CN111013820A - Garbage cleaning and recycling equipment for machinery plant - Google Patents

Abstract

The invention relates to the field of mechanical production, in particular to a garbage cleaning and recycling device for a mechanical factory, in mechanical production, iron scraps in a factory are not easy to clean, different types of garbage cannot be collected, cleaned and scrubbed respectively, and time delay is caused by manual cleaning.

Description

Garbage cleaning and recycling equipment for machinery plant

Technical Field

The invention relates to the field of mechanical production, in particular to a garbage cleaning and recycling device for a mechanical factory.

Background

In mechanical production, iron scraps in a factory are not easy to clean, different types of garbage cannot be collected, cleaned and scrubbed respectively, and time delay of manual cleaning is required.

Disclosure of Invention

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

the utility model provides a machinery factory is with rubbish clearance recovery plant, collects the assembly, debris collection assembly and brushes the ground assembly including box, iron fillings, its characterized in that: the scrap iron collecting assembly is connected with the box body, the sundries collecting assembly is connected with the box body, and the ground scrubbing assembly is connected with the box body.

As a further optimization of the technical scheme, the invention relates to a garbage cleaning and recycling device for a machinery plant, the box include the shell, the spliced pole, the push-and-pull rod, the push-and-pull post, the iron fillings collecting box, debris collecting box, the dust collecting box, the collecting box slide rail, the box bottom plate, the stationary blade, rotate the support, the walking wheel axle, walking wheel and tensioning spout, the shell is connected with two spliced poles, two spliced poles rotate with two push-and-pull rods respectively and are connected, two push-and-pull rods all are connected with the push-and-pull post, the collecting box slide rail is connected with the shell, iron fillings collecting box, debris collecting box, dust are collected and all are connected with collecting box slide rail sliding connection, the box bottom plate is connected with the shell, the stationary blade is connected with the box bottom plate, the stationary blade rotates with the rotation support and is connected.

As a further optimization of the technical scheme, the equipment comprises a scrap iron collecting assembly, wherein the scrap iron collecting assembly comprises a motor I support, a motor I shaft, a roller I, a chain I, a double chain wheel shaft, a chain II shaft, a magnetic roller, a magnet, a belt, a roller II shaft, a fixed support, a spring I, a connecting block, a tensioning sliding shaft, a limiting piece and a tensioning wheel, the motor I support is connected with a shell, the motor I support is connected with the motor I, the motor I shaft is connected with the motor I shaft, the motor I shaft is rotatably connected with the shell, the motor I shaft is connected with the roller I, the motor I shaft is connected with the chain wheel I, the chain I, the double chain wheel chain is connected, the double chain wheel is connected with the double chain wheel shaft, the double chain wheel shaft is rotatably connected with the shell, the, Chain II, chain wheel II sprocket chain connection, chain wheel II is connected with chain wheel II axle, chain wheel II axle is connected with the shell rotation, the double sprocket shaft, chain wheel II axle is connected with two magnetism rollers respectively, magnet is connected with the shell, II axles of roller are connected with II rotations of roller, roller I, two chain wheel II axles, roller II, the take-up pulley is connected with the belt, the fixed bolster is connected with the shell, I both ends of two springs are connected with the fixed bolster respectively, two connecting blocks, two springs I all are in tensile state, two connecting blocks are connected with two take-up sliding shafts respectively, two take-up sliding shafts are connected with two spacing pieces respectively, two take-up sliding shafts, two spacing pieces are connected with two take-up sliding chutes respectively, two take-up sliding shafts are connected with two take-up pulleys rotation.

As a further optimization of the technical scheme, the garbage cleaning and recycling device for the machinery plant comprises a motor II support, a fan shaft support, a motor II shaft, a chain wheel III, a chain wheel IV, a fan blade shaft, an air suction fan, an air suction upper plate, an air suction lower plate, a dust suction plate, a chain wheel V, a chain IV, a chain wheel VI, a cam shaft, a cam and a sieve plate, wherein the two motor II supports are connected with the fan shaft support, the fan shaft support is connected with a shell, the two motor II supports are respectively connected with two motors II, the two motors II are respectively connected with the two motor II shafts, the two motor II shafts are respectively connected with the fan shaft support in a rotating way, the two motor II shafts are respectively connected with the two chain wheels III, the two chain wheels IV chain wheel chains, the two chain wheels IV are respectively connected with the two fan blade, two fan blade axles all rotate with the fan shaft support to be connected, two II axles of motor, two fan blade axles respectively with the fan of breathing in, the air-blowing fan is connected, the upper plate of breathing in, the air-blowing hypoplastron, the dust absorption board all is connected with the shell, the upper plate of breathing in, all be equipped with the sieve mesh on the air-blowing hypoplastron, I axle of motor is connected with sprocket V, chain IV, sprocket VI sprocket chain is connected, sprocket VI is connected with the camshaft, the camshaft is connected with the cam, the cam contacts with the sieve, the sieve is articulated mutually with the debris collection box.

