CN109665679B - Sewage treatment mobile device - Google Patents

Abstract

The invention relates to sewage treatment, in particular to a sewage treatment moving device which comprises a first treatment mechanism, a second treatment mechanism, an impurity treatment mechanism, a device damping moving mechanism and a pressing and extruding mechanism. The first processing mechanism is connected with the second processing mechanism, the first processing mechanism is connected with the impurity processing mechanism, the impurity processing mechanism is connected with the device damping moving mechanism, and the impurity processing mechanism is connected with the pressing and extruding mechanism.

Description

Sewage treatment mobile device

Technical Field

The invention relates to sewage treatment, in particular to a sewage treatment mobile device.

Background

The sewage treatment is one of the methods for improving the environment, the traditional method is to transport the sewage and then treat the sewage in a centralized way, although the effect is obvious, the process takes long time and the investment is overlarge, and in order to solve the problems, a sewage treatment mobile device is designed to solve the problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a sewage treatment moving device which has the functions of sewage and garbage impurity cleaning, sewage secondary treatment, garbage Lishui and garbage extrusion, a sediment treatment mechanism and a convenient moving mechanism.

In order to solve the technical problems, the invention relates to a sewage treatment device, and more particularly relates to a sewage treatment moving device which comprises a first treatment mechanism, a second treatment mechanism, an impurity treatment mechanism, a device damping moving mechanism and a pressing and extruding mechanism.

The first processing mechanism comprises an impurity cleaning mechanism, a shaking sieve plate mechanism, a shaking power mechanism, a water distributor and a mechanism shell, wherein the mechanism shell is fixedly connected with the water distributor;

the impurity cleaning mechanism comprises a side baffle, a strip-shaped track groove, a cleaning plate and a servo, the cleaning plate is fixedly connected with the servo, the strip-shaped track groove is formed in the side baffle, the strip-shaped track groove is matched with the cleaning plate and the servo, and the side baffle is fixedly connected with the mechanism shell;

the cleaning plate is provided with a sliding block which is adapted to the strip-shaped track groove;

the shaking sieve plate mechanism comprises a first spring, a grid plate and a sliding wheel, wherein the first spring is fixedly connected with the grid plate, and the grid plate is fixedly connected with the sliding wheel;

the shaking power mechanism comprises an adjusting rod, an L-shaped positioning piece, a spring II, a cylindrical sliding block, a connecting rod, a swinging piece, a spring III, a wave gear, a gear chain I, a gear and a motor I, wherein the adjusting rod is matched with the L-shaped positioning piece through a groove;

the adjusting rod is provided with a first groove which is fixedly connected with the L-shaped positioning piece;

a second groove and a third groove are formed in the cylindrical sliding block, the second groove is matched with the swinging piece, and the third groove is matched with the mechanism shell;

the swinging piece is provided with a strip-shaped through hole which is adapted to the cylindrical sliding block;

the water distributor comprises a water feeding pipe, a water pump and a water discharging pipe, the water feeding pipe is fixedly connected with the water pump, and the water pump is fixedly connected with the water discharging pipe;

the mechanism shell comprises a special-shaped groove, a strip-shaped groove, an L-shaped groove, a first through hole, a fourth groove, a sealing rubber ring, a fifth groove, a sixth groove, a valve, a small grid plate, a special-shaped groove, a foreign object area, a Li water area and a main body shell, wherein the special-shaped groove is adapted to a shaking power mechanism, the strip-shaped groove is adapted to a cylindrical sliding block, the L-shaped groove is adapted to an L-shaped positioning piece and a spring, the first through hole is adapted to an adjusting rod, the sealing rubber ring is fixedly connected with the main body shell, the fifth groove is adapted to a sludge sedimentation tank, the sixth groove is adapted to the bearing, the valve is meshed with the main body shell through threads, the small grid plate is fixedly connected with the main body shell, the special-shaped groove is adapted to the spring, the foreign object area;

the second treatment mechanism comprises a stirring and cleaning structure, a drainage cover, a drawing filter plate and a mechanism shell, wherein the mechanism shell is connected with the stirring and cleaning structure, the drawing filter plate is connected with the mechanism shell, and the mechanism shell is meshed with the drainage cover through threads;

the stirring and cleaning structure comprises a cover plate, a connecting column, a motor II, a bearing I, a square frame, an adsorption plate, a blocking rod, a limiting plate, a thread moving member, a bidirectional threaded rod and a semi-ring handle, wherein the cover plate is fixedly connected with the semi-ring handle;

the connecting column is provided with a first groove which is adaptive to the motor;

the adsorption plate is provided with a thread groove, and the adsorption plate is connected with the thread moving piece through the thread groove;

a seventh groove is formed in the limiting plate and is matched with the thread moving piece;

the screw thread moving piece is provided with a first screw thread through hole, and the screw thread moving piece is connected with the bidirectional threaded rod through the first screw thread through hole;

the drawing filter plate comprises a handle, a T-shaped cover, a sealing rubber ring and a filter plate, wherein the handle is fixedly connected with the T-shaped cover, the T-shaped cover is fixedly connected with the filter plate, and the T-shaped cover is fixedly connected with the sealing rubber ring;

a third through hole is formed in the sealing rubber ring, and the T-shaped cover is fixedly connected with the sealing rubber ring through the third through hole;

the mechanism shell comprises a main body frame, a special-shaped through hole, a cover plate groove, a supporting block, a water pipe groove and an inclined plate, the special-shaped through hole is matched with the drawing filter plate, the cover plate groove is matched with the stirring and cleaning structure, the support block is fixedly connected with the main body frame, the support block is in contact connection with the filter plate, the inclined plate is fixedly connected with the main body frame, the water pipe groove is matched with the sewer pipe, the inclined plate is fixedly connected with the U-shaped rubber pad, the U-shaped rubber pad is in contact connection with the small block baffle plate, the main body frame is fixedly connected with the rubber pad, the rubber pad is connected with the small block baffle plate through the through hole, the limiting block is connected with the main body frame through the limiting groove, the limiting block is fixedly connected with the threaded rod piece, the threaded rod piece is connected with the connecting moving plate through the threaded through hole, and the connecting moving plate is fixedly connected with the small block baffle plate;

a limiting groove is arranged on the main body frame;

a fourth through hole is formed in the rubber pad;

a threaded through hole II is formed in the connecting moving plate;

the impurity processing mechanism is provided with a U-shaped shell and a steering structure, and the U-shaped shell is fixedly connected with the steering structure;

a sliding block groove, a groove eight, a through hole five, a groove nine and a groove ten are arranged on the U-shaped shell, the groove nine is adapted to the threaded column, and the groove eight is adapted to the helical gear two;

the steering structure comprises a sludge sedimentation tank, a direction adjusting gear, a connecting gear, a motor III, a bearing II, a threaded column, a lifting plate, a rocking handle, a helical gear I, a bearing III and a helical gear II, wherein the sludge sedimentation tank is fixedly connected with the direction adjusting gear;

