CN209854623U - Environmental protection equipment for cleaning viscous garbage - Google Patents

Abstract

The utility model belongs to the field of environmental protection and cleaning, in particular to an environmental protection device for cleaning viscous garbage, which comprises a shell, an electric drive module, a bar-shaped swinging plate, a collecting box and the like, wherein a drive plate and a locking plate which are connected with each other are concentrically arranged on the inner wall of the shell through a transmission shaft A, and the transmission shaft A is matched with a shaft hole bearing on the side wall of the shell; the shovel plate of the utility model primarily shovels sticky garbage on the ground, and the shovel block further shovels sticky garbage which is not shoveled clean or more stubborn sticky garbage by the shovel plate on the ground; sticky garbage shoveled from the ground is adhered to the shovel plate or the shovel block, and the sticky garbage adhered to the shovel plate or the shovel block is scraped and removed and falls into a collecting box below through interaction of the teeth and the wedge-shaped scrapers on the U-shaped swing plate and the shovel block.

Description

Environmental protection equipment for cleaning viscous garbage

Technical Field

The utility model belongs to the clean field of environmental protection especially relates to an environmental protection equipment of clearance stickness rubbish.

Background

Various sticky foods exist in the current market, the discarded sticky foods are adhered to the ground to cause serious pollution to the ground in public places, and the sticky foods are very difficult to clean, so that heavy workload is brought to sanitation workers; in some public places with large flow of people, the amount of the sticky garbage such as the eaten chewing gum is extremely large, and because the workload is too large, sanitation workers can only give up cleaning the sticky garbage; the black spot stain is easy to form on the ground after being adhered for a long time, which affects the public environmental sanitation and the city image. When sticky garbage adhered to the ground is cleaned, the sticky garbage is firstly shoveled and then collected, and finally stains left by the sticky garbage on the ground are cleaned; the cleaning work of the viscous garbage is complicated, the workload of sanitation workers is increased, and the working efficiency is not high; aiming at the defects of the traditional cleaning work of the sticky garbage on the ground, a device integrating shoveling, collecting and stain cleaning is needed to be designed for cleaning the sticky garbage on the ground in a public place. The utility model relates to an environmental protection equipment of clearance stickness rubbish solves as above problem.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned defect among the prior art, the utility model discloses an environmental protection equipment of clearance stickness rubbish, it adopts following technical scheme to realize.

In the description of the present invention, it should be noted that the terms "inside", "below", "upper" and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the equipment or elements indicated must have a specific position, be constructed or operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

The utility model provides an environmental protection equipment of clearance stickness rubbish which characterized in that: the electric-driven type cleaning brush comprises a shell, a handle, a switch button, a drive plate, a locking plate, a drive pin, a drive shaft A, an electric-driven module, a drive shaft C, a brush holder, a conical brush, a ring barrel, a grooved pulley, a shaft sleeve, a strip-shaped swinging plate, a shovel block, a shovel plate, a U-shaped swinging plate, a wedge-shaped scraper blade, a volute spiral spring, a soft bag and a collecting box, wherein the drive plate and the locking plate which are connected with each other are concentrically arranged on the inner wall of the shell through the drive shaft A, and the drive shaft A is matched with; the output shaft of the electric drive module arranged on the side wall of the shell is connected with the transmission shaft A; the transmission shaft C is vertically arranged in the shell, the lower end of the transmission shaft C is provided with a brush support, and the lower end face of the brush support is provided with a conical brush; the conical brush is matched with the ground through a movable groove on the lower end surface of the shell; the ring barrel is fixedly arranged in the shell, and the lower end face of the ring barrel is in contact fit with the upper end face of the brush holder; a plurality of through holes distributed on the lower end surface of the ring barrel are respectively matched with a plurality of vertical through holes on the upper end surface of the brush support; the transmission shaft A is in transmission connection with the transmission shaft C.

The sixth grooved wheel and the shaft sleeve are coaxially arranged on the inner wall of the shell, and the shaft where the grooved wheel and the shaft sleeve are arranged is parallel to the transmission shaft A; the radial groove on the grooved wheel is matched with a shifting pin arranged at the edge of the circular surface of the driving plate; the concave locking cambered surface on the wheel groove is matched with the cylindrical surface of the locking disc; three strip-shaped swing plates are uniformly distributed on the outer cylindrical surface of the shaft sleeve in the circumferential direction, a plurality of strip-shaped shovel plates are uniformly installed at the tail end of each strip-shaped swing plate along the width direction of the strip-shaped swing plate at intervals, and a shovel block is installed between every two adjacent shovel plates; the U-shaped swing plate swings in the shell through two swing pins symmetrically arranged on the two arms of the U-shaped swing plate, and the swing pins are positioned below the side of the center of the shaft sleeve; a plurality of teeth are uniformly distributed at intervals on the tail end of the U-shaped swing plate along the width direction of the U-shaped swing plate, and the teeth are matched with the shovel plate and the shovel block on each strip-shaped swing plate; the U-shaped swing plate is matched with the shovel plate; the bottom of the shell is provided with a collecting box for receiving garbage; the shovel plate is contacted with the tip of the upper tooth of the U-shaped swing plate in the process of swinging around the center of the shaft sleeve, and the contact point is positioned above the collecting box; along with the swinging of the shovel plate, the tip end of the shovel plate slides towards the direction of the swing pin through the end surface of the U-shaped swing plate and passes through the abdicating groove on the U-shaped swing plate; the wedge-shaped scraper arranged on the upper end surface of the U-shaped swing plate is matched with the shovel plate and the shovel block on each strip-shaped swing plate; and scroll springs for resetting the swinging of the U-shaped swinging plate are respectively nested on the two swinging pins.

