CN109914308B - New-type municipal administration environmental protection is with synthesizing cleaning device - Google Patents

Abstract

The invention relates to municipal environmental protection, in particular to a novel municipal environmental protection comprehensive cleaning device which comprises a balance moving mechanism, a rolling brush mechanism, a front shell mechanism, a connecting piece, a lifting piece, a compression mechanism, a suction port device, a rear lifting wheel mechanism, a main mechanism and a rear shell mechanism. The balance moving mechanism is connected with the rolling brush mechanism, the front shell mechanism is connected with the connecting piece, the lifting piece is connected with the rear shell mechanism, the compression mechanism is connected with the rear shell mechanism, the suction port device is connected with the rear shell mechanism, the rear lifting wheel mechanism is connected with the rear shell mechanism, the main mechanism is connected with the rear shell mechanism, and the rear shell mechanism is connected with the connecting piece.

Description

New-type municipal administration environmental protection is with synthesizing cleaning device

Technical Field

The invention relates to municipal environmental protection, in particular to a novel comprehensive cleaning device for municipal environmental protection.

Background

The urban environmental protection work is particularly important, streets are the places where the main problems are exposed, and in order to enable the environmental protection work of the streets to be better carried out, a novel municipal environmental protection comprehensive cleaning device is designed to solve the problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel municipal environmental-protection comprehensive cleaning device which has the functions of cleaning an isolation fence, cleaning a street, classifying dust and garbage, reducing dust, compressing garbage, adjusting height and facilitating operation.

In order to solve the technical problems, the invention relates to municipal environmental protection, in particular to a novel municipal environmental protection comprehensive cleaning device which comprises a balance moving mechanism, a rolling brush mechanism, a front shell mechanism, a connecting piece, a lifting piece, a compression mechanism, a suction port device, a rear lifting wheel mechanism, a main mechanism and a rear shell mechanism.

The balance moving mechanism comprises a front wheel shell, a spring assembly I, an I-shaped connecting piece, a limiting ring I, a threaded rod I, a balance central column, a roller fixing piece, a spherical shell and a spherical wheel, wherein the front wheel shell is connected with the spring assembly I through a three-stage stepped hole I, the front wheel shell is connected with the I-shaped connecting piece through a stepped groove I, the front wheel shell is connected with the limiting ring I through a three-stage stepped hole II, the limiting ring I is fixedly connected with the threaded rod I through a through hole, the front wheel shell is fixedly connected with the balance central column, the balance central column is connected with the roller fixing piece through a cylindrical groove, the threaded rod I is meshed with the roller fixing piece through a threaded hole I, the roller fixing piece is fixedly connected with the spherical shell, and the spherical;

the front wheel shell is provided with a first three-stage stepped hole, a first stepped groove and a second three-stage stepped hole;

the first spring assembly comprises a soil-shaped part and a second spring, and the soil-shaped part is fixedly connected with the second spring;

the roller fixing piece is provided with a first threaded hole and a cylindrical groove;

the spherical shell is provided with a spherical groove;

the rolling brush mechanism comprises a roller brush, an auxiliary roller brush, a gear chain, a power gear and a motor I, wherein the roller brush is meshed with the gear chain;

the roller brush comprises a roller brush shaft, a driving gear and a first limiting part, wherein the roller brush shaft is fixedly connected with the driving gear through a through hole, and the roller brush shaft is fixedly connected with the first limiting part;

the front shell mechanism comprises a front shell main body and a positioning piece, and the front shell main body is connected with the positioning piece through three-stage stepped holes in a three-gap manner;

the front shell main body is provided with a positioning groove, a stepped groove II, a motor power groove, a stepped groove III, a three-level stepped hole III and a stepped groove IV, the front shell main body is fixedly connected with a motor I through the motor power groove, the front shell main body is connected with a limiting piece I through the stepped groove three-phase, an I-shaped connecting piece is connected with the front shell main body through the stepped groove two-phase, and the soil character piece is in clearance connection with the front shell main body through the positioning groove;

the positioning piece comprises a T-shaped piece, a spring III and a handle, the T-shaped piece is fixedly connected with the spring III, and the T-shaped piece is fixedly connected with the handle;

the connecting piece is provided with a clamping groove and a threaded hole II, the connecting piece is in clearance connection with the T-shaped piece through the clamping groove, and the front shell main body is connected with the connecting piece through a stepped groove;

the lifting piece comprises a second threaded rod and a second limiting piece, the second threaded rod is fixedly connected with the second limiting piece, and the second threaded rod is meshed with the connecting piece through the second threaded hole;

the compression mechanism comprises a balance rod, a pushing plate, a pushing rod, a gear, a fixed shaft, a fixed connecting post, a bevel gear shaft, a bevel gear and a motor II, the balance rod is in clearance connection with the pushing plate through a smooth through hole I, the pushing plate is hinged with the pushing rod through an arc-shaped groove, the pushing rod is in clearance connection with the fixed connecting post through a T-shaped through hole, the fixed connecting post is fixedly connected with the gear, the gear is in key connection with the fixed shaft, the gear is meshed with the bevel gear shaft, the bevel gear shaft is meshed with the bevel gear, the bevel gear is fixedly connected with the motor II, and the rear shell body;

the pushing plate is provided with a first smooth through hole and an arc-shaped groove;

the pushing rod is provided with a T-shaped through hole;

the suction port device comprises a third limiting part, a third threaded rod and an extension pipe, wherein the third limiting part is fixedly connected with the third threaded rod, and the third threaded rod is engaged with the extension pipe in three phases through a threaded hole;

a third threaded hole is formed in the extension pipe;

the rear lifting wheel mechanism comprises a threaded rod four, a lifting helical gear, a rotating helical gear, a handle, a gear positioning piece, a lifting leg, a buffer shell, a universal wheel shell, a spherical wheel, a clamping piece and a spring four, wherein the threaded rod four is fixedly connected with the lifting helical gear through a through hole;

a limiting annular groove is formed in the rotating bevel gear;

the lifting legs are provided with thread grooves;

a step groove V is formed in the buffer shell;

a ball wheel groove is arranged on the universal wheel shell;

the main mechanism comprises a spring five, a grid plate, a vibrating rod, a stirring piece, a connecting gear chain, a multilayer gear set, a motor helical gear, a motor three, a repeated swinging piece, a matching gear, a sawtooth push rod and a garbage push plate, wherein the spring five is fixedly connected with the grid plate, the grid plate is in contact connection with the vibrating rod, the vibrating rod is in contact connection with the stirring piece, the stirring piece is connected with the multilayer gear set through the connecting gear chain, the multilayer gear set is meshed with the motor helical gear, the motor helical gear is fixedly connected with the motor three, the multilayer gear set is meshed with the matching gear, the matching gear is connected with the repeated swinging piece, the repeated swinging piece is meshed with the sawtooth push rod, and the sawtooth push rod is fixedly connected with;

the vibrating rod comprises a straight rod and a first sliding block, the straight rod is fixedly connected with the first sliding block, and two ends of the straight rod are respectively in contact connection with the grid plate and the poke rod;

