-shaped friction wheel, the fan-shaped friction wheel is contacted with a turning friction wheel I, the turning friction wheel I is contacted with a turning friction wheel II, the turning friction wheel II is connected with a turning friction wheel II, the turning friction wheel I is connected with a turning friction wheel I, the first shaft of the turning friction wheel is rotationally connected with the separation box I, a spring fixing plate is connected with a spring I, the spring I is connected with a metal shovel, the spring I is in a normal state, the first shaft of the turning friction wheel is connected with a second shaft of the belt wheel, the two belt wheels II are connected through a belt II, the second shaft of the belt wheel II is connected with the second shaft of the belt wheel II, the second shafts of the belt wheel II and the turning friction wheel II are respectively connected with the two metal shovels, the second, two collecting plates are all connected with the separation box I.

As a further optimization of the technical scheme, the mud-water separation assembly comprises a mud-water separation assembly body which comprises a separation box II, a double-head servo motor, a double-head motor support, a friction sliding plate, a threaded shaft with a groove, a threaded support, a belt winding roller, a pull belt, a fixed pulley, a press plate support lug, a press plate, a limit slider, a spring limit rod, a spring II, a limit rod support, a double-head motor shaft, a shifting tooth, a spring III, a ratchet sleeve, a sleeve shaft support, a bevel gear IV, a bevel gear V shaft, a belt wheel III, a belt wheel shaft, a transmission bottom plate, a belt wheel IV shaft, a disc, a connecting rod, a residue push-out frame, an extrusion rod and a mud-water separation screen, wherein the separation box I is connected with the, the transmission bottom plate is connected with the mud-water separation screen, the mud-water separation screen is connected with the separation box II, one end of the double-head servo motor is connected with the friction sliding plate, the friction sliding plate is connected with the threaded shaft with the groove in a sliding manner, the threaded shaft with the groove is connected with the threaded support in a threaded manner, the threaded support is connected with the separation box II, the threaded shaft with the groove is connected with the winding roller, the winding roller is connected with the drawstring, the drawstring is contacted with the fixed pulley, the fixed pulley is rotatably connected with the separation box II, the drawstring is connected with the pressure plate support lug, the pressure plate support lug is connected with the pressure plate, the pressure plate is connected with the separation box II in a sliding manner, the limiting slide block is connected with the spring limiting rod, the spring II is sleeved on the spring, the limiting rod support is connected with the separation box II, the other end of the double-end servo motor is connected with the double-end motor shaft, the double-end motor shaft is rotationally connected with the shifting teeth, two ends of the spring III are respectively connected with the shifting teeth, the double-end motor shaft is connected, the spring III is in a compression state, the shifting teeth are contacted with the ratchet sleeve, the ratchet sleeve is connected with the sleeve shaft, the sleeve shaft is rotationally connected with the sleeve shaft support, the sleeve shaft support is connected with the double-end motor support, the sleeve shaft is connected with the bevel gear IV, the bevel gear IV is meshed with the bevel gear V, the bevel gear V is connected with the bevel gear V, the bevel gear V is rotationally connected with the double-end motor support, the bevel gear V is connected with the belt wheel III, two belt wheels III are connected through a belt III, one belt wheel III is rotationally connected with the belt wheel III, the two belt wheels IV are connected through a belt IV, one belt wheel IV is connected with a shaft of the belt wheel IV, the shaft of the belt wheel IV is rotatably connected with the transmission bottom plate, the shaft of the belt wheel IV is connected with a disc, the disc is hinged with a connecting rod, the connecting rod is hinged with a residue push-out frame, the residue push-out frame is in sliding connection with the separation box II, and the extrusion rods are connected with the separation box II.

As a further optimization of the technical scheme, the mud-water separation assembly is characterized in that a friction wheel is arranged in the tangential direction of the disc and is tangent to the disc, and a waterproof pressure sensor is arranged on the mud-water separation screen.

The water conservancy garbage separation sewage treatment equipment has the beneficial effects that: in with sewage injection apparatus, the filtering assembly can be retrieved massive rubbish and sewage separation, the resource recovery of the follow-up flow of being convenient for, and the metal is collected the assembly and can be collected the ferromagnetism metal separation in the sewage, and mud-water separation assembly can compress into the cake with the silt in the sewage to clear water after will filtering discharges, accomplishes sewage treatment.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the first embodiment of the filter assembly 1 of the present invention;

FIG. 3 is a schematic view of the structure of the filtering assembly 1 of the present invention;

FIG. 4 is a cross-sectional view of the filter assembly 1 of the present invention;

FIG. 5 is a schematic view of the structure of the filter assembly 1 of the present invention;

FIG. 6 is a second sectional view of the filter assembly 1 according to the present invention;

FIG. 7 is a fourth schematic view of the structure of the filter assembly 1 according to the invention;

FIG. 8 is a schematic view of the structure of the filter assembly 1 of the present invention;

fig. 9 is a structural section view three of the filtering assembly 1 of the present invention;

fig. 10 is a schematic view six of the structure of the filtering assembly 1 according to the invention;

FIG. 11 is a first schematic view of the metal collection assembly 2 of the present invention;

FIG. 12 is a second schematic structural view of the metal collection assembly 2 of the present invention;

FIG. 13 is an enlarged schematic view of the structure of the metal collection assembly 2 of the present invention;

FIG. 14 is a first schematic structural view of the mud-water separation assembly 3 of the present invention;

FIG. 15 is a second schematic structural view of the mud-water separation assembly 3 of the present invention;

FIG. 16 is a third schematic structural view of the mud-water separation assembly 3 of the present invention;

FIG. 17 is a fourth schematic structural view of the mud-water separation assembly 3 of the present invention;