The two soft bags are symmetrically arranged on the inner wall of the shell through the fixing seat E respectively, and are positioned on two sides of the U-shaped swing plate respectively; two sides of the U-shaped swing plate are respectively connected with the upper end faces of the two soft bags; the inlet holes positioned on the side surfaces of the two soft bags are respectively provided with a hose with a one-way valve, and one end of each hose is inserted into the cleaning liquid positioned in the annular barrel through two outlet holes B on the upper end surface of the annular barrel; spray pipes for spraying washing liquid between the U-shaped swing plate teeth and the wedge-shaped scraper are respectively arranged at outlet holes A on the side surfaces of the two soft bags; a handle is arranged on the shell, and a switch button is arranged on the handle; the housing has a space therein for the blade to swing out of the housing.

As a further improvement of the technology, the transmission shaft C is mounted in the housing through a fixed seat C, and the transmission shaft C is in bearing fit with the fixed seat C; the ring barrel is fixedly arranged in the shell through a fixed seat D; the ring barrel is nested on the transmission shaft C.

As a further improvement of the technology, the transmission shaft A is provided with a belt wheel A; a fixed seat B is arranged on the inner wall of the shell, a transmission shaft B is matched with the fixed seat B in a bearing way, and the transmission shaft B is parallel to the transmission shaft A; two ends of the transmission shaft B are respectively provided with a bevel gear A and a belt wheel B, and the belt wheel B is in transmission connection with the belt wheel A through a synchronous belt; the upper end of the transmission shaft C is provided with a bevel gear B, and the bevel gear B is meshed with the bevel gear A.

As a further improvement of the technology, the electric drive module is installed on the side wall of the shell through a fixing seat A.

As a further improvement of the technology, the shovel plate is an elastic metal sheet, and the shovel block is made of metal and has no elastic bending performance; one end of the shovel plate is provided with an inclined plane, and one end of the shovel block is provided with a sharp corner. The inclined plane end on the shovel plate carries out preliminary shovel to subaerial stickness rubbish, and stubborn adhesion part between stickness rubbish and the ground is shoveled through the closed angle on the shovel plate that exposes after the shovel plate takes place to deform.

As a further improvement of the technology, two pin holes are symmetrically formed in two branches of the U-shaped swing plate, and ring grooves are circumferentially formed in the inner walls of the pin holes; the two swing pins are symmetrically and fixedly arranged on the inner wall of the shell and are respectively matched with the two pin hole bearings; two volute spiral springs are respectively positioned in the two ring grooves, one end of each volute spiral spring is connected with the inner wall of the corresponding ring groove, and the other end of each volute spiral spring is connected with the corresponding swing pin. The volute spiral spring is positioned in the annular groove, so that the space occupied by the volute spiral spring on the swing pin is saved, and the internal mechanism of the equipment is more compact.

As a further improvement of the technology, two pressing blocks are symmetrically arranged on two sides of the U-shaped swinging plate and are respectively connected with the upper end surfaces of the two soft bags.

As a further improvement of the technology, the tail end of the spray pipe is provided with an atomization structure.

As a further improvement of the present technique, the switch button is electrically connected to the electric drive module.

As a further improvement of the technology, the handle is provided with a rubber sleeve, and the rubber sleeve is provided with anti-skid lines.

Compared with the traditional viscous garbage cleaning equipment, the shovel plate of the utility model primarily shovels the viscous garbage on the ground, and the shovel block further shovels the viscous garbage which is not shoveled by the shovel plate or the relatively stubborn viscous garbage on the ground; sticky garbage scooped from the ground is adhered to the shovel plate or the shovel block, and the sticky garbage adhered to the shovel plate or the shovel block is scraped and removed and falls into a collecting box below through interaction of the teeth and the wedge-shaped scrapers on the U-shaped swing plate and the shovel block; then cleaning stains on the ground by using a conical brush which is arranged on the equipment and is stained with washing liquid, thereby realizing the integration of scraping viscous garbage, collecting viscous garbage and cleaning stains, saving cleaning procedures of sanitation workers and improving the working efficiency of sanitation; secondly, the utility model is convenient to carry, which is beneficial for environmental sanitation workers to clean sticky garbage on the ground at any time and any place, and clean stains on the ground, thereby further improving the working efficiency of the environmental sanitation workers; the utility model discloses simple structure has better result of use.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

FIG. 3 is a schematic cross-sectional view of the housing, electric drive module, drive plate, lock plate, pulley A, pulley B, timing belt, bevel gear A and bevel gear B in combination.

Fig. 4 is a schematic perspective view of the housing.