As a further optimization of the technical scheme, the invention relates to garbage cleaning and recycling equipment for machinery factories, which comprises a water injection end cover, a water injection port, a water tank, a pedal shaft, a spring II, a limit column bottom plate, a gear I, a gear II shaft, a water outlet cam, a sliding column, a tension spring, a gear groove, a gear hole, a cleaning chain wheel I, a cleaning chain wheel II, a brush shaft and a brush, wherein the water injection end cover is in threaded connection with the water injection port, the water injection port is connected with a shell, the pedal is connected with the pedal shaft, the pedal shaft is in sliding connection with the limit column, the spring II is sleeved on the limit column, the spring II is in a compressed state, the limit column bottom plate is connected with the limit column, the limit column bottom plate is connected with the shell, the water tank is connected with the shell, the pedal shaft is connected with the gear I, the gear I is in, the second shaft of the gear is rotatably connected with the shell and the water tank, the second shaft of the gear is connected with the water outlet cam, the water outlet cam is in contact with the water tank, the tension spring is sleeved on the sliding column and is in a stretching state, the sliding column is in sliding connection with the pedal, the gear groove is connected with the shell, the gear hole is formed in the gear groove, the camshaft is connected with the brushing chain wheel I, the brushing chain and the brushing chain wheel II are connected through a chain wheel chain, the brushing chain wheel II is connected with the hairbrush shaft, and the hairbrush shaft is connected with the hairbrush.

The garbage cleaning and recycling equipment for the mechanical plant has the beneficial effects that: promote to push away and draw the post, the walking wheel can rotate to arbitrary direction, equipment can promote to arbitrary direction, iron fillings are inhaled to the drive belt by magnet, then by being transported to iron fillings collecting box top, iron fillings collecting box top does not have magnet, iron fillings fall into in the iron fillings collecting box, debris and dust are by in the fan suction equipment, then by another fan in blowing in the debris collecting box, debris collecting box bottom sieve vibrations, with dust and debris separation, the steerable water tank opening size of footboard is stepped on, water flows to the brush in from the water tank, the brush is scrubbed ground and is accomplished the clearance.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a cross-sectional view of the overall construction of the present invention;

FIG. 4 is a first structural view of the case 1 of the present invention;

FIG. 5 is a sectional view showing the structure of the case 1 according to the present invention;

FIG. 6 is a second structural view of the case 1 of the present invention;

FIG. 7 is a first schematic view of the structure of the scrap iron collecting assembly 2 according to the present invention;

FIG. 8 is a second schematic structural view of the scrap iron collecting assembly 2 according to the present invention;

FIG. 9 is a third schematic view of the structure of the iron scrap collecting assembly 2 of the present invention;

FIG. 10 is a fourth schematic structural view of the iron scrap collecting assembly 2 of the present invention;

FIG. 11 is a first schematic view of the structure of the sundries collecting assembly 3 of the present invention;

FIG. 12 is a schematic structural view II of the sundries collecting assembly 3 of the present invention;

fig. 13 is an enlarged partial schematic view of the debris collecting assembly 3 according to the invention;

fig. 14 is a third schematic structural view of the sundries collecting assembly 3 of the invention;

FIG. 15 is a first schematic view of the brushing floor assembly 4 of the present invention;

FIG. 16 is an enlarged partial schematic view of the brushing floor assembly 4 of the present invention;

FIG. 17 is a second schematic structural view of the brushing floor assembly 4 of the present invention;

FIG. 18 is a third schematic structural view of a brushing floor assembly 4 of the present invention;

FIG. 19 is a fourth schematic structural view of the brushing floor assembly 4 of the present invention;

figure 20 is a partial cross-sectional view of a brushing floor assembly 4 according to the invention.