the poking piece comprises a poking rod, a poking gear and a small shaft, the poking rod and the poking gear are fixedly connected with the small shaft through a through hole, the poking gear is meshed with the connecting gear chain, and the small shaft is connected with the rear shell main body through a groove gap;

the multi-layer gear set comprises a large gear, a middle helical gear, a small gear and a positioning shaft, wherein the large gear, the middle helical gear and the small gear are fixedly connected with the positioning shaft through holes, the small gear is meshed with a connecting gear chain, the middle helical gear is meshed with a motor helical gear, the large gear is meshed with a matching gear, and the positioning shaft is connected with the rear shell body through a groove gap;

the repeated swinging piece comprises a swinging piece and a round mandrel, the swinging piece is connected with the round mandrel through a gap of the through hole, and the round mandrel is fixedly connected with the rear shell main body through a groove;

the swing part is provided with an oval through hole;

the matching gear comprises a swing gear, a central shaft and a cylindrical fixing piece, the swing gear is in clearance connection with the central shaft through a through hole, the swing gear is fixedly connected with the cylindrical fixing piece, the cylindrical fixing piece is connected with the swing piece through an oval through hole, and the rear shell main body is fixedly connected with the central shaft through a groove;

the sawtooth push rod comprises a sawtooth straight rod and a second sliding block, the sawtooth straight rod is fixedly connected with the second sliding block, and the sawtooth straight rod is meshed with the swing part;

the rear shell mechanism comprises a rear shell main body, a turbine, a first cover, a second cover, a third cover, a garbage baffle, a non-return baffle, a return spring and an atomizing nozzle, wherein the rear shell main body is fixedly connected with the turbine through a groove;

the rear shell main body is provided with a screw hole four, a stepped track groove, a limiting stepped groove, a stepped groove six, a first lifting groove, a second lifting groove, a fixing groove, a first track groove, a structural main groove, a structural groove two, a swing adapting groove, a water flow groove, a water pool and a second track groove, the rear shell main body is meshed with the screw rod two through the screw hole four, a second limiting part is connected with the rear shell main body through a limiting stepped groove gap, a connecting piece is connected with the rear shell main body through a stepped track groove, a third limiting part is connected with the rear shell main body through a stepped groove six gap, an extension pipe is adapted with the first lifting groove, the second lifting groove is adapted with a lifting leg, a gear positioning piece is fixedly connected with the rear shell main body through the fixing groove, a second track is connected with the rear shell main body through a first track groove, the rear shell main body is connected with the main mechanism through a structural main groove, and, the water flow groove is connected with the water pool, and the rear shell main body is connected with the first sliding block through the first track groove and the second track groove;

the balance moving mechanism is connected with the rolling brush mechanism, the front shell mechanism is connected with the connecting piece, the lifting piece is connected with the rear shell mechanism, the compression mechanism is connected with the rear shell mechanism, the suction port device is connected with the rear shell mechanism, the rear lifting wheel mechanism is connected with the rear shell mechanism, the main mechanism is connected with the rear shell mechanism, and the rear shell mechanism is connected with the connecting piece.

As a further optimization of the technical scheme, the novel municipal environment-friendly comprehensive cleaning device has two balance moving mechanisms which are symmetrical in position.

As a further optimization of the technical scheme, the number of the rear lifting wheel mechanisms of the novel municipal environment-friendly comprehensive cleaning device is two, and the positions of the rear lifting wheel mechanisms are symmetrical.

As a further optimization of the technical scheme, the roller brush and the auxiliary roller brush of the novel municipal environmental-friendly comprehensive cleaning device have the same structure.

The novel municipal environment-friendly comprehensive cleaning device has the beneficial effects that:

the novel municipal environment-friendly comprehensive cleaning device has the functions of cleaning the isolation fence, cleaning the street, classifying dust and garbage, reducing dust, compressing garbage and adjusting height, and is multifunctional and convenient to operate.

Drawings

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

FIG. 1 is a schematic structural diagram of a novel municipal environmental-protection comprehensive cleaning device of the invention.

Fig. 2 is a schematic structural diagram of a balance moving mechanism 1 of the novel municipal environmental-protection comprehensive cleaning device.

FIG. 3 is a schematic diagram of a spring assembly 1-2 of the new municipal environmental-friendly integrated cleaning device of the invention.

Fig. 4 is a schematic structural diagram of a rolling brush mechanism 2 of the novel municipal environmental-protection comprehensive cleaning device.

FIG. 5 is a schematic structural diagram of a roller brush 2-1 of the novel municipal environmental-protection comprehensive cleaning device.

Fig. 6 is a schematic structural diagram of a front shell mechanism 3 of the novel municipal environmental-protection comprehensive cleaning device.

Fig. 7 is a schematic cross-sectional view a-a of fig. 6.

FIG. 8 is a schematic structural diagram of a positioning member 3-2 of the new municipal environmental comprehensive cleaning device of the invention.

Fig. 9 is a schematic structural diagram of a connecting piece 4 of the novel municipal environmental-protection comprehensive cleaning device.

Fig. 10 is a schematic cross-sectional view of D-D in fig. 9.

Fig. 11 is a schematic structural diagram of a lifting member 5 of the novel municipal environmental-protection integrated cleaning device.

FIG. 12 is a schematic view of the compressing mechanism 6 of the new municipal environmental-protection integrated cleaning device of the invention.

FIG. 13 is a schematic view of the combination structure of the pushing rod 6-3 and the fixed connecting column 6-6 of the novel municipal environmental comprehensive cleaning device.

Fig. 14 is a schematic view of the suction device 7 of the new municipal environmental-protection integrated cleaning device of the invention.

FIG. 15 is a schematic diagram of the rear lifting wheel mechanism 8 of the new municipal environmental comprehensive cleaning device of the invention.

Fig. 16 is a schematic structural diagram of the main mechanism 9 of the novel municipal environmental-protection integrated cleaning device.

FIG. 17 is a schematic view of the structure of a vibrating rod 9-3 of the new municipal environmental comprehensive cleaning device.

FIG. 18 is a schematic structural view of a toggle part 9-4 of the novel municipal environmental-friendly comprehensive cleaning device.

FIG. 19 is a schematic view of the multi-layered gear set 9-6 of the new municipal environmental integrated cleanup unit of the present invention.

FIG. 20 is a schematic view of the structure of the oscillating member 9-9 of the new municipal environmental comprehensive cleaning device of the invention.

FIG. 21 is a schematic diagram of the structure of the mating gears 9-10 of the new municipal environmental comprehensive cleaning device of the invention.

FIG. 22 is a schematic structural view of a saw-tooth push rod 9-11 of the novel municipal environmental-protection integrated cleaning device.

Fig. 23 is a schematic structural diagram of the rear shell mechanism 10 of the novel municipal environmental-protection integrated cleaning device.

Fig. 24 is a partially enlarged structural diagram of B in fig. 23.

Fig. 25 is a partially enlarged structural view of C in fig. 23.