FIG. 18 is a structural sectional view of the mud-water separating assembly 3 of the present invention;

in the figure: a filtering assembly 1; a separation box I1-1; a separation line 1-2; converging inclined plates 1-3; 1-4 of a motor; a sliding frame 1-5 of a motor I; 1-6 of T-shaped chutes; 1-7 shafts of a motor I; 1-8 parts of a reciprocating shaft; 1-9 parts of a friction wheel; 1-10 parts of a friction wheel II; 1-11 of a friction wheel II shaft; 1-12 parts of a bevel gear I; bevel gears II 1-13; bevel gear II shafts 1-14; bevel gear II shaft supports 1-15; sliding supports 1-16; a limiting upper plate 1-17; 1-18 of a striking plate; bevel gears III 1 to 19; 1-20 shafts of bevel gear III; 1-21 parts of a friction wheel II; friction wheels III 1-22; 1-23 of a traveling gear; fixing racks 1-24; 1-25 parts of a friction wheel IV; 1-26 parts of friction wheel IV shaft; friction wheels V1-27; clamping the clips 1-28; clip supports 1-29; 1-30 parts of a shovel connecting frame; connecting frame slide rails 1-31; 1-32 parts of a shovel; 1-33 parts of a filter sieve plate; 1-34 parts of a water shielding plate; (ii) a 1-35 parts of a water shielding plate; (ii) a A metal collection assembly 2; a motor II 2-1; 2-2 of a motor II shaft; a belt wheel I2-3; 2-4 parts of a belt I; 2-5 shafts of belt wheels I; 2-6 parts of a magnetic roller; 2-7 parts of a gear I; 2-8 parts of a gear II; 2-9 of a gear II shaft; 2-10 of a fan-shaped friction wheel; the turning friction wheels I2-11; direction changing friction wheels II 2-12; a direction-changing friction wheel II shaft 2-13; a direction-changing friction wheel I shaft 2-14; 2-15 parts of a metal shovel; spring fixing plates 2-16; 2-17 parts of a spring; belt wheels II 2-18; 2-19 parts of a belt II; 2-20 parts of a collecting plate; 2-21 of a belt wheel II shaft; a mud-water separation assembly 3; a separation box II 3-1; a double-head motor 3-2; 3-3 of a double-head motor bracket; a friction sliding plate 3-4; 3-5 of a threaded shaft with a groove; 3-6 parts of a threaded support; 3-7 of a tape winding roller; 3-8 of a drawstring; 3-9 parts of a fixed pulley; 3-10 of a pressure plate support lug; 3-11 parts of a pressing plate; 3-12 parts of a limiting slide block; 3-13 parts of a spring limiting rod; 3-14 parts of a spring II; 3-15 parts of a limiting rod bracket; a double-end motor shaft 3-16; 3-17 of shifting teeth; 3-18 parts of a spring; ratchet sleeve 3-19; 3-20 parts of a sleeve shaft; a quill shaft support 3-21; bevel gears IV 3-22; bevel gears V3-23; bevel gear V shaft 3-24; 3-25 of a belt wheel III; belts III 3 to 26; 3-27 of a belt wheel III shaft; transmission bottom plates 3-28; pulley IV 3-29; 3-30 parts of a belt IV; 3-31 of a pulley IV shaft; 3-32 of a disc; 3-33 of a connecting rod; connecting rods II 3-34; 3-35 parts of an extrusion rod; 3-36 parts of mud-water separation screen mesh; residue push-out rack 3-37.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 18, and a water conservancy waste separation sewage treatment device includes a water conservancy waste separation sewage treatment device, which includes a filtering assembly 1, a metal collection assembly 2, and a mud-water separation assembly 3, where the filtering assembly 1 is connected to the metal collection assembly 2, and the metal collection assembly 2 is connected to the mud-water separation assembly 3.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1-18, and the present embodiment will further describe the first embodiment, wherein the filtering assembly 1 includes a separation box i 1-1, a separation pipeline 1-2, a converging inclined plate 1-3, a motor i 1-4, a motor i carriage 1-5, a T-shaped chute 1-6, a motor i shaft 1-7, a reciprocating shaft 1-8, a friction wheel i 1-9, a friction wheel ii 1-10, a friction wheel ii shaft 1-11, a bevel gear i 1-12, a bevel gear ii 1-13, a bevel gear ii shaft 1-14, a bevel gear ii shaft bracket 1-15, a sliding bracket 1-16, a limiting upper plate 1-17, a collision plate 1-18, a bevel gear 1-19, a bevel gear iii shaft 1-20, a friction wheel ii 1-21, a bevel gear ii shaft bracket 1-15, a limiting upper plate 1-17, a, 1-22 parts of friction wheel III, 1-23 parts of traveling gear, 1-24 parts of fixed rack, 1-25 parts of friction wheel IV, 1-26 parts of friction wheel IV shaft, 1-27 parts of friction wheel V, 1-28 parts of clamping clip, 1-29 parts of clip bracket, 1-30 parts of shovel connecting frame, 1-31 parts of connecting frame slide rail, 1-32 parts of shovel, 1-33 parts of filter sieve plate, 1-34 parts of water shielding plate and 1-35 parts of water shielding plate, wherein the separating box I1-1 is connected with two separating pipelines 1-2, the two separating pipelines 1-2 are connected with converging inclined plates 1-3, the motor I1-4 is connected with 1-5 parts of motor I carriage, 1-5 parts of motor I carriage are connected with 1-6 parts of T-shaped chute, 1-6 parts of T-shaped chute are positioned in the side wall of separating box I1-1, the motor I1-4 is connected with a motor I shaft 1-7, the motor I shaft 1-7 is rotationally connected with a reciprocating shaft 1-8 and is embedded in the reciprocating shaft 1-8, the motor I shaft 1-7 is connected with a friction wheel I1-9, the friction wheel II 1-10 is connected with a friction wheel II shaft 1-11, the friction wheel II shaft 1-11 is connected with a bevel gear I1-12, the bevel gear I1-12 is in meshing connection with a bevel gear II 1-13, the bevel gear II 1-13 is connected with a bevel gear II shaft 1-14, the bevel gear II shaft 1-14 is rotationally connected with a bevel gear II shaft bracket 1-15, the bevel gear II shaft bracket 1-15 is connected with a sliding bracket 1-16, the limiting upper plate 1-17, the collision plate 1-18 and the fixed rack 1-24 are all connected with the separation box I1-1, the limiting upper plate 1-17 is connected with the sliding support 1-16 in a sliding way, the bevel gear II 1-13 is connected with the bevel gear III 1-19 in a meshing way, the bevel gear III 1-19 is connected with the bevel gear III shaft 1-20, the friction wheel II shaft 1-11 is connected with the bevel gear III shaft 1-20 in a rotating way and is embedded into the bevel gear III shaft 1-20, the bevel gear III shaft 1-20 is connected with the friction wheel II 1-21, the bevel gear III shaft 1-20 is connected with the sliding support 1-16 in a rotating way, the friction wheel III 1-22 is connected with the reciprocating shaft 1-8, the reciprocating shaft 1-8 is connected with the collision plate 1-18 in a sliding way, the reciprocating shaft 1-8 is connected with the walking gear 1-23, the walking gear 1-23 is connected with the fixed rack 1-24 in a meshing way, the friction wheel IV 1-25 is connected with the friction, the friction wheel IV shaft 1-26 is connected with the sliding support 1-16, the friction wheel IV shaft 1-26 is connected with the friction wheel V1-27, the clamping clip 1-28 is connected with the clip support 1-29, the clip support 1-29 is connected with the sliding frame 1-5 of the motor I, the shovel connecting frame 1-30 is rotatably connected with the reciprocating shaft 1-8, the shovel connecting frame 1-30 is slidably connected with the connecting frame sliding rail 1-31, the connecting frame sliding rail 1-31 is positioned at two sides of the separation box I1-1, the shovel connecting frame 1-30 is connected with the shovel 1-32, the shovel 1-32 is contacted with the filtering screen plate 1-33, the filtering screen plate 1-33 and the water shielding plate I1-34, and the water shielding plates II 1-35 are connected with the separation box I1-1.