In the figure: a box body 1; a housing 1-1; connecting columns 1-2; 1-3 of a push-pull rod; 1-4 of a push-pull column; 1-5 of an iron scrap collecting box; 1-6 of a sundries collecting box; 1-7 of a dust collection box; collecting box slide rails 1-8; 1-9 parts of a box body bottom plate; 1-10 parts of a fixing sheet; rotating the bracket 1-11; 1-12 parts of a walking wheel shaft; 1-13 of a traveling wheel; tensioning chutes 1-14; the scrap iron collecting assembly 2; a bracket 2-1 of a motor I; 2-2 parts of a motor; 2-3 of a shaft of the motor I; 2-4 of a roller; 2-5 of a chain wheel; 2-6 parts of a chain; 2-7 of double chain wheels; 2-8 parts of a double-chain wheel shaft; 2-9 parts of a chain II; 2-10 parts of a chain wheel; 2-11 shafts of a chain wheel II; 2-12 parts of magnetic roller; 2-13 parts of magnet; 2-14 parts of a belt; 2-15 of a roller II; 2-16 of a roller II shaft; 2-17 of a fixed support; 2-18 parts of a spring; 2-19 parts of a connecting block; 2-20 parts of a tensioning sliding shaft; 2-21 parts of limiting sheet; 2-22 of tension wheel; a sundries collecting assembly 3; a bracket 3-1 of a motor II; a fan shaft support 3-2; a motor II 3-3; 3-4 of a motor II shaft; 3-5 parts of a chain wheel III; 3-6 parts of a chain III; 3-7 parts of a chain wheel IV; 3-8 parts of fan blade shaft; 3-9 parts of an air suction fan; 3-10 of an air blowing fan; an air suction upper plate 3-11; the air-blowing lower plate is 3-12; 3-13 parts of dust collection plate; chain wheels V3-14; 3-15 parts of a chain IV; a chain wheel VI 3-16; 3-17 parts of a camshaft; 3-18 of the cam; 3-19 parts of sieve plate; brushing the floor combination 4; 4-1 of a water injection end cover; 4-2 parts of a water injection port; 4-3 of a water tank; 4-4 of pedals; 4-5 of a pedal shaft; 4-6 of a spring; 4-7 of a limiting column; 4-8 parts of a limiting column bottom plate; 4-9 parts of a gear I; 4-10 parts of a gear II; 4-11 of a gear II shaft; 4-12 parts of a water outlet cam; 4-13 parts of a sliding column; 4-14 of a tension spring; 4-15 of gear grooves; 4-16 gear holes; brushing chain wheels I4-17; 4-18 parts of a brushing chain; brushing chain wheels II 4-19; 4-20 parts of brush shaft; brushes 4-21.

Detailed Description

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

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

The first embodiment;

referring to fig. 1-20, the present embodiment is an apparatus for cleaning and recycling garbage for machinery factories, which includes a box 1, an iron scrap collecting assembly 2, an sundries collecting assembly 3, and a floor scrubbing assembly 4, wherein the iron scrap collecting assembly 2 is connected to the box 1, the sundries collecting assembly 3 is connected to the box 1, and the floor scrubbing assembly 4 is connected to the box 1.

The second embodiment is as follows:

referring to fig. 1-20, the first embodiment will be further described, wherein the box body 1 includes a housing 1-1, connecting posts 1-2, push-pull rods 1-3, push-pull posts 1-4, scrap iron collecting boxes 1-5, sundries collecting boxes 1-6, dust collecting boxes 1-7, collecting box sliding rails 1-8, box bottom plates 1-9, fixing plates 1-10, rotating brackets 1-11, traveling wheel shafts 1-12, traveling wheels 1-13 and tensioning chutes 1-14, the housing 1-1 is connected with the two connecting posts 1-2, the two connecting posts 1-2 are respectively connected with the two push-pull rods 1-3 in a rotating manner, the two push-pull rods 1-3 are connected with the push-pull posts 1-4, the collecting box sliding rails 1-8 are connected with the housing 1-1, the scrap iron collecting box 1-5, the sundries collecting box 1-6 and the dust collecting box 1-7 are all connected with a collecting box sliding rail 1-8 in a sliding mode, a box bottom plate 1-9 is connected with the shell 1-1, a fixing piece 1-10 is connected with the box bottom plate 1-9, the fixing piece 1-10 is connected with a rotating support 1-11 in a rotating mode, the rotating support 1-11 is connected with a walking wheel shaft 1-12 in a rotating mode, the walking wheel shaft 1-12 is connected with a walking wheel 1-13 in a rotating mode, two tensioning sliding grooves 1-14 are located on two sides of the side wall of the shell 1-1 respectively to push a push-pull column, the walking wheel can rotate in any direction.