the lifting plate is provided with a first threaded hole, a lifting slide block and a motor groove, and the lifting slide block is connected with the U-shaped shell through a slide block groove;

a threaded groove is formed in the first bevel gear;

a sixth through hole is formed in the second helical gear;

the device damping moving mechanism comprises a buffer structure and an anti-collision structure, and the buffer structure is connected with the anti-collision structure;

the buffer structure comprises a lattice blocking piece, a threaded pipe, a spring IV, a roller connecting piece and a roller, wherein the lattice blocking piece and the threaded pipe are connected with the U-shaped shell through a groove IV;

a threaded hole II is formed in the threaded pipe;

the roller connecting piece is provided with a movable through hole;

the anti-collision structure comprises an anti-collision rubber mat, a T-shaped moving part, a clamping connecting piece and a spring five, wherein the anti-collision rubber mat is fixedly connected with the T-shaped moving part, the T-shaped moving part is fixedly connected with the clamping connecting piece, and the clamping connecting piece is fixedly connected with the spring five;

the pressing and extruding mechanism comprises a connecting moving column and an extruding structure, the connecting moving column is fixedly connected with the extruding structure, and the connecting moving column is fixedly connected with the lifting plate;

the extrusion structure comprises a gear fixing piece, an ultra-solid piece, a spring six, a top end connecting piece, a motor four, a power gear, a gear chain two and an extrusion gear, wherein the gear fixing piece is fixedly connected with the top end connecting piece, the gear fixing piece is connected with the extrusion gear, the extrusion gear is connected with the power gear through the gear chain two, the power gear is meshed with the motor four, the motor four is fixedly connected with the top end connecting piece, the top end connecting piece is matched with the ultra-solid piece through a groove, and the ultra-solid piece is fixedly connected with the spring six;

the first processing mechanism is connected with the second processing mechanism, the first processing mechanism is connected with the impurity processing mechanism, the impurity processing mechanism is connected with the device damping moving mechanism, and the impurity processing mechanism is connected with the pressing and extruding mechanism.

As a further optimization of the technical scheme, the number of the device damping moving mechanisms of the sewage treatment moving device is four, and the four device damping moving mechanisms are uniformly distributed at the bottom of the impurity treatment mechanism.

The sewage treatment mobile device has the beneficial effects that:

the invention relates to a sewage treatment moving device which has the functions of sewage and garbage impurity cleaning, sewage secondary treatment, garbage Lishui and garbage extrusion, a precipitate treatment mechanism and a convenient moving mechanism.

Drawings

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

FIG. 1 is a schematic structural view of a mobile sewage treatment plant according to the present invention.

FIG. 2 is a schematic structural diagram of a first treatment mechanism 1 of a mobile sewage treatment device according to the present invention.

FIG. 3 is a schematic structural diagram of an impurity cleaning mechanism 1-1 of a mobile sewage treatment apparatus according to the present invention.

FIG. 4 is a schematic structural diagram of a combined three-dimensional structure of a cleaning plate 1-1-3 and a servo 1-1-4 of a mobile sewage treatment device according to the present invention.

Fig. 5 is a schematic structural diagram of a shaking screen plate mechanism 1-2 of the sewage treatment moving device.

FIG. 6 is a schematic structural diagram of a shaking power mechanism 1-3 of a mobile sewage treatment apparatus according to the present invention.

FIG. 7 is a schematic structural view of a cylindrical sliding block 1-3-4 of a mobile sewage treatment device according to the present invention.

FIG. 8 is a schematic structural view of the water distributors 1 to 4 of the mobile sewage treatment device of the present invention.

FIG. 9 is a schematic structural view of a mechanism housing 1-5 of a mobile sewage treatment apparatus according to the present invention.

Fig. 10 is a schematic cross-sectional view of a-a in fig. 1.

FIG. 11 is a schematic structural view of the second treating mechanism 2 of the mobile sewage treatment apparatus according to the present invention.

FIG. 12 is a schematic structural view of a stirring and cleaning structure 2-1 of a mobile sewage treatment apparatus according to the present invention.

FIG. 13 is a schematic view of a drawn filter plate 2-3 of a mobile sewage treatment device according to the present invention.

FIG. 14 is a schematic structural view of a mechanism housing 2-4 of a mobile sewage treatment device according to the present invention.

Fig. 15 is a partially enlarged structural diagram of B in fig. 14.

FIG. 16 is a schematic structural view of the impurity treating mechanism 3 of the mobile sewage treatment apparatus according to the present invention.

FIG. 17 is a schematic structural view of a U-shaped housing 3-1 of a mobile sewage treatment apparatus according to the present invention.

FIG. 18 is a schematic structural view of a steering structure 3-2 of a mobile sewage treatment apparatus according to the present invention.

Fig. 19 is a schematic cross-sectional view of C-C in fig. 16.

FIG. 20 is a schematic structural view of the damping moving mechanism 4 of the sewage treatment moving apparatus according to the present invention.

FIG. 21 is a schematic structural view of a buffering structure 4-1 of a mobile sewage treatment device according to the present invention.

FIG. 22 is a schematic structural view of a collision avoidance structure 4-2 of a mobile sewage treatment apparatus according to the present invention.

Fig. 23 is a schematic structural view of a pressing and squeezing mechanism 5 of a sewage treatment moving device according to the present invention.

FIG. 24 is a schematic structural view of an extrusion structure 5-2 of a mobile sewage treatment apparatus according to the present invention.