The third concrete implementation mode:

the embodiment is described below by combining with figures 1-18, and the embodiment is further described, wherein the metal collection assembly 2 comprises a motor II 2-1, a motor II shaft 2-2, a belt wheel I2-3, a belt I2-4, a belt wheel I shaft 2-5, a magnetic roller 2-6, a gear I2-7, a gear II 2-8, a gear II shaft 2-9, a sector friction wheel 2-10, a direction-changing friction wheel I2-11, a direction-changing friction wheel II 2-12, a direction-changing friction wheel II shaft 2-13, a direction-changing friction wheel I shaft 2-14, a metal shovel 2-15, a spring fixing plate 2-16, a spring I2-17, a belt wheel II 2-18, a belt II 2-19, a collection plate 2-20 and a belt wheel II shaft 2-21, the motor II 2-1 is connected with the separation box I1-1, the motor II 2-1 is connected with the motor II shaft 2-2, the motor II shaft 2-2 is connected with the belt wheel I2-3, the belt wheel I2-3 is provided with two belt wheels I2-3, the two belt wheels I2-3 are connected through a belt I2-4, one belt wheel I2-3 is connected with the belt wheel I shaft 2-5, the motor II shaft 2-2 is connected with the gear I2-7, the gear I2-7 is meshed with the gear II 2-8, the gear II 2-8 is connected with the gear II shaft 2-9, the motor II shaft 2-2 and the gear II shaft 2-9 are respectively connected with the two magnetic rollers 2-6, the belt wheel I shaft 2-5, the motor II shaft 2-2 and the gear II shaft 2-9 are all rotatably connected with the separation box I1-1, a belt wheel I shaft 2-5 is connected with a fan-shaped friction wheel 2-10, the fan-shaped friction wheel 2-10 is in contact with a direction-changing friction wheel I2-11, the direction-changing friction wheel I2-11 is in contact with a direction-changing friction wheel II 2-12, the direction-changing friction wheel II 2-12 is connected with a direction-changing friction wheel II shaft 2-13, the direction-changing friction wheel I2-11 is connected with a direction-changing friction wheel I shaft 2-14, the direction-changing friction wheel I shaft 2-14 is rotatably connected with a separation box I1-1, a spring fixing plate 2-16 is connected with a spring I2-17, the spring I2-17 is connected with a metal shovel 2-15, the spring fixing plate 2-16 is connected with the separation box I1-1, the spring I2-17 is in a normal state, the direction-changing friction wheel I shaft 2-14 is, two belt wheels II 2-18 are arranged, two belt wheels II 2-18 are connected through a belt II 2-19, one belt wheel II 2-18 is connected with a belt wheel II shaft 2-21, a belt wheel II shaft 2-21 and a direction-changing friction wheel II shaft 2-13 are respectively connected with two metal shovels 2-15, the belt wheel II shaft 2-21 and the direction-changing friction wheel II shaft 2-13 are rotatably connected with a separation box I1-1, and two collecting plates 2-20 are connected with the separation box I1-1.