The third concrete implementation mode:

referring to the embodiment shown in fig. 1-20, the embodiment further illustrates the first embodiment, wherein the scrap iron collecting assembly 2 includes a bracket 2-1 of a motor i, a motor i 2-2, a shaft 2-3 of the motor i, a roller i 2-4, a chain wheel i 2-5, a chain i 2-6, a double chain wheel 2-7, a double chain wheel shaft 2-8, a chain ii 2-9, a chain wheel ii 2-10, a shaft 2-11 of the chain wheel ii, a magnetic roller 2-12, a magnet 2-13, a belt 2-14, a roller ii 2-15, a shaft 2-16 of the roller ii, a fixed bracket 2-17, a spring i 2-18, a connecting block 2-19, a tensioning sliding shaft 2-20, a limiting piece 2-21 and a tensioning wheel 2-22, the bracket 2-1 of the motor i is connected with a housing 1-1, the bracket 2-1 of the motor I is connected with the motor I2-2, the motor I2-2 is connected with the shaft 2-3 of the motor I, the shaft 2-3 of the motor I is rotationally connected with the shell 1-1, the shaft 2-3 of the motor I is connected with the roller I2-4, the shaft 2-3 of the motor I is connected with the chain wheel I2-5, the chain I2-6 and the chain wheel of the double chain wheel 2-7 are connected by a chain wheel chain, the double chain wheel 2-7 is connected with the double chain wheel shaft 2-8, the double chain wheel shaft 2-8 is rotationally connected with the shell 1-1, the double chain wheel 2-7, the chain II 2-9 and the chain wheel II 2-10 are connected by a chain wheel chain, the chain wheel II 2-10 is connected with the chain wheel II shaft 2-11, the, a double sprocket shaft 2-8 and a sprocket II shaft 2-11 are respectively connected with two magnetic rollers 2-12, a magnet 2-13 is connected with a shell 1-1, a roller II shaft 2-16 is connected with the shell 1-1, a roller II shaft 2-16 is rotationally connected with a roller II 2-15, a roller I2-4, two sprocket II shafts 2-11, a roller II 2-15 and a tension pulley 2-22 are connected with a belt 2-14, a fixed bracket 2-17 is connected with the shell 1-1, two ends of two springs I2-18 are respectively connected with a fixed bracket 2-17 and two connecting blocks 2-19, the two springs I2-18 are both in a stretching state, the two connecting blocks 2-19 are respectively connected with two tension sliding shafts 2-20, the two tensioning sliding shafts 2-20 are respectively connected with the two limiting pieces 2-21, the two tensioning sliding shafts 2-20 and the two limiting pieces 2-21 are respectively connected with the two tensioning chutes 1-14 in a sliding mode, the two tensioning sliding shafts 2-20 are respectively connected with the two tensioning wheels 2-22 in a rotating mode, iron scraps are attracted to a transmission belt through magnets and then conveyed to the position above an iron scrap collecting box, no magnet is arranged above the iron scrap collecting box, and the iron scraps fall into the iron scrap collecting box.

The fourth concrete implementation mode:

referring to the embodiment shown in fig. 1-20, the debris collecting assembly 3 further includes a motor ii bracket 3-1, a fan shaft bracket 3-2, a motor ii 3-3, a motor ii shaft 3-4, a sprocket iii 3-5, a chain iii 3-6, a sprocket iv 3-7, a fan blade shaft 3-8, an air suction fan 3-9, an air blowing fan 3-10, an air suction upper plate 3-11, an air blowing lower plate 3-12, a dust suction plate 3-13, a sprocket v 3-14, a chain iv 3-15, a sprocket vi 3-16, a cam shaft 3-17, a cam 3-18 and a sieve plate 3-19, wherein the two motor ii brackets 3-1 are connected with the fan shaft bracket 3-2, the fan shaft bracket 3-2 is connected with a housing 1-1, two motor II supports 3-1 are respectively connected with two motors II 3-3, two motors II 3-3 are respectively connected with two motor II shafts 3-4, two motor II shafts 3-4 are respectively rotatably connected with a fan shaft support 3-2, two motor II shafts 3-4 are respectively connected with two chain wheels III 3-5, two chains III 3-6 and two chain wheels IV 3-7 are connected with a chain wheel chain, two chain wheels IV 3-7 are respectively connected with two fan blade shafts 3-8, two fan blade shafts 3-8 are respectively rotatably connected with a fan shaft support 3-2, two motor II shafts 3-4 and two fan blade shafts 3-8 are respectively connected with an air suction fan 3-9 and an air blowing fan 3-10, and an air suction upper plate 3-11, The lower air blowing plate 3-12 and the dust collecting plate 3-13 are connected with the shell 1-1, the upper air suction plate 3-11 and the lower air blowing plate 3-12 are respectively provided with a sieve mesh, a shaft 2-3 of a motor I is connected with a chain wheel V3-14, the chain wheel V3-14, a chain IV 3-15, a chain wheel VI 3-16, a chain wheel chain, a chain wheel VI 3-16, a cam shaft 3-17 and a cam 3-18, the cam 3-18 is contacted with a sieve plate 3-19, the sieve plate 3-19 is hinged with a sundries collecting box 1-6, sundries and dust are sucked into the equipment by a fan and then blown into the sundries collecting box by another fan, and the sieve plate at the bottom of the sundries collecting box vibrates to separate the dust from.