In the figure: a balance moving mechanism 1; 1-1 of a front wheel shell; 1-1-1 of a third-level stepped hole; 1-1-2 of a stepped groove I; 1-1-3 of a third-level stepped hole II; a first spring assembly 1-2; 1-2-1 of a soil character piece; a second spring 1-2-2; 1-3 of an I-shaped connecting piece; 1-4 parts of a limiting ring I; 1-5 parts of a first threaded rod; a balance center column 1-6; 1-7 roller fixing pieces; 1-7-1 of a threaded hole I; 1-7-2 of a cylindrical groove; 1-8 parts of spherical shell; 1-8-1 of a spherical groove; 1-9 parts of a spherical wheel; a rolling brush mechanism 2; 2-1 of a roller brush; a rolling brush shaft 2-1-1; driving the gear 2-1-2; a first limiting part 2-1-3; 2-2 parts of an auxiliary roller brush; 2-3 of a gear chain; 2-4 parts of a power gear; 2-5 of a first motor; a front housing mechanism 3; a front case main body 3-1; a positioning groove 3-1-1; 3-1-2 parts of a stepped groove II; a slot 3-1-3 for motor power; step groove III 3-1-4; 3-1-5 of a third-level stepped hole; step four 3-1-6; 3-2 of a positioning piece; t-piece 3-2-1; a third spring 3-2-2; 3-2-3 of a handle; a connecting piece 4; a clamping groove 4-1; a second threaded hole 4-2; a lifting member 5; 5-1 of a second threaded rod; a second limiting part 5-2; a compression mechanism 6; a balance bar 6-1; a push plate 6-2; a smooth through hole I6-2-1; the arc-shaped groove 6-2-2; 6-3 of a push rod; a T-shaped through hole 6-3-1; 6-4 parts of gear; 6-5 parts of a fixed shaft; 6-6 parts of a fixed connecting column; 6-7 of a bevel gear shaft; 6-8 parts of a bevel gear; 6-9 parts of a second motor; a suction port arrangement 7; a limiting piece III 7-1; 7-2 parts of a threaded rod III; 7-3 of an extension pipe; a threaded hole III 7-3-1; a rear lifting wheel mechanism 8; a fourth threaded rod 8-1; lifting bevel gears 8-2; rotating the bevel gear 8-3; a limiting annular groove 8-3-1; 8-4 of a handle; 8-5 of a gear positioning piece; 8-6 of lifting legs; 8-6-1 of a thread groove; 8-7 parts of a buffer shell; step groove five 8-7-1; 8-8 parts of universal wheel shell; a ball wheel groove 8-8-1; 8-9 parts of spherical wheel; 8-10 parts of a clamping piece; 8-11 parts of spring; a main mechanism 9; a fifth spring 9-1; 9-2 of grid plate; a vibrating rod 9-3; 9-3-1 of a straight rod; 9-3-2 of a first sliding block; a toggle member 9-4; a poke rod 9-4-1; the gear 9-4-2 is stirred; 9-4-3 of a small shaft; connecting a gear chain 9-5; a multi-layer gear set 9-6; a bull gear 9-6-1; middle bevel gears 9-6-2; pinion 9-6-3; 9-6-4 of a positioning shaft; 9-7 parts of a motor bevel gear; 9-8 parts of a third motor; a repetitive oscillating piece 9-9; 9-9-1 of goods of furniture; an oval through hole 9-9-1-1; a round mandrel 9-9-2; 9-10 of a matching gear; a swing gear 9-10-1; central shaft 9-10-2; a cylindrical fixing piece 9-10-3; a sawtooth push rod 9-11; a sawtooth straight rod 9-11-1; 9-11-2 of a second sliding block; 9-12 parts of a garbage push plate; a rear housing mechanism 10; a rear case main body 10-1; a threaded hole IV 10-1-1; a stepped track groove 10-1-2; a limiting stepped groove 10-1-3; step groove six 10-1-4; a first lifting groove 10-1-5; a second lifting groove 10-1-6; 10-1-7 of a fixing groove; the first track groove is 10-1-8; structural main grooves 10-1-9; a structural groove II 10-1-10; swing adaptive slots 10-1-11; 10-1-12 of a water flow groove; 10-1-13 of a water pool; 10-1-14 of a second track groove; a turbine 10-2; a first cover 10-3; 10-4 of a second cover; 10-5 parts of a third cover; 10-6 of a garbage baffle plate; 10-7 of a non-return baffle plate; 10-8 of a return spring; and 10-9 parts of an atomizing nozzle.

Detailed Description

The first embodiment is as follows:

the present invention relates to a new type municipal environmental comprehensive cleaning device, which comprises a balance moving mechanism 1, a rolling brush mechanism 2, a front shell mechanism 3, a connecting piece 4, a lifting piece 5, a compression mechanism 6, a suction port device 7, a rear lifting wheel mechanism 8, a main mechanism 9 and a rear shell mechanism 10, and the device has the functions of cleaning a barrier, cleaning a street, classifying dust and garbage, reducing dust, compressing garbage, adjusting height, and facilitating operation.

The balance moving mechanism 1 comprises a front wheel shell 1-1, a spring assembly I1-2, an I-shaped connecting piece 1-3, a limiting ring I1-4, a threaded rod I1-5, a balance center post 1-6, a roller fixing piece 1-7, a spherical shell 1-8 and a spherical wheel 1-9, wherein the front wheel shell 1-1 is connected with the spring assembly I1-2 through a three-stage stepped hole I1-1, the front wheel shell 1-1 is connected with the I-shaped connecting piece 1-3 through a stepped groove I1-1-2, the front wheel shell 1-1 is connected with the limiting ring I1-4 through a three-stage stepped hole II 1-1-3, the limiting ring I1-4 is fixedly connected with the threaded rod I1-5 through a through hole, the front wheel shell 1-1 is fixedly connected with the balance center post 1-6, the balance central column 1-6 is connected with the roller fixing piece 1-7 through a cylindrical groove 1-7-2, the threaded rod 1-5 is meshed with the roller fixing piece 1-7 through a threaded hole 1-7-1, the roller fixing piece 1-7 is fixedly connected with the spherical shell 1-8, the spherical shell 1-8 is connected with the spherical wheel 1-9 through a spherical groove 1-8-1, the threaded rod 1-5 is rotated, the threaded rod 1-5 drives the roller fixing piece 1-7 to ascend, the purpose of adjusting the height of the balance moving mechanism 1 is achieved, the limiting ring 1-4 plays a role in fixing a position, the balance central column 1-6 ensures stable connection, the I-shaped connecting piece 1-3 plays a role in connection and axis, and the spring assembly 1-2 plays a role in fixing a position;

the front wheel shell 1-1 is provided with a first three-stage stepped hole 1-1-1, a first stepped groove 1-1-2 and a second three-stage stepped hole 1-1-3;

the spring assembly I1-2 comprises a soil character part 1-2-1 and a spring II 1-2-2, the soil character part 1-2-1 is fixedly connected with the spring II 1-2-2, and the stepped groove I1-1-2 plays a role in supporting the soil character part 1-2-1;

the roller fixing piece 1-7 is provided with a threaded hole I1-7-1 and a cylindrical groove 1-7-2;

the spherical shell 1-8 is provided with a spherical groove 1-8-1;