The fourth concrete implementation mode:

the following describes the embodiment with reference to fig. 1 to 18, and the embodiment further describes the first embodiment, where the mud-water separation assembly 3 includes a mud-water separation assembly 3 including a separation box ii 3-1, a double-headed servo motor 3-2, a double-headed motor bracket 3-3, a friction sliding plate 3-4, a grooved threaded shaft 3-5, a threaded bracket 3-6, a belt winding roller 3-7, a draw belt 3-8, a fixed pulley 3-9, a press plate support lug 3-10, a press plate 3-11, a limit slider 3-12, a spring limit rod 3-13, a spring ii 3-14, a limit rod bracket 3-15, a double-headed motor shaft 3-16, a shift tooth 3-17, a spring iii 3-18, a ratchet sleeve 3-19, a sleeve shaft 3-20, a ratchet sleeve shaft 3, 3-21 parts of a sleeve shaft bracket, 3-22 parts of a bevel gear IV, 3-23 parts of a bevel gear V, 3-24 parts of a bevel gear V shaft, 3-25 parts of a belt wheel III, 3-26 parts of a belt wheel III, 3-27 parts of a belt wheel III shaft, 3-28 parts of a transmission bottom plate, 3-29 parts of a belt wheel IV, 3-30 parts of a belt wheel IV shaft, 3-31 parts of a belt wheel IV shaft, 3-32 parts of a disc, 3-33 parts of a connecting rod, 3-34 parts of a residue push-out frame, 3-35 parts of an extrusion rod and 3-36 parts of a mud-water separation screen, wherein a separation box I1-1 is connected with a separation box II 3-1, a double-head servo motor 3-2 is connected with a double-head motor bracket 3-3, the double-head motor bracket 3-28 is connected with the transmission bottom plate 3-28, one end of a double-head servo motor 3-2 is connected with a friction sliding plate 3-4, the friction sliding plate 3-4 is connected with a threaded shaft with a groove 3-5 in a sliding manner, the threaded shaft with a groove 3-5 is connected with a threaded bracket 3-6 in a threaded manner, the threaded bracket 3-6 is connected with a separation box II 3-1, the threaded shaft with a groove 3-5 is connected with a winding roller 3-7, the winding roller 3-7 is connected with a drawstring 3-8, the drawstring 3-8 is contacted with a fixed pulley 3-9, the fixed pulley 3-9 is rotationally connected with the separation box II 3-1, the drawstring 3-8 is connected with a pressure plate support lug 3-10, the pressure plate support lug 3-10 is connected with a pressure plate 3-11, the pressure plate 3-11 is connected with the separation box II 3-1 in a sliding manner, a limiting slide block 3-12, the limiting slide block 3-12 is connected with a spring limiting rod 3-13, a spring II 3-14 is sleeved on the spring limiting rod 3-13, two ends of the spring II 3-14 are respectively connected with the limiting slide block 3-12 and a limiting rod bracket 3-15, the spring II 3-14 is in a compressed state, the spring limiting rod 3-13 is in sliding connection with the limiting rod bracket 3-15, the limiting rod bracket 3-15 is connected with a separation box II 3-1, the other end of a double-head servo motor 3-2 is connected with a double-head motor shaft 3-16, the double-head motor shaft 3-16 is in rotating connection with a shifting tooth 3-17, two ends of the spring III 3-18 are respectively connected with the shifting tooth 3-17 and the double-head motor shaft 3-16, the spring III 3-18 is in a compressed state, and the shifting tooth 3-17 is in contact with a, the ratchet sleeve 3-19 is connected with a sleeve shaft 3-20, the sleeve shaft 3-20 is rotationally connected with a sleeve shaft support 3-21, the sleeve shaft support 3-21 is connected with a double-head motor support 3-3, the sleeve shaft 3-20 is connected with a bevel gear IV 3-22, the bevel gear IV 3-22 is meshed with a bevel gear V3-23, the bevel gear V3-23 is connected with a bevel gear V shaft 3-24, the bevel gear V shaft 3-24 is rotationally connected with the double-head motor support 3-3, the bevel gear V shaft 3-24 is connected with belt wheels III 3-25, two belt wheels III 3-25 are arranged on the belt wheels III 3-25, two belt wheels III 3-25 are connected through a belt III 3-26, one belt wheel III 3-25 is rotationally connected with a belt wheel III shaft 3-27, the belt wheel III shaft 3-27 is rotationally connected with a transmission bottom, the belt wheel III shaft 3-27 is connected with the belt wheels IV 3-29, two belt wheels IV 3-29 are arranged, two belt wheels IV 3-29 are connected through a belt IV 3-30, one belt wheel IV 3-29 is connected with the belt wheel IV shaft 3-31, the belt wheel IV shaft 3-31 is rotatably connected with the transmission bottom plate 3-28, the belt wheel IV shaft 3-31 is connected with the disc 3-32, the disc 3-32 is hinged with the connecting rod 3-33, the connecting rod 3-33 is hinged with the residue push-out frame 3-34, the residue push-out frame 3-34 is connected with the separation box II 3-1 in a sliding mode, and the extrusion rods 3-35 are all connected with the separation box II 3-1.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 18, and the embodiment further describes the first embodiment, in the mud-water separation assembly, a friction wheel is arranged in the tangential direction of a disc and is tangent to the disc, and a waterproof pressure sensor is arranged on a mud-water separation screen.