The fifth concrete implementation mode:

referring to fig. 1-20, the present embodiment will be further described, wherein the floor scrubbing assembly 4 includes a water injection end cap 4-1, a water injection port 4-2, a water tank 4-3, a pedal 4-4, a pedal shaft 4-5, a spring ii 4-6, a limit post 4-7, a limit post bottom plate 4-8, a gear i 4-9, a gear ii 4-10, a gear ii shaft 4-11, a water outlet cam 4-12, a slide post 4-13, a tension spring 4-14, a gear groove 4-15, a gear hole 4-16, a scrubbing sprocket i 4-17, a scrubbing chain 4-18, a scrubbing sprocket ii 4-19, a brush shaft 4-20 and a brush 4-21, the water injection end cap 4-1 is in threaded connection with the water injection port 4-2, the water filling port 4-2 is connected with the shell 1-1, the pedal 4-4 is connected with the pedal shaft 4-5, the pedal shaft 4-5 is connected with the limit post 4-7 in a sliding way, the spring II 4-6 is sleeved on the limit post 4-7, the spring II 4-6 is in a compression state, the limit post bottom plate 4-8 is connected with the limit post 4-7, the limit post bottom plate 4-8 is connected with the shell 1-1, the water tank 4-3 is connected with the shell 1-1, the pedal shaft 4-5 is connected with the gear I4-9, the gear I4-9 is meshed with the gear II 4-10, the gear II 4-10 is connected with the gear II shaft 4-11, the gear II shaft 4-11 is rotationally connected with the shell 1-1 and the water tank 4-3, the shaft 4-11 of the gear II is connected with the water outlet cam 4-12, the water outlet cam 4-12 is in contact with the water tank 4-3, the tension spring 4-14 is sleeved on the sliding column 4-13, the tension spring 4-14 is in a tension state, the sliding column 4-13 is in sliding connection with the pedal 4-4, the gear groove 4-15 is connected with the shell 1-1, the gear hole 4-16 is positioned in the gear groove 4-15, the cam shaft 3-17 is connected with the brushing chain wheel I4-17, the brushing chain 4-18, the brushing chain wheel II 4-19 are connected with the chain wheel chain, the brushing chain wheel II 4-19 is connected with the brush shaft 4-20, the brush shaft 4-20 is connected with the brush 4-21, the pedal is stepped down to control the opening size of the water tank, water flows from the water tank to, the brush brushes the ground to finish cleaning.