the rolling brush mechanism 2 comprises a rolling brush 2-1, an auxiliary rolling brush 2-2, a gear chain 2-3, a power gear 2-4 and a motor I2-5, wherein the rolling brush 2-1 is meshed with the gear chain 2-3, the auxiliary rolling brush 2-2 is meshed with the gear chain 2-3, the gear chain 2-3 is meshed with the power gear 2-4, the power gear 2-4 is fixedly connected with the motor I2-5, the motor I2-5 is started, and the motor I2-5 synchronously drives the rolling brush 2-1 and the auxiliary rolling brush 2-2 to rotate through the gear chain 2-3 and the power gear 2-4, so that the purpose of cleaning the road isolation fence is achieved;

the roller brush 2-1 comprises a roller brush shaft 2-1-1, a driving gear 2-1-2 and a limiting piece I2-1-3, the roller brush shaft 2-1-1 is fixedly connected with the driving gear 2-1-2 through a through hole, the roller brush shaft 2-1-1 is fixedly connected with the limiting piece I2-1-3, and the limiting piece I2-1-3 plays a role in limiting the position;

the front shell mechanism 3 comprises a front shell main body 3-1 and a positioning piece 3-2, wherein the front shell main body 3-1 is in clearance connection with the positioning piece 3-2 through a third-stage stepped hole III 3-1-5;

the front shell main body 3-1 is provided with a positioning groove 3-1-1, a step groove two 3-1-2, a motor power groove 3-1-3, a step groove three 3-1-4, a three-stage step hole three 3-1-5 and a step groove four 3-1-6, the front shell main body 3-1 is fixedly connected with the motor I2-5 through a motor power groove 3-1-3, the front shell main body 3-1 is connected with the limit piece I2-1-3 through a step groove III 3-1-4, the I-shaped connecting piece 1-3 is connected with the front shell main body 3-1 through a step groove II 3-1-2, and the soil character piece 1-2-1 is in clearance connection with the front shell main body 3-1 through a positioning groove 3-1-1;

the positioning piece 3-2 comprises a T-shaped piece 3-2-1, a spring III 3-2-2 and a handle 3-2-3, the T-shaped piece 3-2-1 is fixedly connected with the spring III 3-2-2, the T-shaped piece 3-2-1 is fixedly connected with the handle 3-2-3, and the spring III 3-2-2 supports the T-shaped piece 3-2-1;

a clamping groove 4-1 and a threaded hole II 4-2 are formed in the connecting piece 4, the connecting piece 4 is in clearance connection with the T-shaped piece 3-2-1 through the clamping groove 4-1, and the front shell main body 3-1 is connected with the connecting piece 4 through a stepped groove IV 3-1-6;

the lifting piece 5 comprises a second threaded rod 5-1 and a second limiting piece 5-2, the second threaded rod 5-1 is fixedly connected with the second limiting piece 5-2, the second threaded rod 5-1 is meshed with the connecting piece 4 through a second threaded hole 4-2, and the second limiting piece 5-2 limits the position of the second threaded rod 5-1;

the compression mechanism 6 comprises a balance rod 6-1, a push plate 6-2, a push rod 6-3, a gear 6-4, a fixed shaft 6-5, a fixed connecting column 6-6, a bevel gear shaft 6-7, a bevel gear 6-8 and a motor II 6-9, the balance rod 6-1 is in clearance connection with the push plate 6-2 through a smooth through hole I6-2-1, the push plate 6-2 is hinged with the push rod 6-3 through an arc groove 6-2-2, the push rod 6-3 is in clearance connection with the fixed connecting column 6-6 through a T-shaped through hole 6-3-1, the fixed connecting column 6-6 is fixedly connected with the gear 6-4, the gear 6-4 is in key connection with the fixed shaft 6-5, the gear 6-4 is meshed with the bevel gear shaft 6-7, the bevel gear shaft 6-7 is meshed with the bevel gear 6-8, the bevel gear 6-8 is fixedly connected with the motor II 6-9, the rear shell main body 10-1 is fixedly connected with the balance rod 6-1, the motor II 6-9 is started, the motor II 6-9 drives the gear 6-4 through the bevel gear shaft 6-7 and the bevel gear 6-8, the gear 6-4 rotates to enable the fixed connecting column 6-6 to drive the push rod 6-3 to push the push plate 6-2, wherein the fixed shaft 6-5 starts the fixed connection function, the balance rod 6-1 starts the balance keeping function, and at the moment, the push plate 6-2 moves repeatedly to achieve the purpose of compressing garbage;

a smooth through hole I6-2-1 and an arc-shaped groove 6-2-2 are formed in the push plate 6-2;

the pushing rod 6-3 is provided with a T-shaped through hole 6-3-1;

the suction port device 7 comprises a limiting piece III 7-1, a threaded rod III 7-2 and an extension pipe 7-3, the limiting piece III 7-1 is fixedly connected with the threaded rod III 7-2, the threaded rod III 7-2 is meshed with the extension pipe 7-3 through a threaded hole III 7-3-1, the extension pipe 7-3 is moved up and down by rotating the threaded rod III 7-2, the distance between the suction port device 7 and the ground is adjusted, and the limiting piece III 7-1 plays a role in fixing the position;

a threaded hole III 7-3-1 is formed in the extension pipe 7-3;

the rear lifting wheel mechanism 8 comprises a threaded rod four 8-1, a lifting helical gear 8-2, a rotating helical gear 8-3, a handle 8-4, a gear positioning piece 8-5, a lifting leg 8-6, a buffer shell 8-7, a universal wheel shell 8-8, a spherical wheel 8-9, a clamping piece 8-10 and a spring four 8-11, wherein the threaded rod four 8-1 is fixedly connected with the lifting helical gear 8-2 through a through hole, the lifting helical gear 8-2 is meshed with the rotating helical gear 8-3, the rotating helical gear 8-3 is fixedly connected with the handle 8-4, the rotating helical gear 8-3 is in clearance connection with the gear positioning piece 8-5 through a limiting annular groove 8-3-1, and the threaded rod four 8-1 is meshed with the lifting leg 8-6 through a threaded groove 8-6-1, the lifting leg 8-6 is fixedly connected with a blocking part 8-10, the blocking part 8-10 is connected with the buffer shell 8-7 through a step groove five 8-7-1, the blocking part 8-10 is fixedly connected with a spring four 8-11, the buffer shell 8-7 is fixedly connected with a universal wheel shell 8-8, the universal wheel shell 8-8 is connected with a spherical wheel 8-9 through a ball wheel groove 8-8-1, a rotating bevel wheel 8-3 drives a lifting bevel wheel 8-2 to rotate through rotation of a handle 8-4, so that a threaded rod four 8-1 drives the lifting leg 8-6 to lift to adjust the height, the spring four 8-11 supports the blocking part 8-10, the blocking part 8-10 is in clearance connection with the buffer shell 8-7 to play a buffer role, the gear positioning piece 8-5 plays a role in keeping balance;

a limiting annular groove 8-3-1 is arranged on the rotary helical gear 8-3;

the lifting leg 8-6 is provided with a thread groove 8-6-1;

a step groove V8-7-1 is formed in the buffer shell 8-7;

a ball wheel groove 8-8-1 is arranged on the universal wheel shell 8-8;