The invention relates to water conservancy garbage separation sewage treatment equipment, which has the working principle that: adding sewage into the separation box I1-1 along the upper part of the separation box I1-1, filtering large-volume garbage by a filtering sieve plate 1-33, falling on the filtering sieve plate 1-33 and being incapable of moving downwards, starting a motor I1-4, driving a motor I shaft 1-7 to rotate by the motor I1-4, driving a friction wheel I1-9 to rotate by the motor I shaft 1-7, clamping a clamp 1-28 on a friction wheel II shaft 1-11, meshing the friction wheel I1-9 with the friction wheel II 1-10, driving the friction wheel II shaft 1-11 to rotate by the friction wheel II shaft 1-11, driving a bevel gear I1-12 to rotate by the bevel gear I1-12, driving a bevel gear III 1-19 to rotate oppositely through the bevel gear II 1-13, driving the bevel gear III shaft 1-20 to rotate by the bevel gear III 1-19, a shaft 1-20 of a bevel gear III drives a friction wheel II 1-21 to rotate, the friction wheel II 1-21 drives a friction wheel III 1-22 to rotate, the friction wheel III 1-22 drives a reciprocating shaft 1-8 to rotate, the reciprocating shaft 1-8 drives a walking gear 1-23 to rotate, the walking gear 1-23 moves forwards along a track of a fixed rack 1-24, the walking gear 1-23 drives a reciprocating shaft 1-8, a shaft 1-7 of a motor I, a shaft 1-4 of a motor I, a sliding rack 1-5 of a motor I, a clamp bracket 1-29, a clamp 1-28, a shaft 1-11 of the friction wheel II and a sliding bracket 1-16 move forwards along a track of the fixed rack 1-24, and the reciprocating shaft 1-8 drives a shovel connecting rack 1-30 to slide along a connecting rack sliding rail 1-31, the shovel connecting frame 1-30 drives a shovel 1-32 to shovel garbage on a filter sieve plate 1-33 into a separation pipeline 1-2 at one end, when a sliding support 1-16 collides with a collision plate 1-18, the sliding support 1-16 does not move, under the action of inertia force, a motor I1-4, a carriage 1-5 of a motor I, a clamping clip 1-28 and a clip support 1-29 continue to move forwards, the clamping clip 1-28 at one end is not positioned on a clamping friction wheel II shaft 1-11, the clamping clip 1-28 at one end clamps a friction wheel IV shaft 1-26, at the moment, a friction wheel I1-9 is meshed with a friction wheel V1-27, the friction wheel I1-9 drives the friction wheel V1-27 to rotate, and the friction wheel V1-27 drives the friction wheel IV shaft 1-26 to rotate, the friction wheel IV shaft 1-26 drives the friction wheel IV 1-25 to rotate, the friction wheel IV 1-25 drives the friction wheel III 1-22 to rotate, the friction wheel III 1-22 rotates in the opposite direction to the forward rotation direction without collision, the walking gear 1-23 rotates in the reverse direction, the transmission process from the walking gear 1-23 to the shovel 1-32 is repeated, the shovel 1-32 moves in the reverse direction to shovel the garbage on the surface of the filter sieve plate 1-33 into the separation pipeline 1-2 on the other side, the garbage in the separation pipelines 1-2 on the two sides slides down along the separation pipeline 1-2 under the action of gravity to be discharged in the confluence inclined plate 1-3 to complete separation, the sliding motor of the sliding frame 1-5 of the motor I in the T-shaped sliding chute 1-6 can not generate deflection, and the sliding support 1-16 is limited by the limiting upper plate 1-17 and can not, the axial limit of a reciprocating shaft 1-8 in a sliding support 1-16 can not be displaced, the limit of the reciprocating shaft 1-8 by a shovel 1-32 can not be inclined, the sewage after large garbage is removed contains recyclable ferromagnetic metal which is blocked by a water shielding plate II 1-35 and falls on two magnetic rollers 2-6 and is adsorbed by the magnetic rollers 2-6, a motor II 2-1 is started, the motor II 2-1 drives a motor II shaft 2-2 to block, the motor II shaft 2-2 drives a gear I2-7 to rotate, the gear I2-7 drives a gear II 2-8 to rotate, the gear II 2-8 drives a gear II shaft 2-9 to rotate, the gear II shaft 2-9 and the motor II shaft 2-2 respectively drive the two magnetic rollers 2-6 to rotate towards opposite outward directions, the motor II shaft 2-2 drives the belt wheel I2-3 to rotate, the two belt wheels I2-3 drive the belt wheel I shaft 2-5 to rotate through the belt I2-4, the belt wheel I shaft 2-5 drives the fan-shaped friction wheel 2-10 to rotate, the fan-shaped friction wheel 2-10 drives the turning friction wheel I2-11 to rotate, the turning friction wheel I2-11 drives the turning friction wheel II 2-12 to rotate reversely, the turning friction wheel II 2-12 drives the turning friction wheel II shaft 2-13 to rotate, the turning friction wheel I2-11 drives the turning friction wheel I shaft 2-14 to rotate, the turning friction wheel I shaft 2-14 drives the belt wheel II 2-18 to rotate, the two belt wheels II 2-18 drive the belt wheel II shaft 2-21 to rotate through the belts II 2-19, and the turning friction wheel II shaft 2-13 to rotate, The shafts 2-21 of the belt wheels II are oppositely rotated to respectively drive the two metal shovels 2-15 to simultaneously rotate inwards, after the two metal shovels 2-15 are contacted with the two magnetic rollers 2-6 which rotate outwards, the two metal shovels 2-15 can not continuously rotate, the two metal shovels 2-15 are tightly attached to the magnetic rollers 2-6 under the action of friction transmission to shovel down the metal on the surface of the magnetic rollers 2-6, after the fan-shaped friction wheel 2-10 is not contacted with the turning friction wheel I2-11, under the action of the tension of the spring I2-17, the two metal shovels 2-15 are reset to transport the shoveled ferromagnetic metal to the two collecting plates 2-20 to complete separation, only sludge is left in the sewage after the separation is completed, the sludge falls on the pressing plates 3-11, the pressing plates 3-11 drive the sliding blocks 3-12 to gradually slide towards the outside the separation box II 3-1 by limiting positions, 3-14 of a spring, when the spring II 3-14 is compressed to the maximum, the limiting slide block 3-12 does not limit the pressure plate 3-11, under the action of gravity, the sludge and the pressure plate 3-11 naturally fall, the pressure plate 3-11 drives the drawstring 3-8 to extend through the pressure plate support lug 3-10, the drawstring 3-8 drives the belt winding roller 3-7 to the maximum, the belt winding roller 3-7 drives the threaded shaft with a groove 3-5 to rotate, under the action of the thread support 3-6, the threaded shaft with a groove 3-5 horizontally rotates, the threaded shaft with a groove 3-5 drives the friction sliding plate 3-4 to rotate, under the action of the friction force with the friction sliding plate 3-4, the falling speed of the pressure plate 3-11 is smaller than the falling speed of the sludge, and when the sludge completely falls to the bottom, the pressing plate 3-11 falls to the position of the extrusion rod 3-35 and is connected with the extrusion rod 3-35 in a sliding mode, only the mud-water separation screen 3-36 is not sealed at the bottom of the separation box II 3-1 at the moment, sludge cannot pass through the mud-water separation screen 3-36, water is discharged through the mud-water separation screen 3-36 under the pressure action of the pressing plate 3-11, sludge residues are left at the upper part of the mud-water separation screen 3-36, when the friction sliding plate 3-4 is driven to rotate by the grooved threaded shaft 3-5, the friction sliding plate 3-4 drives the double-end motor shaft 3-16 at the other end to rotate through the double-end servo motor 3-2, the double-end motor shaft 3-16 drives the shifting teeth 3-17 to rotate, the shifting teeth 3-17 are compressed by the rotating shaft rotating spring III 3-18, and the shifting teeth 3, the mud-water separation screen 3-36 is provided with a waterproof pressure sensor, when the pressure plate 3-11 reaches a set pressure to the waterproof pressure sensor, the pressure sensor controls the double-head servo motor 3-2 to reversely rotate, the double-head servo motor 3-2 stops rotating after rotating for a preset number of turns, the double-head servo motor 3-2 drives the threaded shaft with a groove 3-5 and the belt winding roller 3-7 to rotate through the friction sliding plate 3-4 to wind the draw belt 3-8, the draw belt 3-8 drives the pressure plate 3-11 to move upwards through the pressure plate support lug 3-10, when the upper part of the pressure plate 3-11 is contacted with the limit slide block 3-12, the limit slide block 3-12 slides outwards again, when the pressure plate 3-11 rises to the upper part of the limit slide block 3-12, the draw belt 3-8 is, the double-end servo motor 3-2 stops rotating, the press plate 3-11 is supported by the limiting slide block 3-12 again to wait for the next sludge to exceed the limited rotation, when the double-end servo motor 3-2 rotates reversely, the double-end servo motor 3-2 drives the double-end motor shaft 3-16 to rotate, the double-end motor shaft 3-16 drives the ratchet sleeve 3-19 to rotate through the shifting teeth 3-17, the ratchet sleeve 3-19 drives the sleeve shaft 3-20 to rotate, the sleeve shaft 3-20 drives the bevel gear IV 3-22 to rotate, the bevel gear IV 3-22 drives the bevel gear V3-23 to rotate, when the bevel gear IV 3-22 rotates for a specified number of turns, the bevel gear V3-23 drives the bevel gear V shaft 3-24 to rotate, the bevel gear V shaft 3-24 drives the belt wheel III 3-25 to rotate, two belt wheels III 3-25 drive shafts 3-27 of a belt wheel III to rotate through belts III 3-26, shafts 3-27 of the belt wheel III drive shafts 3-29 of a belt wheel IV, two belt wheels IV 3-29 drive shafts 3-31 of the belt wheel IV through belts IV 3-30 to rotate, shafts 3-31 of the belt wheel IV drive discs 3-32 to rotate, discs 3-32 drive connecting rods 3-33 to rotate, connecting rods 3-33 drive residue pushing frames 3-34 to push sludge and residues out of the equipment in a reciprocating mode, the sludge and residues are reset after residue separation is completed, friction wheels are arranged in the tangential direction of the discs 3-32 and are tangent to the discs 3-32, the damping of the friction wheel and the disc 3-32 can be adjusted according to requirements, and the pressure unevenness which can be generated in the process of pressing down the pressure plate 3-11 is prevented from causing the pressure plate 3-11 to pop out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a water conservancy rubbish separation sewage treatment device, collects assembly (2) and mud-water separation assembly (3) including filtering assembly (1), metal, its characterized in that: the filtering assembly (1) is connected with the metal collecting assembly (2), and the metal collecting assembly (2) is connected with the mud-water separating assembly (3).