In the figure: a first processing mechanism 1; an impurity cleaning mechanism 1-1; side baffle 1-1-1; 1-1-2 of a strip-shaped track groove; cleaning the plates 1-1-3; a server 1-1-4; side baffle 1-1-1; 1-1-2 of a strip-shaped track groove; cleaning the plates 1-1-3; 1-1-3-1 of a sliding block; a server 1-1-4; a shaking sieve plate mechanism 1-2; 1-2-1 of a spring; 1-2-2 of a grid plate; 1-2-3 of a sliding wheel; a shaking power mechanism 1-3; adjusting a rod 1-3-1; the first groove is 1-3-1-1; 1-3-2 of an L-shaped positioning piece; 1-3-3 parts of a second spring; 1-3-4 of a cylindrical sliding block; a second groove 1-3-4-1; groove III 1-3-4-2; 1-3-5 of a connecting rod; a swinging member 1-3-6; 1-3-6-1 of strip-shaped through holes; 1-3-7 parts of a spring III; 1-3-8 parts of a wave gear; 1-3-9 parts of a gear chain I; 1-3-10 parts of gear; 1-3-11 of a first motor; 1-4 of a water distributor; 1-4-1 of a water feeding pipe; 1-4-2 of a water pump; 1-4-3 of a downcomer; 1-5 parts of a mechanism shell; 1-5-1 of a special-shaped groove; 1-5-2 of a strip-shaped groove; 1-5-3 of an L-shaped groove; 1-5-4 of a through hole I; 1-5-5 of a groove IV; 1-5-6 parts of a sealing rubber ring; 1-5-7 of a groove; six grooves 1-5-8; 1-5-9 parts of a valve; 1-5-10 parts of small grid plate; 1-5-11 of special-shaped grooves; impurity regions 1-5-12; li water area 1-5-13; 1-5-14 parts of a main body shell; a second processing mechanism 2; a stirring and cleaning structure 2-1; a cover plate 2-1-1; connecting column 2-1-2; eleven grooves 2-1-2-1; 2-1-3 of a second motor; 2-1-4 parts of a bearing I; 2-1-5 of a square frame; 2-1-6 of an adsorption plate; 2-1-6-1 of thread groove; 2-1-7 parts of intercepting rod; 2-1-8 parts of a limiting plate; a groove seven 2-1-8-1; a threaded moving part 2-1-9; the first threaded through hole is 2-1-9-1; 2-1-10 parts of a bidirectional threaded rod; 2-1-11 parts of a semi-ring handle; 2-2 of a drainage cover; 2-3 of a pull filter plate; 2-3-1 of a handle; 2-3-2 of a T-shaped cover; 2-3-3 parts of a sealing rubber ring; a through hole III 2-3-3-1; 2-3-4 parts of a filter plate; 2-4 of a mechanism shell; a main body frame 2-4-1; a limiting groove 2-4-1-1; 2-4-2 of a special-shaped through hole; 2-4-3 of a cover plate groove; 2-4-4 of a supporting block; 2-4-5 of a water pipe groove; 2-4-6 of an inclined plate; 2-4-7 parts of a U-shaped rubber mat; 2-4-8 parts of a small baffle plate; 2-4-9 parts of a rubber cushion; through hole IV 2-4-9-1; 2-4-10 parts of a limiting block; connecting and moving plates 2-4-11; 2-4-11-1 of a threaded through hole II; 2-4-12 of a threaded rod piece; an impurity treatment means 3; a U-shaped housing 3-1; a slider groove 3-1-1; eight grooves 3-1-2; a fifth through hole 3-1-3; nine 3-1-4 grooves; ten 3-1-5 grooves; a steering structure 3-2; 3-2-1 of a sludge sedimentation tank; a direction adjusting gear 3-2-2; a connecting gear 3-2-3; 3-2-4 of a motor III; 3-2-5 parts of a second bearing; 3-2-6 parts of a threaded column; 3-2-7 of a lifting plate; the first threaded hole is 3-2-7-1; 3-2-7-2 of a lifting slide block; 3-2-7-3 parts of a motor groove; shaking the handle 3-2-8; 3-2-9 parts of a first bevel gear; a thread groove 3-2-9-1; 3-2-10 parts of a bearing III; 3-2-11 parts of a second bevel gear; through hole six 3-2-11-1; a device damping moving mechanism 4; a buffer structure 4-1; a barrier 4-1-1; 4-1-2 of a threaded pipe; a second threaded hole 4-1-2-1; spring four 4-1-3; roller connecting pieces 4-1-4; the movable through hole is 4-1-4-1; 4-1-5 of rollers; an anti-collision structure 4-2; 4-2-1 of an anti-collision rubber cushion; a T-shaped movable part 4-2-2; a clamping connecting piece 4-2-3; 4-2-4 parts of a spring; pressing and extruding the mechanism 5; connecting a moving column 5-1; 5-2 of an extrusion structure; a gear fixing piece 5-2-1; silly pieces 5-2-2; six springs 5-2-3; a top end connecting piece 5-2-4; motor four 5-2-5; 5-2-6 of a power gear; a second gear chain 5-2-7; 5-2-8 parts of an extrusion gear.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, and 24, and the present invention relates to a sewage treatment, and more specifically to a sewage treatment moving device including a first treatment means 1, a second treatment means 2, an impurity treatment means 3, a device damping moving means 4, and a pressing and squeezing means 5.

The first processing mechanism 1 comprises an impurity cleaning mechanism 1-1, a shaking sieve plate mechanism 1-2, a shaking power mechanism 1-3, a water distributor 1-4 and a mechanism shell 1-5, wherein the mechanism shell 1-5 is fixedly connected with the water distributor 1-4, the shaking power mechanism 1-3 is fixedly connected with the mechanism shell 1-5, the shaking sieve plate mechanism 1-2 is fixedly connected with the mechanism shell 1-5, and the impurity cleaning mechanism 1-1 and the mechanism shell 1-5 are fixed parts;

the impurity cleaning mechanism 1-1 comprises a side baffle 1-1-1, a strip-shaped track groove 1-1-2, a cleaning plate 1-1-3 and a servo 1-1-4, wherein the cleaning plate 1-1-3 is fixedly connected with the servo 1-1-4, the strip-shaped track groove 1-1-2 is arranged on the side baffle 1-1-1, the strip-shaped track groove 1-1-2 is matched with the cleaning plate 1-1-3 and the servo 1-1-4, and the side baffle 1-1-1 is fixedly connected with a mechanism shell 1-5;

a sliding block 1-1-3-1 is arranged on the cleaning plate 1-1-3, and the sliding block 1-1-3-1 is adapted to the strip-shaped track groove 1-1-2;

the shaking sieve plate mechanism 1-2 comprises a spring I1-2-1, a grid plate 1-2-2 and a sliding wheel 1-2-3, wherein the spring I1-2-1 is fixedly connected with the grid plate 1-2-2, and the grid plate 1-2-2 is fixedly connected with the sliding wheel 1-2-3;

the shaking power mechanism 1-3 comprises an adjusting rod 1-3-1, an L-shaped positioning piece 1-3-2, a spring II 1-3-3, a cylindrical sliding block 1-3-4, a connecting rod 1-3-5, a swinging piece 1-3-6, a spring III 1-3-7, a wave gear 1-3-8, a gear chain I1-3-9, a gear 1-3-10 and a motor I1-3-11, wherein the adjusting rod 1-3-1 and the L-shaped positioning piece 1-3-2 are matched through a groove, the L-shaped positioning piece 1-3-2 is fixedly connected with the spring II 1-3-3, the adjusting rod 1-3-1 is fixedly connected with the connecting rod 1-3-5, the connecting rod 1-3-5 is fixedly connected with the cylindrical sliding block 1-3-4, the cylindrical sliding block 1-3-4 is movably connected with the swinging piece 1-3-6, the swinging piece 1-3-6 is fixedly connected with the spring III 1-3-7, the wave gear 1-3-8 is in contact connection with the swinging piece 1-3-6, the wave gear 1-3-8 is connected with the gear 1-3-10 through the gear chain I1-3-9, and the gear 1-3-10 is meshed with the motor I1-3-11;

a groove I1-3-1-1 is arranged on the adjusting rod 1-3-1, and the groove I1-3-1-1 is fixedly connected with an L-shaped positioning piece 1-3-2;