the main mechanism 9 comprises a spring five 9-1, a grid plate 9-2, a vibrating rod 9-3, a stirring part 9-4, a connecting gear chain 9-5, a multi-layer gear set 9-6, a motor bevel gear 9-7, a motor three 9-8, a repeated swinging part 9-9, a matching gear 9-10, a sawtooth push rod 9-11 and a garbage push plate 9-12, wherein the spring five 9-1 is fixedly connected with the grid plate 9-2, the grid plate 9-2 is connected with the vibrating rod 9-3 in a contact way, the vibrating rod 9-3 is connected with the stirring part 9-4 in a contact way, the stirring part 9-4 is connected with the multi-layer gear set 9-6 through the connecting gear chain 9-5, the multi-layer gear set 9-6 is meshed with the motor bevel gear 9-7, the motor bevel gear 9-7 is fixedly connected with the motor three 9-8, the multi-layer gear set 9-6 is meshed with the matching gear 9-10, the matching gear 9-10 is connected with the repeated swinging piece 9-9, the repeated swinging piece 9-9 is meshed with the sawtooth push rod 9-11, the sawtooth push rod 9-11 is fixedly connected with the garbage push plate 9-12, dust and garbage sucked by the turbine 10-2 pass through the grid plate 9-2, the garbage is intercepted, the motor III 9-8 is started, the motor III 9-8 drives the motor helical gear 9-7, the multi-layer gear set 9-6 drives the stirring piece 9-4 and the matching gear 9-10 simultaneously, the matching gear 9-10 drives the repeated swinging piece 9-9 to swing, so that the sawtooth push rod 9-11 pushes the garbage push plate 9-12 to do reciprocating motion, and the garbage push plate 9-12 pushes the garbage intercepted by the grid plate 9-2 to the cover I10-3 and the cover II 10-4 The purpose of cleaning garbage is achieved, meanwhile, the stirring piece 9-4 pushes the vibrating rod 9-3, the vibrating rod 9-3 pushes the grid plate 9-2, the grid plate 9-2 resets under the supporting action of the spring five 9-1, and the effect of shaking dust on the grid plate 9-2 is achieved;

the vibrating rod 9-3 comprises a straight rod 9-3-1 and a sliding block I9-3-2, the straight rod 9-3-1 is fixedly connected with the sliding block I9-3-2, and two ends of the straight rod 9-3-1 are respectively in contact connection with the grid plate 9-2 and the poke rod 9-4-1;

the poking part 9-4 comprises a poking rod 9-4-1, a poking gear 9-4-2 and a small shaft 9-4-3, the poking rod 9-4-1 and the poking gear 9-4-2 are both fixedly connected with the small shaft 9-4-3 through a through hole, the poking gear 9-4-2 is meshed with the connecting gear chain 9-5, and the small shaft 9-4-3 is connected with the rear shell main body 10-1 through a groove gap;

the multi-layer gear set 9-6 comprises a large gear 9-6-1, a middle bevel gear 9-6-2, a small gear 9-6-3 and a positioning shaft 9-6-4, wherein the large gear 9-6-1, the middle bevel gear 9-6-2 and the small gear 9-6-3 are fixedly connected with the positioning shaft 9-6-4 through holes, the small gear 9-6-3 is meshed with a connecting gear chain 9-5, the middle bevel gear 9-6-2 is meshed with a motor bevel gear 9-7, the large gear 9-6-1 is meshed with a matching gear 9-10, and the positioning shaft 9-6-4 is connected with a rear shell main body 10-1 through a groove gap;

the repeated swinging piece 9-9 comprises a swinging piece 9-9-1 and a round spindle 9-9-2, the swinging piece 9-9-1 is connected with the round spindle 9-9-2 through a through hole gap, and the round spindle 9-9-2 is fixedly connected with the rear shell main body 10-1 through a groove;

the swing part 9-9-1 is provided with an oval through hole 9-9-1-1;

the matching gear 9-10 comprises a swinging gear 9-10-1, a central shaft 9-10-2 and a cylindrical fixing piece 9-10-3, the swinging gear 9-10-1 is in clearance connection with the central shaft 9-10-2 through a through hole, the swinging gear 9-10-1 is fixedly connected with the cylindrical fixing piece 9-10-3, the cylindrical fixing piece 9-10-3 is connected with the swinging piece 9-9-1 through an oval through hole 9-9-1-1, and the rear shell main body 10-1 is fixedly connected with the central shaft 9-10-2 through a groove;

the sawtooth push rod 9-11 comprises a sawtooth straight rod 9-11-1 and a sliding block II 9-11-2, the sawtooth straight rod 9-11-1 is fixedly connected with the sliding block II 9-11-2, and the sawtooth straight rod 9-11-1 is meshed with the swing part 9-9-1;

the rear shell mechanism 10 comprises a rear shell main body 10-1, a turbine 10-2, a cover I10-3, a cover II 10-4, a cover III 10-5, a garbage baffle plate 10-6, a non-return baffle plate 10-7, a return spring 10-8 and an atomizing nozzle 10-9, wherein the rear shell main body 10-1 is fixedly connected with the turbine 10-2 through a groove, the rear shell main body 10-1 is connected with the cover I10-3 through a fastening screw, the rear shell main body 10-1 is connected with the cover II 10-4 through a fastening screw, the rear shell main body 10-1 is connected with the cover III 10-5 through a fastening screw, the rear shell main body 10-1 is hinged with the garbage baffle plate 10-6 through a swing adapting groove 10-1-11, the non-return baffle plate 10-7 is fixedly connected with the return spring 10-8, a return spring 10-8 is fixedly connected with a rear shell main body 10-1, the rear shell main body 10-1 is fixedly connected with an atomizing nozzle 10-9 through a groove, the atomizing nozzle 10-9 is connected with a water flow groove 10-1-12, shaken off dust is sucked into a container below a cover III 10-5 through a turbine 10-2, the atomizing nozzle 10-9 atomizes water in a water pool 10-1-13 to play a role of dust fall, wind power generated by the turbine 10-2 pushes a non-return baffle 10-7 to blow the dust into the container around the non-return baffle 10-7, when the turbine 10-2 stops working, the return spring 10-8 pulls the non-return baffle 10-7 to restore to play a role of preventing dust from flowing backwards, cleaning of the device can be performed by opening the first cover 10-3, the second cover 10-4 and the third cover 10-5;

the rear shell main body 10-1 is provided with a threaded hole IV 10-1-1, a stepped track groove 10-1-2, a limiting stepped groove 10-1-3, a stepped groove VI 10-1-4, a lifting groove I10-1-5, a lifting groove II 10-1-6, a fixing groove 10-1-7, a track groove I10-1-8, a structure main groove 10-1-9, a structure groove II 10-1-10, a swing adaptation groove 10-1-11, a water flow groove 10-1-12, a water pool 10-1-13 and a track groove II 10-1-14, the rear shell main body 10-1 is meshed with the threaded rod II 5-1 through the threaded hole IV 10-1-1, a limiting part II 5-2 is in clearance connection with the rear shell main body 10-1 through the limiting stepped groove 10-1-3, the connecting piece 4 is connected with the rear shell main body 10-1 through a stepped track groove 10-1-2, the limiting piece three 7-1 is connected with the rear shell main body 10-1 through a stepped groove six 10-1-4 clearance, the extension pipe 7-3 is adapted with the lifting groove one 10-1-5, the lifting groove two 10-1-6 is adapted with the lifting leg 8-6, the gear positioning piece 8-5 is fixedly connected with the rear shell main body 10-1 through a fixing groove 10-1-7, the sliding block two 9-11-2 is connected with the rear shell main body 10-1 through a track groove one 10-1-8, the rear shell main body 10-1 is connected with the main mechanism 9 through a structure main groove 10-1-9, the rear shell main body 10-1 is connected with the compression mechanism 6 through a structure groove two 10-1-10, the water flow groove 10-1-12 is connected with the water pool 10-1-13, and the rear shell main body 10-1 is connected with the sliding block I9-3-2 through the rail groove II 10-1-14;