2. The water conservancy rubbish separation sewage treatment device of claim 1, characterized in that: the filtering assembly (1) comprises a separating box I (1-1), a separating pipeline (1-2), a converging inclined plate (1-3), a motor I (1-4), a sliding frame I (1-5) of the motor I, a T-shaped sliding groove (1-6), a shaft I (1-7) of the motor I, a reciprocating shaft (1-8), a friction wheel I (1-9), a friction wheel II (1-10), a shaft II (1-11) of the friction wheel, a bevel gear I (1-12), a bevel gear II (1-13), a shaft II (1-14) of the bevel gear, a shaft bracket II (1-15) of the bevel gear, a sliding bracket (1-16), a limiting upper plate (1-17), a collision plate (1-18), a bevel gear III (1-19), a shaft III (1-20) of the bevel gear, a friction wheel II (1-21), Friction wheel III (1-22), walking gear (1-23), fixed rack (1-24), friction wheel IV (1-25), friction wheel IV shaft (1-26), friction wheel V (1-27), clamping clip (1-28), clip support (1-29), shovel link (1-30), link slide rail (1-31), shovel (1-32), filter sieve plate (1-33), water shield I (1-34) and water shield II (1-35), separating box I (1-1) is connected with two separating pipelines (1-2), two separating pipelines (1-2) are connected with converging inclined plate (1-3), motor I (1-4) is connected with motor I carriage (1-5), motor I carriage (1-5) is connected with T-shaped chute (1-6) in a sliding way, the T-shaped chute (1-6) is positioned in the side wall of the separation box I (1-1), the motor I (1-4) is connected with a motor I shaft (1-7), the motor I shaft (1-7) is rotationally connected with a reciprocating shaft (1-8) and embedded into the reciprocating shaft (1-8), the motor I shaft (1-7) is connected with a friction wheel I (1-9), the friction wheel II (1-10) is connected with a friction wheel II shaft (1-11), the friction wheel II shaft (1-11) is connected with a bevel gear I (1-12), the bevel gear I (1-12) is meshed with a bevel gear II (1-13), the bevel gear II (1-13) is connected with a bevel gear II shaft (1-14), the bevel gear II shaft (1-14) is rotationally connected with a bevel gear II shaft bracket (1-15), a bevel gear II shaft support (1-15) is connected with a sliding support (1-16), a limiting upper plate (1-17), a collision plate (1-18) and a fixed rack (1-24) are all connected with a separation box I (1-1), the limiting upper plate (1-17) is connected with the sliding support (1-16) in a sliding manner, a bevel gear II (1-13) is connected with a bevel gear III (1-19) in a meshing manner, the bevel gear III (1-19) is connected with a bevel gear III shaft (1-20), a friction wheel II shaft (1-11) is connected with the bevel gear III shaft (1-20) in a rotating manner and embedded into the bevel gear III shaft (1-20), the bevel gear III shaft (1-20) is connected with a friction wheel II (1-21), the bevel gear III shaft (1-20) is connected with the sliding support (1-16) in a rotating manner, the friction wheel III (1-22) is connected with a reciprocating shaft (1-8), the reciprocating shaft (1-8) is connected with a collision plate (1-18) in a sliding manner, the reciprocating shaft (1-8) is connected with a walking gear (1-23), the walking gear (1-23) is meshed with a fixed rack (1-24), a friction wheel IV (1-25) is connected with a friction wheel IV shaft (1-26), the friction wheel IV shaft (1-26) is connected with a sliding support (1-16), the friction wheel IV shaft (1-26) is connected with a friction wheel V (1-27), a clamping clamp (1-28) is connected with a clamp support (1-29), the clamp support (1-29) is connected with a sliding support (1-5) of a motor I, a shovel connecting support (1-30) is connected with the reciprocating shaft (1-8) in a rotating manner, the shovel connecting frame (1-30) is connected with the connecting frame sliding rails (1-31) in a sliding mode, the connecting frame sliding rails (1-31) are located on two sides of the separating box I (1-1), the shovel connecting frame (1-30) is connected with the shovel (1-32), the shovel (1-32) is in contact with the filtering sieve plate (1-33), and the filtering sieve plate (1-33), the water shielding plate I (1-34) and the water shielding plate II (1-35) are all connected with the separating box I (1-1).