a groove II 1-3-4-1 and a groove III 1-3-4-2 are arranged on the cylindrical sliding block 1-3-4, the groove II 1-3-4-1 is matched with the swinging piece 1-3-6, and the groove III 1-3-4-2 is matched with the mechanism shell 1-5;

the swinging piece 1-3-6 is provided with a strip-shaped through hole 1-3-6-1, and the strip-shaped through hole 1-3-6-1 is adapted to the cylindrical sliding block 1-3-4;

the water distributor 1-4 comprises an upper water pipe 1-4-1, a water pump 1-4-2 and a lower water pipe 1-4-3, the upper water pipe 1-4-1 is fixedly connected with the water pump 1-4-2, and the water pump 1-4-2 is fixedly connected with the lower water pipe 1-4-3;

the mechanism shell 1-5 comprises a special-shaped groove 1-5-1, a strip-shaped groove 1-5-2, an L-shaped groove 1-5-3, a through hole I1-5-4, a groove IV 1-5-5, a sealing rubber ring 1-5-6, a groove V1-5-7, a groove VI 1-5-8, a valve 1-5-9, a small grid plate 1-5-10, a special-shaped groove 1-5-11, a sundry area 1-5-12, a water area 1-5-13 and a main body shell 1-5-14, wherein the special-shaped groove 1-5-1 is adapted to a shaking power mechanism 1-3, the strip-shaped groove 1-5-2 is adapted to a cylindrical sliding block 1-3-4, the L-shaped groove 1-5-3, the L-shaped positioning piece 1-3-2 and a spring II 1-3-3 is adapted, the first through hole 1-5-4 is adapted to the adjusting rod 1-3-1, the sealing rubber ring 1-5-6 is fixedly connected with the main body shell 1-5-14, the fifth groove 1-5-7 is adapted to the sludge sedimentation tank 3-2-1, the sixth groove 1-5-8 is adapted to the second bearing 3-2-5, the valve 1-5-9 is engaged with the main body shell 1-5-14 through threads, the small grid plate 1-5-10 is fixedly connected with the main body shell 1-5-14, the special-shaped groove 1-5-11 is adapted to the first spring 1-2-1, the main body shell 1-5-14 is provided with the impurity area 1-5-12, and the main body shell 1-5-14 is provided with the water area 1-5-13;

the second treatment mechanism 2 comprises a stirring and cleaning structure 2-1, a drainage cover 2-2, a drawing filter plate 2-3 and a mechanism shell 2-4, wherein the mechanism shell 2-4 is connected with the stirring and cleaning structure 2-1, the drawing filter plate 2-3 is connected with the mechanism shell 2-4, and the mechanism shell 2-4 is meshed with the drainage cover 2-2 through threads;

the stirring and cleaning structure 2-1 comprises a cover plate 2-1-1, a connecting column 2-1-2, a motor II 2-1-3, a bearing I2-1-4, a square frame 2-1-5, an adsorption plate 2-1-6, a blocking rod 2-1-7, a limiting plate 2-1-8, a threaded moving part 2-1-9, a bidirectional threaded rod 2-1-10, a semi-ring handle 2-1-11, a cover plate 2-1-1 is fixedly connected with the connecting column 2-1-2, the connecting column 2-1-2 is fixedly connected with the motor II 2-1-3, the motor II 2-1-3 is fixedly connected with the bearing I2-1-4, the bearing I2-1-4 is fixedly connected with the connecting column 2-1-2, the bearing I2-1-4 is fixedly connected with the square frame 2-1-5, the square frame 2-1-5 is matched with the adsorption plate 2-1-6 through a through hole, the adsorption plate 2-1-6 is in contact connection with the interception rod 2-1-7, the interception rod 2-1-7 is fixedly connected with the square frame 2-1-5, the square frame 2-1-5 is fixedly connected with the limiting plate 2-1-8, the limiting plate 2-1-8 is matched with the bidirectional threaded rod 2-1-10 through a groove, and the bidirectional threaded rod 2-1-10 is connected with the threaded moving part 2-1-9 through a thread;

a groove eleven 2-1-2-1 is arranged on the connecting column 2-1-2, and the groove eleven 2-1-2-1 is matched with a motor II 2-1-3;

the adsorption plate 2-1-6 is provided with a thread groove 2-1-6-1, and the adsorption plate 2-1-6 is connected with the thread moving piece 2-1-9 through the thread groove 2-1-6-1;

a groove seven 2-1-8-1 is formed in the limiting plate 2-1-8, and the groove seven 2-1-8-1 is matched with the threaded moving piece 2-1-9;

the thread moving piece 2-1-9 is provided with a thread through hole I2-1-9-1, and the thread moving piece 2-1-9 is connected with the bidirectional threaded rod 2-1-10 through the thread through hole I2-1-9-1;

the drawing filter plate 2-3 comprises a handle 2-3-1, a T-shaped cover 2-3-2, a sealing rubber ring 2-3-3 and a filter plate 2-3-4, wherein the handle 2-3-1 is fixedly connected with the T-shaped cover 2-3-2, the T-shaped cover 2-3-2 is fixedly connected with the filter plate 2-3-4, and the T-shaped cover 2-3-2 is fixedly connected with the sealing rubber ring 2-3-3;

a through hole III 2-3-3-1 is formed in the sealing rubber ring 2-3-3, and the T-shaped cover 2-3-2 is fixedly connected with the sealing rubber ring 2-3-3 through the through hole III 2-3-3-1;

the mechanism shell 2-4 comprises a main body frame 2-4-1, a special-shaped through hole 2-4-2, a cover plate groove 2-4-3, a support block 2-4-4, a water pipe groove 2-4-5, an inclined plate 2-4-6, a U-shaped rubber pad 2-4-7, a small block baffle 2-4-8, a rubber pad 2-4-9, a limit block 2-4-10, a connecting moving plate 2-4-11 and a threaded rod piece 2-4-12, the special-shaped through hole 2-4-2 is adapted to the drawing filter plate 2-3, the cover plate groove 2-4-3 is adapted to the stirring and cleaning structure 2-1, and the support block 2-4-4 is fixedly connected with the main body frame 2-4-1, the support block 2-4-4 is in contact connection with the filter plate 2-3-4, the inclined plate 2-4-6 is fixedly connected with the main body frame 2-4-1, the water pipe groove 2-4-5 is adapted to the sewer pipe 1-4-3, the inclined plate 2-4-6 is fixedly connected with the U-shaped rubber cushion 2-4-7, the U-shaped rubber cushion 2-4-7 is in contact connection with the small baffle 2-4-8, the main body frame 2-4-1 is fixedly connected with the rubber cushion 2-4-9, the rubber cushion 2-4-9 is connected with the small baffle 2-4-8 through the four through holes 2-4-9-1, the limit block 2-4-10 is connected with the main body frame 2-4-1 through the limit groove 2-4-1, the limiting blocks 2-4-10 are fixedly connected with the threaded rod pieces 2-4-12, the threaded rod pieces 2-4-12 are connected with the connecting moving plates 2-4-11 through threaded through holes 2-4-11-1, and the connecting moving plates 2-4-11 are fixedly connected with the small baffles 2-4-8;