the balance moving mechanism 1 is connected with the rolling brush mechanism 2, the front shell mechanism 3 is connected with the connecting piece 4, the lifting piece 5 is connected with the rear shell mechanism 10, the compression mechanism 6 is connected with the rear shell mechanism 10, the suction port device 7 is connected with the rear shell mechanism 10, the rear lifting wheel mechanism 8 is connected with the rear shell mechanism 10, the main mechanism 9 is connected with the rear shell mechanism 10, and the rear shell mechanism 10 is connected with the connecting piece 4.

The second embodiment is as follows:

the present embodiment is 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, 24, and 25, and the present embodiment further describes the first embodiment in that the number of the balance moving mechanisms 1 is two and the positions are symmetrical.

The third concrete implementation mode:

the present embodiment is 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, 24, and 25, and the present embodiment further describes the first embodiment in that the number of the rear lifting/lowering wheel mechanisms 8 is two and the positions are symmetrical.

The fourth concrete implementation mode:

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, 24, and 25, and the present embodiment further describes the first embodiment, and the roller brush 2-1 and the sub-roller brush 2-2 have the same structure.

The use method of the device comprises the following steps: and rotating the first threaded rod 1-5, and driving the first roller fixing piece 1-7 to ascend by the first threaded rod 1-5 to achieve the purpose of adjusting the height of the balance moving mechanism 1.

And starting the motor I2-5, wherein the motor I2-5 synchronously drives the roller brush 2-1 and the auxiliary roller brush 2-2 to rotate through the gear chain 2-3 and the power gear 2-4, so that the aim of cleaning the road isolation fence is fulfilled.

Pulling the soil character part 1-2-1 to separate the soil character part 1-2-1 from the positioning groove 3-1-1, rotating the balance moving mechanism 1 at two sides to 90 degrees by taking the I-shaped connecting part 1-3 as a shaft, fixing the soil character part 1-2-1, pulling the handle 3-2-3, driving the T-shaped part 3-2-1 to separate from the clamping groove 4-1 by the handle 3-2-3, rotating the front shell mechanism 3 to 90 degrees by taking the connecting part 4 as a shaft, fixing the T-shaped part 3-2-1, rotating the threaded rod two 5-1, driving the front shell mechanism 3 to move downwards by the connecting part 4 by the rotation of the threaded rod two 5-1, so that the roller brush shaft 2-1-1 contacts the ground, starting the motor one 2-5, the roller brush 2-1 and the auxiliary roller brush 2-2 can clean the ground.

And starting a second motor 6-9, wherein the second motor 6-9 drives a gear 6-4 through a bevel gear shaft 6-7 and a bevel gear 6-8, the gear 6-4 rotates to enable a fixed connecting column 6-6 to drive a push rod 6-3 to push a push plate 6-2, a fixed shaft 6-5 starts the fixed connection, a balance rod 6-1 starts to keep balance, and the push plate 6-2 moves repeatedly to achieve the aim of compressing garbage.

The turbine 10-2 is started, the turbine 10-2 sucks in the garbage and dust on the ground through the suction port device 7, and the extension pipe 7-3 moves up and down by rotating the threaded rod III 7-2, so that the effect of adjusting the distance between the suction port device 7 and the ground is achieved.

The handle 8-4 is rotated to enable the rotating bevel gear 8-3 to drive the lifting bevel gear 8-2 to rotate, so that the threaded rod four 8-1 drives the lifting leg 8-6 to lift to achieve the effect of adjusting the height, the spring four 8-11 supports the clamping piece 8-10, and the clamping piece 8-10 is in clearance connection with the buffer shell 8-7 to achieve the buffer purpose.

The dust and the garbage sucked by the turbine 10-2 pass through the grid plate 9-2, the garbage is intercepted, the motor III 9-8 is started, the motor III 9-8 drives the motor helical gear 9-7, the multi-layer gear set 9-6 simultaneously drives the stirring piece 9-4 and the matching gear 9-10, the matching gear 9-10 drives the repeated swinging piece 9-9 to swing, so that the sawtooth push rod 9-11 pushes the garbage push plate 9-12 to do reciprocating motion, the garbage push plate 9-12 pushes the garbage intercepted by the grid plate 9-2 to the space above the cover I10-3 and the cover II 10-4, the purpose of cleaning the garbage is realized, the stirring piece 9-4 simultaneously pushes the vibrating rod 9-3, the vibrating rod 9-3 pushes the grid plate 9-2, and the grid plate 9-2 is reset under the supporting action of the spring V9-1, the vibrating grid plate 9-2 sucks dust in a container below a cover III 10-5 through a turbine 10-2, an atomizing nozzle 10-9 atomizes water in a water tank 10-1-13 to play a role of dust reduction, wind power generated by the turbine 10-2 pushes a non-return baffle 10-7 to blow the dust into the container around the non-return baffle 10-7, and when the turbine 10-2 stops working, a return spring 10-8 pulls the non-return baffle 10-7 to restore to play a role of preventing the dust from flowing backwards.

This device has the function of clearance isolated column, the function in clearance street, and dust and waste classification's function has the function of dust fall, has the function of compression rubbish, still has the function of height-adjusting, and the device function is multiple, the operation of being convenient for.

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 (4)

1. The utility model provides a neotype municipal administration environmental protection is with synthesizing cleaning device, includes balanced moving mechanism (1), round brush mechanism (2), preceding shell mechanism (3), connecting piece (4), lift (5), compressing mechanism (6), suction inlet device (7), back lifting wheel mechanism (8), host computer mechanism (9), backshell mechanism (10), its characterized in that: the balance moving mechanism (1) comprises a front wheel shell (1-1), a spring assembly I (1-2), an I-shaped connecting piece (1-3), a limiting ring I (1-4), a threaded rod I (1-5), a balance central column (1-6), a roller fixing piece (1-7), a spherical shell (1-8) and a spherical wheel (1-9), wherein the front wheel shell (1-1) is connected with the spring assembly I (1-2) through a three-stage stepped hole I (1-1-1), the front wheel shell (1-1) is connected with the I-shaped connecting piece (1-3) through a stepped groove I (1-1-2), the front wheel shell (1-1) is connected with the limiting ring I (1-4) through a three-stage stepped hole II (1-1-3), the limiting ring I (1-4) is fixedly connected with a threaded rod I (1-5) through a through hole, the front wheel shell (1-1) is fixedly connected with a balance central column (1-6), the balance central column (1-6) is connected with a roller fixing piece (1-7) through a cylindrical groove (1-7-2), the threaded rod I (1-5) is meshed with the roller fixing piece (1-7) through a threaded hole I (1-7-1), the roller fixing piece (1-7) is fixedly connected with a spherical shell (1-8), and the spherical shell (1-8) is connected with a spherical wheel (1-9) through a spherical groove (1-8-1);