The invention relates to a garbage cleaning and recycling device for a machinery plant, which has the working principle that: the push-pull column 1-4 is pushed, the push-pull column 1-4 drives the two push-pull rods 1-3 to move, the two push-pull rods 1-3 drives the two connecting columns 1-2 to move, the two connecting columns 1-2 drive the shell 1-1 to move, the shell 1-1 drives the box bottom plate 1-9 to move, the box bottom plate 1-9 drives the fixing piece 1-10 to move, the fixing piece 1-10 drives the walking wheels 1-13 to rotate to the advancing direction through the rotating bracket 1-11 and the walking wheel shaft 1-12, the walking wheels 1-13 drive the walking wheel shaft 1-12 to rotate to the advancing direction, the walking wheel shaft 1-12 drives the rotating bracket 1-11 to rotate to the advancing direction, and the rotating bracket 1-11 rotates in the fixing piece 1-10, so that the push-pull column 1-4 can drive the equipment to advance to any direction, screwing off a water injection end cover 4-1, adding water into a water tank 4-3 from a water injection port 4-2, starting a motor I2-2, driving a motor I shaft 2-3 to rotate by the motor I shaft 2-3, driving a roller I2-4 to rotate by the motor I shaft 2-3, driving a chain wheel I2-5 to rotate by the motor I shaft 2-3, driving a double chain wheel 2-7 to rotate by the chain wheel I2-5 through a chain I2-6, driving a double chain wheel 2-8 to rotate by the double chain wheel 2-7, driving a magnetic roller 2-12 to rotate by the double chain wheel 2-8, driving a chain wheel II 2-10 to rotate by the double chain wheel 2-7 through a chain II 2-9, driving a chain wheel II shaft 2-11 to rotate by the chain wheel II 2-10, driving a magnetic roller 2-12 to rotate by the chain wheel II, the two magnetic rollers 2-12 are all magnetic, the two magnetic rollers 2-12, the roller I2-4, the roller II 2-15, the two tension pulleys 2-22 drive the belts 2-14 to rotate, the belts 2-14 drive the roller II 2-15 to rotate around the roller II shaft 2-16, the two springs I2-18 pull the two connecting blocks 2-19, the two connecting blocks 2-19 pull the two tension sliding shafts 2-20 and the two limiting pieces 2-21 to slide in the two tension sliding grooves 1-14, the two tension sliding shafts 2-20 tension the belts 2-14 through the two tension pulleys 2-22, the belts 2-14 drive the two tension pulleys 2-22 to rotate around the two tension sliding shafts 2-20 respectively, the magnetic force of the magnets 2-13 penetrates through the belts 2-14 to adsorb iron chips on the ground onto the belts 2-14, conveying scrap iron to the scrap iron collecting box 1-5 by the belt 2-14, enabling the two magnetic rollers 2-12 to be magnetic, enabling the scrap iron not to fall off through the two magnetic rollers 2-12, enabling the scrap iron collecting box 1-5 not to be provided with magnets, enabling the scrap iron on the belt 2-14 not to be adsorbed by magnetic force and to fall into the scrap iron collecting box 1-5, completing scrap iron collection, starting the two motors II 3-3, driving the two motors II 3-3 to drive the two motors II to rotate 3-4, driving the two motors II to rotate 3-4 to drive the chain wheels III 3-5 to rotate, driving the chain wheels III 3-5 to rotate by the chain wheels III 3-6, driving the chain wheels IV 3-7 to rotate the fan blade shafts 3-8, and driving the chain wheels III-5 to rotate by the fan blade shafts 3-8, the fan blade shafts 3-8 drive the air suction fans 3-9 and the air blowing fans 3-10 to rotate, the air suction fans 3-9 rotate to suck up sundries on the ground through sieve holes in the air suction upper plates 3-11 and move to the front of the sieve holes of the air blowing lower plates 3-12 through passages between the dust suction plates 3-13 and the air blowing lower plates 3-12, the air blowing fans 3-10 blow the sundries into the sundry collecting boxes 1-6 through the sieve holes in the air blowing lower plates 3-12, the shafts 2-3 of the motor I drive the chain wheels V3-14 to rotate, the chain wheels V3-14 drive the chain wheels VI 3-16 to rotate through the chains IV 3-15, the chain wheels VI 3-16 drive the cam shafts 3-17 to rotate, the cam shafts 3-17 drive the cams 3-18 to rotate, the cams 3-18 drive one ends of the sieve plates 3-19 to vibrate, the other end of one end of the sieve plate 3-19 rotates around the hinge shaft, sundries in the sundry collecting box 1-6 are screened by the sieve plate 3-19 in a vibration mode, dust in the sundries is dropped into the dust collecting box 1-7 in a vibration mode, separation is completed, the pedal 4-4 is stepped down, the pedal 4-4 drives the sliding column 4-13 to slide in the gear groove 4-15, the inclined surface of the lower end of the sliding column 4-13 is in contact with the gear hole 4-16, the sliding column 4-13 rises along the inclined surface, the tension spring 4-14 is further stretched, the pedal 4-4 drives the pedal shaft 4-5 to rotate, the pedal shaft 4-5 drives the gear I4-9 to rotate, the gear I4-9 drives the gear II 4-10 to rotate, the gear II 4-10 drives the gear II shaft 4-11 to rotate, the gear II shaft 4-11 drives the water outlet, the two ends of the water outlet cam 4-12 are not contacted with the water outlet of the water tank 4-3 any more, the water outlet of the water tank 4-3 is not blocked any more, the depth of the pedal is adjusted to adjust the size of the blocked water outlet of the water tank 4-3, the pedal 4-4 is loosened after the pedal is adjusted to a proper size, the pedal rebounds under the action of the spring II 4-6, the pedal 4-4 drives the sliding column 4-13 to slide in the gear groove 4-15, the curved surface of the lower end of the sliding column 4-13 is contacted with the gear hole 4-16, the sliding column 4-13 is contacted with the gear hole 4-16 under the action of the tension spring 4-14, the sliding column 4-13 cannot leave the gear hole 4-16, the pedal 4-4 cannot be reset, the opening of the water outlet of the water tank 4-3 is fixed, the brushing chain wheels I4-17 drive the brushing chain wheels II 4-19 to rotate through the brushing chains 4-18, the brushing chain wheels II 4-19 drive the brush shafts 4-20 to rotate, the brush shafts 4-20 drive the brushes 4-21 to contact with the ground, water flows to the brushes 4-21 from the water outlets of the water tanks 4-3, the brushes 4-21 rotate to drive water to brush the ground, after cleaning is completed, the sliding columns 4-13 can be pulled out to reset the pedals 4-4, the water outlet cams 4-12 are reset, water does not flow out when the water outlets of the water tanks 4-3 are blocked, the scrap iron collecting boxes 1-5, the sundries collecting boxes 1-6 or the dust collecting boxes 1-7 are pulled, the scrap iron collecting boxes 1-5, the sundries collecting boxes 1-6 and the dust collecting boxes 1-7 slide on the dust collecting box slide rails 1, the different collecting boxes can be pulled out respectively, and the collected garbage can be taken out.