3. The water conservancy rubbish separation sewage treatment device of claim 1, characterized in that: the metal collection assembly (2) comprises a motor II (2-1), a motor II shaft (2-2), a belt wheel I (2-3), a belt I (2-4), a belt wheel I shaft (2-5), a magnetic roller (2-6), a gear I (2-7), a gear II (2-8), a gear II shaft (2-9), a fan-shaped friction wheel (2-10), a turning friction wheel I (2-11), a turning friction wheel II (2-12), a turning friction wheel II shaft (2-13), a turning friction wheel I shaft (2-14), a metal shovel (2-15), a spring fixing plate (2-16), a spring I (2-17), a belt wheel II (2-18), a belt II (2-19), a collection plate (2-20) and a belt wheel II shaft (2-21), the motor II (2-1) is connected with the separation box I (1-1), the motor II (2-1) is connected with the motor II shaft (2-2), the motor II shaft (2-2) is connected with the belt wheel I (2-3), two belt wheels I (2-3) are arranged, the two belt wheels I (2-3) are connected through a belt I (2-4), one belt wheel I (2-3) is connected with the belt wheel I shaft (2-5), the motor II shaft (2-2) is connected with the gear I (2-7), the gear I (2-7) is meshed with the gear II (2-8), the gear II (2-8) is connected with the gear II shaft (2-9), the motor II shaft (2-2) and the gear II shaft (2-9) are respectively connected with the two magnetic rollers (2-6), a belt wheel I shaft (2-5), a motor II shaft (2-2) and a gear II shaft (2-9) are rotatably connected with a separation box I (1-1), the belt wheel I shaft (2-5) is connected with a fan-shaped friction wheel (2-10), the fan-shaped friction wheel (2-10) is in contact with a turning friction wheel I (2-11), the turning friction wheel I (2-11) is in contact with a turning friction wheel II (2-12), the turning friction wheel II (2-12) is connected with a turning friction wheel II shaft (2-13), the turning friction wheel I (2-11) is connected with a turning friction wheel I shaft (2-14), the turning friction wheel I shaft (2-14) is rotatably connected with the separation box I (1-1), a spring fixing plate (2-16) is connected with a spring I (2-17), the spring I (2-17) is connected with the metal shovels (2-15), the spring fixing plate (2-16) is connected with the separation box I (1-1), the spring I (2-17) is in a normal state, the first shaft (2-14) of the turning friction wheel is connected with the second belt wheel (2-18), the second belt wheel (2-18) is provided with two belt wheels (2-18), the two belt wheels (2-18) are connected through belts II (2-19), one belt wheel II (2-18) is connected with the second shaft (2-21) of the belt wheel, the second shaft (2-21) of the belt wheel and the second shaft (2-13) of the turning friction wheel are respectively connected with the two metal shovels (2-15), and the second shaft (2-21) of the belt wheel and the second shaft (2-13) of the turning friction wheel are both rotatably connected with the separation box I (1-1), the two collecting plates (2-20) are connected with the separation box I (1-1).