the front wheel shell (1-1) is provided with a first three-stage stepped hole (1-1-1), a first stepped groove (1-1-2) and a second three-stage stepped hole (1-1-3);

the spring assembly I (1-2) comprises a soil character part (1-2-1) and a spring II (1-2-2), and the soil character part (1-2-1) is fixedly connected with the spring II (1-2-2);

a first threaded hole (1-7-1) and a cylindrical groove (1-7-2) are formed in the roller fixing piece (1-7);

the spherical shell (1-8) is provided with a spherical groove (1-8-1);

the rolling brush mechanism (2) comprises a rolling brush (2-1), an auxiliary rolling brush (2-2), a gear chain (2-3), a power gear (2-4) and a motor I (2-5), wherein the rolling brush (2-1) is meshed with the gear chain (2-3), the auxiliary rolling brush (2-2) is meshed with the gear chain (2-3), the gear chain (2-3) is meshed with the power gear (2-4), and the power gear (2-4) is fixedly connected with the motor I (2-5);

the roller brush (2-1) comprises a roller brush shaft (2-1-1), a driving gear (2-1-2) and a limiting piece I (2-1-3), the roller brush shaft (2-1-1) is fixedly connected with the driving gear (2-1-2) through a through hole, and the roller brush shaft (2-1-1) is fixedly connected with the limiting piece I (2-1-3);

the front shell mechanism (3) comprises a front shell main body (3-1) and a positioning piece (3-2), wherein the front shell main body (3-1) is in clearance connection with the positioning piece (3-2) through a third-stage stepped hole III (3-1-5);

a positioning groove (3-1-1), a step groove II (3-1-2), a motor power groove (3-1-3), a step groove III (3-1-4), a three-stage step hole III (3-1-5) and a step groove IV (3-1-6) are arranged on the front shell main body (3-1-1), the front shell main body (3-1) and the motor I (2-5) are fixedly connected through the motor power groove (3-1-3), the front shell main body (3-1) and the limiting part I (2-1-3) are connected through the step groove III (3-1-4), the I-shaped connecting piece (1-3) and the front shell main body (3-1) are connected through the step groove II (3-1-2), and the I-shaped piece (1-2-1) and the front shell main body (3-1) are connected through the positioning groove (3-1) -1-1) gap joining;

the positioning piece (3-2) comprises a T-shaped piece (3-2-1), a spring III (3-2-2) and a handle (3-2-3), the T-shaped piece (3-2-1) is fixedly connected with the spring III (3-2-2), and the T-shaped piece (3-2-1) is fixedly connected with the handle (3-2-3);

a clamping groove (4-1) and a threaded hole II (4-2) are formed in the connecting piece (4), the connecting piece (4) is in clearance connection with the T-shaped piece (3-2-1) through the clamping groove (4-1), and the front shell main body (3-1) is connected with the connecting piece (4) through a stepped groove IV (3-1-6);

the lifting piece (5) comprises a second threaded rod (5-1) and a second limiting piece (5-2), the second threaded rod (5-1) is fixedly connected with the second limiting piece (5-2), and the second threaded rod (5-1) is meshed with the connecting piece (4) through a second threaded hole (4-2);

the compression mechanism (6) comprises a balance rod (6-1), a push plate (6-2), a push rod (6-3), a gear (6-4), a fixed shaft (6-5), a fixed connecting column (6-6), a bevel gear shaft (6-7), a bevel gear (6-8) and a motor II (6-9), the balance rod (6-1) and the push plate (6-2) are in clearance connection through a smooth through hole I (6-2-1), the push plate (6-2) and the push rod (6-3) are hinged through an arc groove (6-2-2), the push rod (6-3) and the fixed connecting column (6-6) are in clearance connection through a T-shaped through hole (6-3-1), the fixed connecting column (6-6) is fixedly connected with the gear (6-4), the gear (6-4) is connected with the fixed shaft (6-5) in a key mode, the gear (6-4) is meshed with a bevel gear shaft (6-7), the bevel gear shaft (6-7) is meshed with a bevel gear (6-8), the bevel gear (6-8) is fixedly connected with a second motor (6-9), and the rear shell main body (10-1) is fixedly connected with the balance rod (6-1);

a smooth through hole I (6-2-1) and an arc-shaped groove (6-2-2) are arranged on the pushing plate (6-2);

the pushing rod (6-3) is provided with a T-shaped through hole (6-3-1);

the suction port device (7) comprises a limiting piece III (7-1), a threaded rod III (7-2) and an extension pipe (7-3), the limiting piece III (7-1) is fixedly connected with the threaded rod III (7-2), and the threaded rod III (7-2) is meshed with the extension pipe (7-3) through the threaded hole III (7-3-1);

a threaded hole III (7-3-1) is formed in the extension pipe (7-3);

the rear lifting wheel mechanism (8) comprises a threaded rod four (8-1), a lifting helical gear (8-2), a rotating helical gear (8-3), a handle (8-4), a gear positioning piece (8-5), a lifting leg (8-6), a buffer shell (8-7), a universal wheel shell (8-8), a spherical wheel (8-9), a clamping piece (8-10) and a spring four (8-11), wherein the threaded rod four (8-1) is fixedly connected with the lifting helical gear (8-2) through a through hole, the lifting helical gear (8-2) is meshed with the rotating helical gear (8-3), the rotating helical gear (8-3) is fixedly connected with the handle (8-4), and the rotating helical gear (8-3) is in clearance connection with the gear positioning piece (8-5) through a limiting annular groove (8-3-1), the threaded rod IV (8-1) is meshed with the lifting leg (8-6) through a threaded groove (8-6-1), the lifting leg (8-6) is fixedly connected with a clamping piece (8-10), the clamping piece (8-10) is connected with the buffer shell (8-7) through a stepped groove V (8-7-1), the clamping piece (8-10) is fixedly connected with the spring IV (8-11), the buffer shell (8-7) is fixedly connected with the universal wheel shell (8-8), and the universal wheel shell (8-8) is connected with the spherical wheel (8-9) through a spherical wheel groove (8-8-1);

a limiting annular groove (8-3-1) is arranged on the rotary bevel gear (8-3);

the lifting legs (8-6) are provided with thread grooves (8-6-1);

a step groove V (8-7-1) is arranged on the buffer shell (8-7);

a ball wheel groove (8-8-1) is arranged on the universal wheel shell (8-8);