a limiting groove 2-4-1-1 is arranged on the main body frame 2-4-1;

a through hole IV 2-4-9-1 is arranged on the rubber mat 2-4-9;

a threaded through hole II 2-4-11-1 is formed in the connecting moving plate 2-4-11;

the impurity processing mechanism 3 is provided with a U-shaped shell 3-1 and a steering structure 3-2, and the U-shaped shell 3-1 is fixedly connected with the steering structure 3-2;

a sliding block groove 3-1-1, a groove eight 3-1-2, a through hole five 3-1-3, a groove nine 3-1-4 and a groove ten 3-1-5 are arranged on the U-shaped shell 3-1, the groove nine 3-1-4 is matched with a threaded column 3-2-6, and the groove eight 3-1-2 is matched with a helical gear two 3-2-11;

the steering structure 3-2 comprises a sludge sedimentation tank 3-2-1, a steering gear 3-2-2, a connecting gear 3-2-3, a motor III 3-2-4, a bearing II 3-2-5, a threaded column 3-2-6, a lifting plate 3-2-7, a rocking handle 3-2-8, a helical gear I3-2-9, a bearing III 3-2-10 and a helical gear II 3-2-11, wherein the sludge sedimentation tank 3-2-1 is fixedly connected with the steering gear 3-2-2, the sludge sedimentation tank 3-2-1 is movably connected with the lifting plate 3-2-7 through a groove, the steering gear 3-2-2 is meshed with the connecting gear 3-2-3, the connecting gear 3-2-3 is meshed with the motor III 3-2-4, the motor III 3-2-4 is fixedly connected with the lifting plate 3-2-7 through a motor groove 3-2-7-3, the bearing II 3-2-5 is fixedly connected with a threaded column 3-2-6, the threaded column 3-2-6 is connected with the lifting plate 3-2-7 through a threaded hole I3-2-7-1, the threaded column 3-2-6 is connected with a helical gear II 3-2-11 through a through hole VI 3-2-11-1, the helical gear II 3-2-11 is meshed with the helical gear I3-2-9, the helical gear I3-2-9 is fixedly connected with the bearing III 3-2-10, the bearing III 3-2-10 is connected with the U-shaped shell 3-1 through a through hole V3-1-3, and the rocking handle 3-2-8 is connected with the helical gear I3-2-9 through a threaded groove 3-2-9-1;

a first threaded hole 3-2-7-1, a lifting slide block 3-2-7-2 and a motor groove 3-2-7-3 are formed in the lifting plate 3-2-7, and the lifting slide block 3-2-7-2 is connected with the U-shaped shell 3-1 through a slide block groove 3-1-1;

a threaded groove 3-2-9-1 is formed in the first helical gear 3-2-9;

a through hole six 3-2-11-1 is formed in the second helical gear 3-2-11;

the device damping moving mechanism 4 comprises a buffer structure 4-1 and an anti-collision structure 4-2, wherein the buffer structure 4-1 is connected with the anti-collision structure 4-2;

the buffer structure 4-1 comprises a lattice blocking piece 4-1-1, a threaded pipe 4-1-2, a spring four 4-1-3, a roller connecting piece 4-1-4 and a roller 4-1-5, the lattice blocking piece 4-1-1 and the threaded pipe 4-1-2 are connected with the U-shaped shell 3-1 through a groove ten 3-1-5, the lattice blocking piece 4-1-1 is connected with the threaded pipe 4-1-2 through a threaded hole two 4-1-2-1, the spring four 4-1-3 is positioned between the threaded pipe 4-1-2 and the roller connecting piece 4-1-4, the spring four 4-1-3 is sleeved on the lattice blocking piece 4-1-1, and the roller connecting piece 4-1-4 and the anti-collision structure 4-2 are connected through a movable through hole 4-1-4 The roller connecting piece 4-1-4 is connected with the roller 4-1-5 through a fastening bolt;

a threaded hole II 4-1-2-1 is formed in the threaded pipe 4-1-2;

the roller connecting piece 4-1-4 is provided with a movable through hole 4-1-4-1;

the anti-collision structure 4-2 comprises an anti-collision rubber mat 4-2-1, a T-shaped moving part 4-2-2, a clamping connecting piece 4-2-3 and a spring five 4-2-4, wherein the anti-collision rubber mat 4-2-1 is fixedly connected with the T-shaped moving part 4-2-2, the T-shaped moving part 4-2-2 is fixedly connected with the clamping connecting piece 4-2-3, and the clamping connecting piece 4-2-3 is fixedly connected with the spring five 4-2-4;

the pressing and extruding mechanism 5 comprises a connecting moving column 5-1 and an extruding structure 5-2, the connecting moving column 5-1 is fixedly connected with the extruding structure 5-2, and the connecting moving column 5-1 is fixedly connected with the lifting plate 3-2-7;

the extrusion structure 5-2 comprises a gear fixing piece 5-2-1, an silly piece 5-2-2, a spring six 5-2-3, a top end connecting piece 5-2-4, a motor four 5-2-5, a power gear 5-2-6, a gear chain two 5-2-7 and an extrusion gear 5-2-8, wherein the gear fixing piece 5-2-1 is fixedly connected with the top end connecting piece 5-2-4, the gear fixing piece 5-2-1 is connected with the extrusion gear 5-2-8, the extrusion gear 5-2-8 is connected with the power gear 5-2-6 through the gear chain two 5-2-7, the power gear 5-2-6 is meshed with the motor four 5-2-5, the motor IV 5-2-5 is fixedly connected with the top end connecting piece 5-2-4, the top end connecting piece 5-2-4 is adapted to the silly piece 5-2-2 through the groove, and the silly piece 5-2-2 is fixedly connected with the spring VI 5-2-3;

the first processing mechanism 1 is connected with the second processing mechanism 2, the first processing mechanism 1 is connected with the impurity processing mechanism 3, the impurity processing mechanism 3 is connected with the device damping moving mechanism 4, and the impurity processing mechanism 3 is connected with the pressing and extruding mechanism 5.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, and 24, and the present embodiment further describes the first embodiment in which the number of the device damping and moving mechanisms 4 is four and is uniformly distributed at the bottom of the impurity treating mechanism 3.

The use method of the device comprises the following steps: injecting sewage into the mechanism shell 1-5 from the upper part of the grid plate 1-2-2, starting the motor 1-3-11 at the moment, driving the gear 1-3-10 by the motor 1-3-11, driving the wave gear 1-3-8 by the gear chain 1-3-9 by the gear 1-3-10, driving the swing piece 1-3-6 by the wave gear 1-3-8, swinging the swing piece 1-3-6 by taking the cylindrical sliding block 1-3-4 as the center of a circle and colliding the grid plate 1-2-2, shaking the grid plate 1-2-2 left and right under the interaction of the swing piece 1-3-6 and the spring 1-2-1 to play a role in filtering sundries, wherein the L-shaped positioning piece 1-3-2 is moved, the adjusting rod 1-3-1 can be adjusted up and down to change the position of the cylindrical sliding block 1-3-4, so that the swinging diameter of the swinging piece 1-3-6 is changed by changing the position of the center of the swinging piece 1-3-6, and the swinging frequency of the grid plate 1-2-2 is controlled.