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

Claims (5)

1. The utility model provides a machinery house is with rubbish clearance recovery plant, collects assembly (2), debris collection assembly (3) and brushes ground assembly (4) including box (1), iron fillings, its characterized in that: the scrap iron collecting assembly (2) is connected with the box body (1), the sundries collecting assembly (3) is connected with the box body (1), and the floor scrubbing assembly (4) is connected with the box body (1).

2. The plant waste cleaning and recycling device according to claim 1, characterized in that: the box body (1) comprises a shell (1-1), connecting columns (1-2), push-pull rods (1-3), push-pull columns (1-4), scrap iron collecting boxes (1-5), sundry collecting boxes (1-6), dust collecting boxes (1-7), collecting box sliding rails (1-8), box body bottom plates (1-9), fixing pieces (1-10), rotating supports (1-11), walking wheel shafts (1-12), walking wheels (1-13) and tensioning sliding chutes (1-14), the shell (1-1) is connected with the two connecting columns (1-2), the two connecting columns (1-2) are respectively connected with the two push-pull rods (1-3) in a rotating manner, and the two push-pull rods (1-3) are connected with the push-pull columns (1-4), the scrap iron collecting box sliding rail (1-8) is connected with the shell (1-1), the scrap iron collecting box (1-5), the sundries collecting box (1-6) and the dust collecting box (1-7) are connected with the scrap iron collecting box sliding rail (1-8) in a sliding mode, the box body bottom plate (1-9) is connected with the shell (1-1), the fixing piece (1-10) is connected with the box body bottom plate (1-9), the fixing piece (1-10) is connected with the rotating support (1-11) in a rotating mode, the rotating support (1-11) is connected with the walking wheel shaft (1-12) in a rotating mode, the walking wheel shaft (1-12) is connected with the walking wheel (1-13) in a rotating mode, and the two tensioning sliding chutes (1-14) are located on two sides of.

3. The plant waste cleaning and recycling device according to claim 1, characterized in that: the scrap iron collecting assembly (2) comprises a motor I support (2-1), a motor I (2-2), a motor I shaft (2-3), a roller I (2-4), a chain wheel I (2-5), a chain I (2-6), a double chain wheel (2-7), a double chain wheel shaft (2-8), a chain II (2-9), a chain wheel II (2-10), a chain wheel II shaft (2-11), a magnetic roller (2-12), a magnet (2-13), a belt (2-14), a roller II (2-15), a roller II shaft (2-16), a fixed support (2-17), a spring I (2-18), a connecting block (2-19), a tensioning sliding shaft (2-20), a limiting piece (2-21) and a tensioning wheel (2-22), the bracket (2-1) of the motor I is connected with the shell (1-1), the bracket (2-1) of the motor I is connected with the motor I (2-2), the motor I (2-2) is connected with the shaft (2-3) of the motor I, the shaft (2-3) of the motor I is rotatably connected with the shell (1-1), the shaft (2-3) of the motor I is connected with the roller I (2-4), the shaft (2-3) of the motor I is connected with the chain wheel I (2-5), the chain I (2-6) and the double chain wheel (2-7) are connected in a chain mode, the double chain wheel (2-7) is connected with the double chain wheel shaft (2-8), the double chain wheel shaft (2-8) is rotatably connected with the shell (1-1), and the double chain wheel (2-7), A chain II (2-9), a chain wheel II (2-10), a chain wheel chain, a chain wheel II (2-10) and a chain wheel II shaft (2-11), the chain wheel II shaft (2-11) is rotationally connected with a shell (1-1), a double chain wheel shaft (2-8) and the chain wheel II shaft (2-11) are respectively connected with two magnetic rollers (2-12), a magnet (2-13) is connected with the shell (1-1), a roller II shaft (2-16) is connected with the shell (1-1), the roller II shaft (2-16) is rotationally connected with a roller II (2-15), the roller I (2-4), the two chain wheel II shafts (2-11), the roller II (2-15) and a tension pulley (2-22) are connected with a belt (2-14), the fixing support (2-17) is connected with the shell (1-1), two ends of two springs I (2-18) are respectively connected with the fixing support (2-17) and two connecting blocks (2-19), the two springs I (2-18) are in a stretching state, the two connecting blocks (2-19) are respectively connected with two tensioning sliding shafts (2-20), the two tensioning sliding shafts (2-20) are respectively connected with two limiting pieces (2-21), the two tensioning sliding shafts (2-20) and the two limiting pieces (2-21) are respectively in sliding connection with two tensioning sliding chutes (1-14), and the two tensioning sliding shafts (2-20) are respectively in rotating connection with two tensioning wheels (2-22).