the main mechanism (9) comprises a spring five (9-1), a grid plate (9-2), a vibrating rod (9-3), a stirring piece (9-4), a connecting gear chain (9-5), a multi-layer gear set (9-6), a motor helical gear (9-7), a motor three (9-8), a repeated swinging piece (9-9), a matching gear (9-10), a sawtooth push rod (9-11) and a garbage push plate (9-12), wherein the spring five (9-1) is fixedly connected with the grid plate (9-2), the grid plate (9-2) is in contact connection with the vibrating rod (9-3), the vibrating rod (9-3) is in contact connection with the stirring piece (9-4), the stirring piece (9-4) is connected with the multi-layer gear set (9-6) through a connecting gear chain (9-5), the multi-layer gear set (9-6) is meshed with the motor helical gear (9-7), the motor helical gear (9-7) is fixedly connected with the motor III (9-8), the multi-layer gear set (9-6) is meshed with the matching gear (9-10), the matching gear (9-10) is connected with the repeated swinging piece (9-9), the repeated swinging piece (9-9) is meshed with the sawtooth push rod (9-11), and the sawtooth push rod (9-11) is fixedly connected with the garbage push plate (9-12);

the vibrating rod (9-3) comprises a straight rod (9-3-1) and a sliding block I (9-3-2), the straight rod (9-3-1) is fixedly connected with the sliding block I (9-3-2), and two ends of the straight rod (9-3-1) are respectively in contact connection with the grid plate block (9-2) and the poke rod (9-4-1);

the poking piece (9-4) comprises a poking rod (9-4-1), a poking gear (9-4-2) and a small shaft (9-4-3), the poking rod (9-4-1) and the poking gear (9-4-2) are fixedly connected with the small shaft (9-4-3) through a through hole, the poking gear (9-4-2) is meshed with the connecting gear chain (9-5), and the small shaft (9-4-3) is connected with the rear shell main body (10-1) through a groove gap;

the multi-layer gear set (9-6) comprises a bull gear (9-6-1), a middle bevel gear (9-6-2) and a pinion gear (9-6-3), the positioning shaft (9-6-4), the large gear (9-6-1), the middle bevel gear (9-6-2) and the small gear (9-6-3) are fixedly connected with the positioning shaft (9-6-4) through holes, the small gear (9-6-3) is meshed with the connecting gear chain (9-5), the middle bevel gear (9-6-2) is meshed with the motor bevel gear (9-7), the large gear (9-6-1) is meshed with the matching gear (9-10), and the positioning shaft (9-6-4) is in clearance connection with the rear shell main body (10-1) through a groove;

the repeated swinging piece (9-9) comprises a swinging piece (9-9-1) and a round spindle (9-9-2), the swinging piece (9-9-1) is connected with the round spindle (9-9-2) through a through hole gap, and the round spindle (9-9-2) is fixedly connected with the rear shell main body (10-1) through a groove;

the swing piece (9-9-1) is provided with an oval through hole (9-9-1-1);

the matching gear (9-10) comprises a swinging gear (9-10-1), a central shaft (9-10-2) and a cylindrical fixing piece (9-10-3), the swinging gear (9-10-1) is in clearance connection with the central shaft (9-10-2) through a through hole, the swinging gear (9-10-1) is fixedly connected with the cylindrical fixing piece (9-10-3), the cylindrical fixing piece (9-10-3) is connected with the swinging piece (9-9-1) through an oval through hole (9-9-1-1), and the rear shell main body (10-1) is fixedly connected with the central shaft (9-10-2) through a groove;

the sawtooth push rod (9-11) comprises a sawtooth straight rod (9-11-1) and a second sliding block (9-11-2), the sawtooth straight rod (9-11-1) is fixedly connected with the second sliding block (9-11-2), and the sawtooth straight rod (9-11-1) is meshed with the swing part (9-9-1);

the rear shell mechanism (10) comprises a rear shell main body (10-1), a turbine (10-2), a cover I (10-3), a cover II (10-4), a cover III (10-5), a garbage baffle (10-6), a non-return baffle (10-7), a return spring (10-8) and an atomizing nozzle (10-9), wherein the rear shell main body (10-1) is fixedly connected with the turbine (10-2) through a groove, the rear shell main body (10-1) is connected with the cover I (10-3) through a fastening screw, the rear shell main body (10-1) is connected with the cover II (10-4) through a fastening screw, the rear shell main body (10-1) is connected with the cover III (10-5) through a fastening screw, the rear shell main body (10-1) is hinged with the garbage baffle (10-6) through a swing adapting groove (10-1-11), the non-return baffle (10-7) is fixedly connected with a return spring (10-8), the return spring (10-8) is fixedly connected with a rear shell main body (10-1), the rear shell main body (10-1) is fixedly connected with an atomizing nozzle (10-9) through a groove, and the atomizing nozzle (10-9) is connected with a water flow groove (10-1-12);

the rear shell main body (10-1) is provided with a threaded hole IV (10-1-1), a stepped track groove (10-1-2), a limiting stepped groove (10-1-3), a stepped groove VI (10-1-4), a lifting groove I (10-1-5), a lifting groove II (10-1-6), a fixing groove (10-1-7), a track groove I (10-1-8), a structure main groove (10-1-9), a structure groove II (10-1-10), a swinging adaptation groove (10-1-11), a water flow groove (10-1-12), a water pool (10-1-13) and a track groove II (10-1-14), wherein the rear shell main body (10-1) is meshed with the threaded rod II (5-1) through the threaded hole IV (10-1-1), the second limiting part (5-2) is in clearance connection with the rear shell main body (10-1) through a limiting stepped groove (10-1-3), the connecting piece (4) is connected with the rear shell main body (10-1) through a stepped rail groove (10-1-2), the third limiting part (7-1) is in clearance connection with the rear shell main body (10-1) through a six stepped groove (10-1-4), the extension pipe (7-3) is adapted to the first lifting groove (10-1-5), the second lifting groove (10-1-6) is adapted to the lifting leg (8-6), the gear positioning part (8-5) is fixedly connected with the rear shell main body (10-1) through a fixing groove (10-1-7), the second sliding block (9-11-2) is connected with the rear shell main body (10-1) through a first rail groove (10-1-8), the rear shell main body (10-1) is connected with the main mechanism (9) through a structure main groove (10-1-9), the rear shell main body (10-1) is connected with the compression mechanism (6) through a structure groove II (10-1-10), the water flow groove (10-1-12) is connected with the water pool (10-1-13), and the rear shell main body (10-1) is connected with the sliding block I (9-3-2) through a rail groove II (10-1-14);

the balance moving mechanism (1) is connected with the rolling brush mechanism (2), the front shell mechanism (3) is connected with the connecting piece (4), the lifting piece (5) is connected with the rear shell mechanism (10), the compression mechanism (6) is connected with the rear shell mechanism (10), the suction port device (7) is connected with the rear shell mechanism (10), the rear lifting wheel mechanism (8) is connected with the rear shell mechanism (10), the main mechanism (9) is connected with the rear shell mechanism (10), and the rear shell mechanism (10) is connected with the connecting piece (4).

2. The novel municipal environmental comprehensive cleaning device according to claim 1, wherein: the number of the balance moving mechanisms (1) is two, and the balance moving mechanisms are symmetrical in position.

3. The novel municipal environmental comprehensive cleaning device according to claim 1, wherein: the number of the rear lifting wheel mechanisms (8) is two, and the positions are symmetrical.

4. The novel municipal environmental comprehensive cleaning device according to claim 1, wherein: the roller brush (2-1) and the auxiliary roller brush (2-2) have the same structure.

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