The servo 1-1-4 is started at a fixed time, the servo 1-1-4 drives the cleaning plate 1-1-3 to move, and the cleaning plate 1-1-3 pushes the garbage on the grid plate 1-2-2 to fall into the impurity area 1-5-12.

Injecting sewage into the mechanism shell 1-5, after precipitation, starting the water pump 1-4-2, injecting the supernatant clear water after precipitation into the mechanism shell 2-4, putting microbial medicine into the mechanism shell 2-4, purifying the water to produce flocculate, wherein starting the motor II 2-1-3, the motor II 2-1-3 drives the square frame 2-1-5 to rotate through the bearing I2-1-4, stirring the medicine, simultaneously hanging the flocculate on the adsorption plate 2-1-6, after treatment, lifting the flocculate through the semi-ring handle 2-1-11, screwing the bidirectional threaded rod 2-1-10, driving the threaded moving members 2-1-9 at two sides to move inwards through the bidirectional threaded rod 2-1-10, thereby driving the adsorption plate 2-1-6 to shrink into the square frame 2-1-5, scraping flocculate by the square frame 2-1-5 and the interception rod 2-1-7 in the shrinking process, and starting the cleaning function.

And (3) rotating the threaded rod piece 2-4-12, driving the connecting moving plate 2-4-11 to move by the threaded rod piece 2-4-12 so as to separate the small baffle 2-4-8 from the U-shaped rubber mat 2-4-7, enabling the water after reaction to flow into the lower part, filtering by the filter plate 2-3-4, opening the drainage cover 2-2, and draining the water, wherein the sealing rubber ring 2-3-3 plays a role in sealing.

The impurities precipitated in the mechanism shell 1-5 are in a sludge sedimentation tank 3-2-1, the first bevel gear 3-2-9 is shaken by the shaking handle 3-2-8 to drive the second bevel gear 3-2-11, the second bevel gear 3-2-11 drives the threaded column 3-2-6 to rotate, and after the threaded column 3-2-6 rotates to enable the lifting plate 3-2-7 to move downwards, and starting the motor III 3-2-4, driving the connecting gear 3-2-3 by the motor III 3-2-4, driving the direction adjusting gear 3-2-2 by the connecting gear 3-2-3, and inclining the sludge sedimentation tank 3-2-1 by the direction adjusting gear 3-2-2, thereby being convenient for cleaning sediments in the sludge sedimentation tank 3-2-1.

The threaded pipe 4-1-2 is rotated, the threaded pipe 4-1-2 enables the lattice piece 4-1-1 to rise, and therefore the spring four 4-1-3 is extruded, and therefore the purpose of damping the buffering force of the control device damping moving mechanism 4 is achieved, the spring five 4-2-4 supports the clamping connecting piece 4-2-3, the T-shaped moving piece 4-2-2 has the buffering effect, and the anti-collision rubber mat 4-2-1 starts the anti-collision effect.

The lifting plate 3-2-7 descends and simultaneously lowers the connecting moving column 5-1, so that the extrusion structure 5-2 extends into the impurity object area 1-5-12, the motor IV 5-2-5 is started, the motor IV 5-2-5 drives the power gear 5-2-6 to rotate, the power gear 5-2-6 drives the extrusion gear 5-2-8 to extrude the solid piece 5-2-2 through the gear chain II 5-2-7, and therefore the solid piece 5-2-2 extrudes garbage, wherein the spring VI 5-2-3 starts the function of supporting the solid piece 5-2-2.

The small grid plate 1-5-10 starts the effect of the garbage Lishui, and accumulated water is discharged by opening a valve 1-5-9.

This device has sewage rubbish impurity clearance, sewage secondary treatment, rubbish Li water and rubbish extrusion function, precipitate processing mechanism and convenient moving mechanism.

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 (2)

1. The utility model provides a sewage treatment mobile device, includes first processing mechanism (1), second processing mechanism (2), impurity processing mechanism (3), device shock attenuation moving mechanism (4), suppression extrusion mechanism (5), its characterized in that: the first treatment mechanism (1) comprises an impurity cleaning mechanism (1-1), a shaking sieve plate mechanism (1-2), a shaking power mechanism (1-3), a water distributor (1-4) and a mechanism shell (1-5), the mechanism shell (1-5) is fixedly connected with the water distributor (1-4), the shaking power mechanism (1-3) is fixedly connected with the mechanism shell (1-5), the shaking sieve plate mechanism (1-2) is fixedly connected with the mechanism shell (1-5), and the impurity cleaning mechanism (1-1) and the mechanism shell (1-5) are fixed with parts;

the impurity cleaning mechanism (1-1) comprises a side baffle (1-1-1), a strip-shaped track groove (1-1-2), a cleaning plate (1-1-3) and a servo (1-1-4), wherein the cleaning plate (1-1-3) is fixedly connected with the servo (1-1-4), the strip-shaped track groove (1-1-2) is arranged on the side baffle (1-1-1), the strip-shaped track groove (1-1-2) is matched with the cleaning plate (1-1-3) and the servo (1-1-4), and the side baffle (1-1-1) is fixedly connected with a mechanism shell (1-5);

a sliding block (1-1-3-1) is arranged on the cleaning plate (1-1-3), and the sliding block (1-1-3-1) is adapted to the strip-shaped track groove (1-1-2);

the shaking sieve plate mechanism (1-2) comprises a spring I (1-2-1), a grid plate (1-2-2) and a sliding wheel (1-2-3), wherein the spring I (1-2-1) is fixedly connected with the grid plate (1-2-2), and the grid plate (1-2-2) is fixedly connected with the sliding wheel (1-2-3);

the shaking power mechanism (1-3) comprises an adjusting rod (1-3-1), an L-shaped positioning piece (1-3-2), a spring II (1-3-3), a cylindrical sliding block (1-3-4), a connecting rod (1-3-5), a swinging piece (1-3-6), a spring III (1-3-7), a wave gear (1-3-8), a gear chain I (1-3-9), a gear (1-3-10) and a motor I (1-3-11), the adjusting rod (1-3-1) is matched with the L-shaped positioning piece (1-3-2) through a groove, the L-shaped positioning piece (1-3-2) is fixedly connected with the spring II (1-3-3), the adjusting rod (1-3-1) is fixedly connected with the connecting rod (1-3-5), the connecting rod (1-3-5) is fixedly connected with the cylindrical sliding block (1-3-4), the cylindrical sliding block (1-3-4) is movably connected with the swinging piece (1-3-6), the swinging piece (1-3-6) is fixedly connected with the spring III (1-3-7), the wave gear (1-3-8) is in contact connection with the swinging piece (1-3-6), the wave gear (1-3-8) is connected with the gear (1-3-10) through the gear chain I (1-3-9), and the gear (1-3-10) is meshed with the motor I (1-3-11);