4. The plant waste cleaning and recycling device according to claim 1, characterized in that: the sundries collecting assembly (3) comprises two motor II supports (3-1), a fan shaft support (3-2), a motor II (3-3), a motor II shaft (3-4), a chain wheel III (3-5), a chain III (3-6), a chain wheel IV (3-7), a fan blade shaft (3-8), an air suction fan (3-9), an air blowing fan (3-10), an air suction upper plate (3-11), an air blowing lower plate (3-12), a dust suction plate (3-13), a chain wheel V (3-14), a chain IV (3-15), a chain wheel VI (3-16), a cam shaft (3-17), a cam (3-18) and a sieve plate (3-19), wherein the two motor II supports (3-1) are connected with the fan shaft support (3-2), the fan shaft bracket (3-2) is connected with the shell (1-1), the two motor II brackets (3-1) are respectively connected with the two motors II (3-3), the two motors II (3-3) are respectively connected with the two motor II shafts (3-4), the two motor II shafts (3-4) are both rotationally connected with the fan shaft bracket (3-2), the two motor II shafts (3-4) are respectively connected with the two chain wheels III (3-5), the two chains III (3-6) and the two chain wheels IV (3-7) are connected with the chain wheel chain, the two chain wheels IV (3-7) are respectively connected with the two fan blade shafts (3-8), the two fan blade shafts (3-8) are both rotationally connected with the fan shaft bracket (3-2), two motors II shafts (3-4) and two fan blade shafts (3-8) are respectively connected with an air suction fan (3-9) and an air blowing fan (3-10), an air suction upper plate (3-11), an air blowing lower plate (3-12) and a dust suction plate (3-13) are respectively connected with a shell (1-1), sieve holes are respectively arranged on the air suction upper plate (3-11) and the air blowing lower plate (3-12), a motor I shaft (2-3) is connected with a chain wheel V (3-14), the chain wheel V (3-14), a chain IV (3-15) and a chain wheel VI (3-16) are connected with a chain wheel chain, the chain wheel VI (3-16) is connected with a cam shaft (3-17), the cam shaft (3-17) is connected with a cam (3-18), the cam (3-18) is contacted with a sieve plate (3-19), the sieve plates (3-19) are hinged with the sundries collecting boxes (1-6).

5. The plant waste cleaning and recycling device according to claim 1, characterized in that: the floor scrubbing assembly (4) comprises a water injection end cover (4-1), a water injection port (4-2), a water tank (4-3), a pedal (4-4), a pedal shaft (4-5), a spring II (4-6), a limiting column (4-7), a limiting column bottom plate (4-8), a gear I (4-9), a gear II (4-10), a gear II shaft (4-11), a water outlet cam (4-12), a sliding column (4-13), a tension spring (4-14), a gear groove (4-15), a gear hole (4-16), a scrubbing chain wheel I (4-17), a scrubbing chain (4-18), a scrubbing chain wheel II (4-19), a hairbrush shaft (4-20) and a hairbrush (4-21), wherein the water injection end cover (4-1) is in threaded connection with the water injection port (4-2), the water filling port (4-2) is connected with the shell (1-1), the pedal (4-4) is connected with the pedal shaft (4-5), the pedal shaft (4-5) is connected with the limit post (4-7) in a sliding way, the spring II (4-6) is sleeved on the limit post (4-7), the spring II (4-6) is in a compressed state, the limit post bottom plate (4-8) is connected with the limit post (4-7), the limit post bottom plate (4-8) is connected with the shell (1-1), the water tank (4-3) is connected with the shell (1-1), the pedal shaft (4-5) is connected with the gear I (4-9), the gear I (4-9) is meshed with the gear II (4-10), the gear II (4-10) is connected with the gear II shaft (4-11), a gear II shaft (4-11) is rotationally connected with the shell (1-1) and the water tank (4-3), the gear II shaft (4-11) is connected with a water outlet cam (4-12), the water outlet cam (4-12) is contacted with the water tank (4-3), a tension spring (4-14) is sleeved on a sliding column (4-13), the tension spring (4-14) is in a stretching state, the sliding column (4-13) is in sliding connection with a pedal (4-4), a gear groove (4-15) is connected with the shell (1-1), a gear hole (4-16) is positioned in the gear groove (4-15), a cam shaft (3-17) is connected with a brushing chain wheel I (4-17), the brushing chain wheel I (4-17), a brushing chain (4-18) and a brushing chain wheel II (4-19) are in chain connection, the brushing chain wheels II (4-19) are connected with the brush shafts (4-20), and the brush shafts (4-20) are connected with the brushes (4-21).

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