4. The water conservancy rubbish separation sewage treatment device of claim 1, characterized in that: the mud-water separation assembly (3) comprises a mud-water separation assembly (3) and a separation box II (3-1), a double-end servo motor (3-2), a double-end motor support (3-3), a friction sliding plate (3-4), a threaded shaft with a groove (3-5), a threaded support (3-6), a belt winding roller (3-7), a pull belt (3-8), a fixed pulley (3-9), a pressing plate support lug (3-10), a pressing plate (3-11), a limiting slide block (3-12), a spring limiting rod (3-13), a spring II (3-14), a limiting rod support (3-15), a double-end motor shaft (3-16), shifting teeth (3-17), a spring III (3-18), a ratchet sleeve (3-19), a sleeve shaft (3-20), A sleeve shaft bracket (3-21), a bevel gear IV (3-22), a bevel gear V (3-23), a bevel gear V shaft (3-24), a belt wheel III (3-25), a belt III (3-26), a belt wheel III shaft (3-27), a transmission bottom plate (3-28), a belt wheel IV (3-29), a belt IV (3-30), a belt wheel IV shaft (3-31), a disc (3-32), a connecting rod (3-33), a residue push-out frame (3-34), an extrusion rod (3-35) and a mud-water separation screen (3-36), a separation box I (1-1) is connected with a separation box II (3-1), a double-head servo motor (3-2) is connected with the double-head motor bracket (3-3), the double-head motor bracket (3-3) is connected with the transmission bottom plate (3-28), the transmission bottom plate (3-28) is connected with the mud-water separation screen (3-36), the mud-water separation screen (3-36) is connected with the separation box II (3-1), one end of the double-head servo motor (3-2) is connected with the friction sliding plate (3-4), the friction sliding plate (3-4) is connected with the threaded shaft with a groove (3-5) in a sliding way, the threaded shaft with a groove (3-5) is connected with the threaded bracket (3-6) in a threaded way, the threaded bracket (3-6) is connected with the separation box II (3-1), the threaded shaft with a groove (3-5) is connected with the winding roller (3-7), the winding roller (3-7) is connected with the pull belt (3-8), the pull belt (3-8) is contacted with the fixed pulley (3-9), the fixed pulley (3-9) is rotationally connected with the separation box II (3-1), the drawstring (3-8) is connected with a pressure plate support lug (3-10), the pressure plate support lug (3-10) is connected with a pressure plate (3-11), the pressure plate (3-11) is connected with a separation box II (3-1) in a sliding way, a limit slide block (3-12) is connected with the separation box II (3-1) in a sliding way, the limit slide block (3-12) is connected with a spring limit rod (3-13), a spring II (3-14) is sleeved on the spring limit rod (3-13), two ends of the spring II (3-14) are respectively connected with the limit slide block (3-12) and a limit rod bracket (3-15), the spring II (3-14) is in a compression state, the spring limit rod (3-13) is connected with the limit rod bracket (3-15) in a sliding way, the limit rod bracket (3-15) is connected with the separation box II (3-1), the other end of the double-head servo motor (3-2) is connected with a double-head motor shaft (3-16), the double-head motor shaft (3-16) is rotationally connected with shifting teeth (3-17), two ends of a spring III (3-18) are respectively connected with the shifting teeth (3-17) and the double-head motor shaft (3-16), the spring III (3-18) is in a compression state, the shifting teeth (3-17) are in contact with ratchet sleeves (3-19), the ratchet sleeves (3-19) are connected with sleeve shafts (3-20), the sleeve shafts (3-20) are rotationally connected with sleeve shaft brackets (3-21), the sleeve shaft brackets (3-21) are connected with the double-head motor brackets (3-3), the sleeve shafts (3-20) are connected with bevel gears IV (3-22), the bevel gears IV (3-22) are in meshing connection with bevel gears V (3-23), the bevel gear V (3-23) is connected with a bevel gear V shaft (3-24), the bevel gear V shaft (3-24) is rotationally connected with a double-head motor support (3-3), the bevel gear V shaft (3-24) is connected with belt wheels III (3-25), two belt wheels III (3-25) are arranged, the two belt wheels III (3-25) are connected through belts III (3-26), one belt wheel III (3-25) is rotationally connected with the belt wheel III shaft (3-27), the belt wheel III shaft (3-27) is rotationally connected with a transmission bottom plate (3-28), the belt wheel III shaft (3-27) is connected with belt wheels IV (3-29), the two belt wheels IV (3-29) are arranged, the two belt wheels IV (3-29) are connected through IV belts (3-30), one belt wheel IV (3-29) is connected with a belt wheel IV shaft (3-31), the belt wheel IV shaft (3-31) is rotatably connected with the transmission bottom plate (3-28), the belt wheel IV shaft (3-31) is connected with the disc (3-32), the disc (3-32) is hinged with the connecting rod (3-33), the connecting rod (3-33) is hinged with the residue push-out frame (3-34), the residue push-out frame (3-34) is slidably connected with the separation box II (3-1), and the extrusion rod (3-35) is connected with the separation box II (3-1).

5. The mud-water separation assembly (3) as claimed in claim 4, wherein the discs (3-32) are provided with friction wheels in the tangential direction, the friction wheels are tangent to the discs (3-32), and the mud-water separation screen (3-36) is provided with a waterproof pressure sensor.

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