a first groove (1-3-1-1) is formed in the adjusting rod (1-3-1), and the first groove (1-3-1-1) is fixedly connected with the L-shaped positioning piece (1-3-2);

a second groove (1-3-4-1) and a third groove (1-3-4-2) are arranged on the cylindrical sliding block (1-3-4), the second groove (1-3-4-1) is adapted to the swinging piece (1-3-6), and the third groove (1-3-4-2) is adapted to the mechanism shell (1-5);

the swinging piece (1-3-6) is provided with a strip-shaped through hole (1-3-6-1), and the strip-shaped through hole (1-3-6-1) is adapted to the cylindrical sliding block (1-3-4);

the water distributor (1-4) comprises an upper water pipe (1-4-1), a water pump (1-4-2) and a lower water pipe (1-4-3), the upper water pipe (1-4-1) is fixedly connected with the water pump (1-4-2), and the water pump (1-4-2) is fixedly connected with the lower water pipe (1-4-3);

the mechanism shell (1-5) comprises a special-shaped groove (1-5-1), a strip-shaped groove (1-5-2), an L-shaped groove (1-5-3), a through hole I (1-5-4), a groove IV (1-5-5), a sealing rubber ring (1-5-6), a groove V (1-5-7), a groove VI (1-5-8), a valve (1-5-9), a small grid plate (1-5-10), a special-shaped groove (1-5-11), a sundry area (1-5-12), a water storing area (1-5-13) and a main body shell (1-5-14), wherein the special-shaped groove (1-5-1) is adapted to a shaking power mechanism (1-3), the strip-shaped groove (1-5-2) is adapted to the cylindrical sliding block (1-3-4), the L-shaped groove (1-5-3) is adapted to the L-shaped positioning piece (1-3-2) and the spring II (1-3-3), the through hole I (1-5-4) is adapted to the adjusting rod (1-3-1), the sealing rubber ring (1-5-6) is fixedly connected with the main body shell (1-5-14), the groove V (1-5-7) is adapted to the sludge settling tank (3-2-1), the groove VI (1-5-8) is adapted to the bearing II (3-2-5), the valve (1-5-9) is engaged with the main body shell (1-5-14) through threads, and the small grid plate (1-5-10) is fixedly connected with the main body shell (1-5-14) Then, the special-shaped groove (1-5-11) is matched with the first spring (1-2-1), the body shell (1-5-14) is provided with a foreign material area (1-5-12), and the body shell (1-5-14) is provided with a Lishui area (1-5-13);

the second treatment mechanism (2) comprises a stirring and cleaning structure (2-1), a drainage cover (2-2), a drawing filter plate (2-3) and a mechanism shell (2-4), wherein the mechanism shell (2-4) is connected with the stirring and cleaning structure (2-1), the drawing filter plate (2-3) is connected with the mechanism shell (2-4), and the mechanism shell (2-4) is meshed with the drainage cover (2-2) through threads;

the stirring and cleaning structure (2-1) comprises a cover plate (2-1-1), a connecting column (2-1-2), a motor II (2-1-3), a bearing I (2-1-4), a square frame (2-1-5), an adsorption plate (2-1-6), an intercepting rod (2-1-7), a limiting plate (2-1-8), a threaded moving member (2-1-9), a bidirectional threaded rod (2-1-10) and a semi-ring handle (2-1-11), the cover plate (2-1-1) is fixedly connected with the connecting column (2-1-2), the connecting column (2-1-2) is fixedly connected with the motor II (2-1-3), the motor II (2-1-3) is fixedly connected with the bearing I (2-1-4), the bearing I (2-1-4) is fixedly connected with the connecting column (2-1-2), the bearing I (2-1-4) is fixedly connected with the square frame (2-1-5), the square frame (2-1-5) is matched with the adsorption plate (2-1-6) through a through hole, the adsorption plate (2-1-6) is in contact connection with the interception rod (2-1-7), the interception rod (2-1-7) is fixedly connected with the square frame (2-1-5), the square frame (2-1-5) is fixedly connected with the limiting plate (2-1-8), the limiting plate (2-1-8) is matched with the bidirectional threaded rod (2-1-10) through a groove, the bidirectional threaded rod (2-1-10) is connected with the threaded moving part (2-1-9) through threads;

a groove eleven (2-1-2-1) is arranged on the connecting column (2-1-2), and the groove eleven (2-1-2-1) is adapted to the motor II (2-1-3);

the adsorption plate (2-1-6) is provided with a thread groove (2-1-6-1), and the adsorption plate (2-1-6) is connected with the thread moving part (2-1-9) through the thread groove (2-1-6-1);

a groove seven (2-1-8-1) is formed in the limiting plate (2-1-8), and the groove seven (2-1-8-1) is matched with the threaded moving part (2-1-9);

the thread moving piece (2-1-9) is provided with a thread through hole I (2-1-9-1), and the thread moving piece (2-1-9) is connected with the bidirectional threaded rod (2-1-10) through the thread through hole I (2-1-9-1);

the drawing filter plate (2-3) comprises a handle (2-3-1), a T-shaped cover (2-3-2), a sealing rubber ring (2-3-3) and a filter plate (2-3-4), wherein the handle (2-3-1) is fixedly connected with the T-shaped cover (2-3-2), the T-shaped cover (2-3-2) is fixedly connected with the filter plate (2-3-4), and the T-shaped cover (2-3-2) is fixedly connected with the sealing rubber ring (2-3-3);

a through hole III (2-3-3-1) is formed in the sealing rubber ring (2-3-3), and the T-shaped cover (2-3-2) is fixedly connected with the sealing rubber ring (2-3-3) through the through hole III (2-3-3-1);

the mechanism shell (2-4) comprises a main body frame (2-4-1), a special-shaped through hole (2-4-2), a cover plate groove (2-4-3), a supporting block (2-4-4), a water pipe groove (2-4-5), an inclined plate (2-4-6), a U-shaped rubber mat (2-4-7), a small block baffle (2-4-8), a rubber mat (2-4-9), a limiting block (2-4-10), a connecting moving plate (2-4-11) and a threaded rod piece (2-4-12), the special-shaped through hole (2-4-2) is matched with the filter plate drawing (2-3), and the cover plate groove (2-4-3) is matched with a stirring and cleaning structure (2-1), the support block (2-4-4) is fixedly connected with the main body frame (2-4-1), the support block (2-4-4) is in contact connection with the filter plate (2-3-4), the inclined plate (2-4-6) is fixedly connected with the main body frame (2-4-1), the water pipe groove (2-4-5) is adapted to the sewer pipe (1-4-3), the inclined plate (2-4-6) is fixedly connected with the U-shaped rubber cushion (2-4-7), the U-shaped rubber cushion (2-4-7) is in contact connection with the small block baffle (2-4-8), the main body frame (2-4-1) is fixedly connected with the rubber cushion (2-4-9), and the rubber cushion (2-4-9) and the small block baffle (2-4-8) are in four (2-4-9-1) through a through hole The connecting structure comprises a limiting block (2-4-10), a main body frame (2-4-1) and a threaded rod piece (2-4-12), wherein the limiting block (2-4-10) is connected with the main body frame (2-4-1-1) through a limiting groove (2-4-1), the threaded rod piece (2-4-10) is fixedly connected with the connecting moving plate (2-4-11) through a threaded through hole II (2-4-11-1), and the connecting moving plate (2-4-11) is fixedly connected with a small baffle (2-4-8);

a limiting groove (2-4-1-1) is arranged on the main body frame (2-4-1);

a through hole IV (2-4-9-1) is arranged on the rubber mat (2-4-9);

a second threaded through hole (2-4-11-1) is formed in the connecting moving plate (2-4-11);

the impurity processing mechanism (3) is provided with a U-shaped shell (3-1) and a steering structure (3-2), and the U-shaped shell (3-1) is fixedly connected with the steering structure (3-2);

a sliding block groove (3-1-1), a groove eight (3-1-2), a through hole five (3-1-3), a groove nine (3-1-4) and a groove ten (3-1-5) are arranged on the U-shaped shell (3-1), the groove nine (3-1-4) is adapted to the threaded column (3-2-6), and the groove eight (3-1-2) is adapted to the helical gear two (3-2-11);

the steering structure (3-2) comprises a sludge sedimentation tank (3-2-1), a steering gear (3-2-2), a connecting gear (3-2-3), a motor III (3-2-4), a bearing II (3-2-5), a threaded column (3-2-6), a lifting plate (3-2-7), a rocking handle (3-2-8), a helical gear I (3-2-9), a bearing III (3-2-10) and a helical gear II (3-2-11), wherein the sludge sedimentation tank (3-2-1) is fixedly connected with the steering gear (3-2-2), the sludge sedimentation tank (3-2-1) is movably connected with the lifting plate (3-2-7) through a groove in a contact manner, the direction-adjusting gear (3-2-2) is meshed with the connecting gear (3-2-3), the connecting gear (3-2-3) is meshed with the motor III (3-2-4), the motor III (3-2-4) is fixedly connected with the lifting plate (3-2-7) through the motor groove (3-2-7-3), the bearing II (3-2-5) is fixedly connected with the threaded column (3-2-6), the threaded column (3-2-6) is connected with the lifting plate (3-2-7) through the threaded hole I (3-2-7-1), the threaded column (3-2-6) is connected with the helical gear II (3-2-11) through the through hole VI (3-2-11-1), the second helical gear (3-2-11) is meshed with the first helical gear (3-2-9), the first helical gear (3-2-9) is fixedly connected with the third bearing (3-2-10), the third bearing (3-2-10) is connected with the U-shaped shell (3-1) through a fifth through hole (3-1-3), and the rocking handle (3-2-8) is connected with the first helical gear (3-2-9) through a threaded groove (3-2-9-1);

a first threaded hole (3-2-7-1), a lifting slide block (3-2-7-2) and a motor groove (3-2-7-3) are arranged on the lifting plate (3-2-7), and the lifting slide block (3-2-7-2) is connected with the U-shaped shell (3-1) through a slide block groove (3-1-1);

a threaded groove (3-2-9-1) is formed in the first helical gear (3-2-9);

a through hole six (3-2-11-1) is formed in the second helical gear (3-2-11);

the device damping moving mechanism (4) comprises a buffer structure (4-1) and an anti-collision structure (4-2), wherein the buffer structure (4-1) is connected with the anti-collision structure (4-2);

the buffer structure (4-1) comprises a lattice piece (4-1-1), a threaded pipe (4-1-2), a spring IV (4-1-3), a roller connecting piece (4-1-4) and a roller (4-1-5), the lattice piece (4-1-1) and the threaded pipe (4-1-2) are connected with the U-shaped shell (3-1) through a groove IV (3-1-5), the lattice piece (4-1-1) and the threaded pipe (4-1-2) are connected through a threaded hole II (4-1-2-1), the spring IV (4-1-3) is positioned between the threaded pipe (4-1-2) and the roller connecting piece (4-1-4), the spring IV (4-1-3) is sleeved on the lattice piece (4-1-1), the roller connecting piece (4-1-4) is connected with the anti-collision structure (4-2) through a movable through hole (4-1-4-1), and the roller connecting piece (4-1-4) is connected with the roller (4-1-5) through a fastening bolt;

a second threaded hole (4-1-2-1) is formed in the threaded pipe (4-1-2);

the roller connecting piece (4-1-4) is provided with a movable through hole (4-1-4-1);

the anti-collision structure (4-2) comprises an anti-collision rubber mat (4-2-1), a T-shaped moving part (4-2-2), a clamping connecting piece (4-2-3) and a spring five (4-2-4), the anti-collision rubber mat (4-2-1) is fixedly connected with the T-shaped moving part (4-2-2), the T-shaped moving part (4-2-2) is fixedly connected with the clamping connecting piece (4-2-3), and the clamping connecting piece (4-2-3) is fixedly connected with the spring five (4-2-4);

the pressing and extruding mechanism (5) comprises a connecting moving column (5-1) and an extruding structure (5-2), the connecting moving column (5-1) is fixedly connected with the extruding structure (5-2), and the connecting moving column (5-1) is fixedly connected with the lifting plate (3-2-7);

the extrusion structure (5-2) comprises a gear fixing piece (5-2-1), an silly piece (5-2-2), a spring six (5-2-3), a top end connecting piece (5-2-4), a motor four (5-2-5), a power gear (5-2-6), a gear chain II (5-2-7) and an extrusion gear (5-2-8), wherein the gear fixing piece (5-2-1) is fixedly connected with the top end connecting piece (5-2-4), the gear fixing piece (5-2-1) is connected with the extrusion gear (5-2-8), the extrusion gear (5-2-8) is connected with the power gear (5-2-6) through the gear chain II (5-2-7), the power gear (5-2-6) is meshed with the motor IV (5-2-5), the motor IV (5-2-5) is fixedly connected with the top end connecting piece (5-2-4), the top end connecting piece (5-2-4) is adapted to the silly piece (5-2-2) through a groove, and the silly piece (5-2-2) is fixedly connected with the spring VI (5-2-3);

the first processing mechanism (1) is connected with the second processing mechanism (2), the first processing mechanism (1) is connected with the impurity processing mechanism (3), the impurity processing mechanism (3) is connected with the device damping moving mechanism (4), and the impurity processing mechanism (3) is connected with the pressing and extruding mechanism (5).

2. The mobile sewage treatment plant of claim 1, wherein: the number of the damping moving mechanisms (4) is four, and the damping moving mechanisms are uniformly distributed at the bottom of the impurity processing mechanism (3).

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