Fig. 5 is a schematic view of the internal gearing of the device.

Fig. 6 is a schematic view of the combination of the dial, lock plate, pin and sheave.

FIG. 7 is a cross-sectional view of the ring barrel, the transmission shaft C, the brush holder and the cone brush.

FIG. 8 is a schematic view of the combination of the U-shaped swing plate, the wedge-shaped scraper and the bladder.

FIG. 9 is a cross-sectional view of the spiral spring, the U-shaped swing plate and the swing pin.

Fig. 10 is a schematic cross-sectional view of a U-shaped wobble plate.

FIG. 11 is a schematic view of the combination of the shaft sleeve, the bar-shaped swing plate, the shovel plate and the shovel block.

Fig. 12 is a schematic cross-sectional view of the strip-shaped swing plate, the shaft sleeve and the sheave.

Figure 13 is a schematic view of a bladder.

FIG. 14 is a simplified schematic view of the U-shaped swing plate and blade in cooperation with each other and in a first state.

FIG. 15 is a simplified schematic diagram of the U-shaped swing plate and blade engagement and its second state.

FIG. 16 is a simplified schematic diagram of the combination of the ring barrel, hose, one-way valve and bladder.

Number designation in the figures: 1. a housing; 2. a movable groove; 3. a shaft hole; 4. a handle; 5. a switch button; 6. a dial; 7. a locking plate; 8. pulling a pin; 9. a pulley A; 10. a transmission shaft A; 11. an electric drive module; 12. a fixed seat A; 13. a synchronous belt; 14. a belt pulley B; 15. a bevel gear A; 16. a fixed seat B; 17. a bevel gear B; 18. a transmission shaft C; 19. brushing the support; 20. conical brushing; 21. a ring barrel; 22. a fixed seat D; 23. a fixed seat C; 24. a grooved wheel; 25. a radial slot; 26. locking the arc surface; 27. a shaft sleeve; 28. a strip-shaped swinging plate; 29. shoveling blocks; 30. a shovel plate; 31. a U-shaped swing plate; 32. a ring groove; 33. a wedge-shaped scraper; 34. a volute spiral spring; 35. swinging pin; 36. briquetting; 37. a soft bag; 38. an outlet hole A; 39. entering a hole; 40. a fixed seat E; 41. an outlet hole B; 42. a collection box; 43. a transmission shaft B; 44. a nozzle; 45. a contact line; 46. a yielding groove.

Detailed Description

The attached drawings are schematic diagrams of the implementation of the present invention in order to understand the structural operation principle. The specific product structure and the proportional size are determined according to the use environment and the conventional technology.

As shown in fig. 1 and 2, it comprises a housing 1, a handle 4, a switch button 5, a dial 6, a locking disc 7, a dial pin 8, a transmission shaft a10, an electric drive module 11, a transmission shaft C18, a brush holder 19, a cone brush 20, a ring barrel 21, a grooved pulley 24, a shaft sleeve 27, a strip-shaped swinging plate 28, a shovel block 29, a shovel plate 30, a U-shaped swinging plate 31, a wedge-shaped scraper 33, a volute spring 34, a soft bag 37 and a collecting box 42, wherein as shown in fig. 3, 5 and 6, the dial 6 and the locking disc 7 which are connected with each other are concentrically mounted on the inner wall of the housing 1 through the transmission shaft a10, and the transmission shaft a10 is in bearing fit with a shaft hole 3 on; the output shaft of the electric drive module 11 mounted on the side wall of the housing 1 is connected with a transmission shaft A10; as shown in fig. 2 and 5, the transmission shaft C18 is vertically installed in the housing 1, the lower end of the transmission shaft C18 is provided with a brush holder 19, and the lower end surface of the brush holder 19 is provided with a conical brush 20; as shown in fig. 2, the cone brush 20 is matched with the ground through the movable groove 2 on the lower end surface of the shell 1; as shown in fig. 2 and 7, the ring barrel 21 is fixedly arranged in the shell 1, and the lower end surface of the ring barrel 21 is in contact fit with the upper end surface of the brush holder 19; a plurality of through holes distributed on the lower end surface of the ring barrel 21 are respectively matched with a plurality of vertical through holes on the upper end surface of the brush holder 19; as shown in fig. 3 and 5, the transmission shaft a10 is in transmission connection with the transmission shaft C18.

As shown in fig. 2 and 6, the sixth sheave 24 and the shaft sleeve 27 are coaxially mounted on the inner wall of the housing 1, and the shafts of the sheave 24 and the shaft sleeve 27 are parallel to the transmission shaft a 10; the radial groove 25 on the grooved wheel 24 is matched with the shifting pin 8 arranged at the edge of the circular surface of the driving plate 6; the concave locking cambered surface 26 on the wheel groove is matched with the cylindrical surface of the locking disc 7; as shown in fig. 2, 5 and 11, three bar-shaped swing plates 28 are uniformly distributed on the outer cylindrical surface of the shaft sleeve 27 in the circumferential direction, a plurality of bar-shaped shovel plates 30 are uniformly installed at the tail end of each bar-shaped swing plate 28 along the width direction at intervals, and a shovel block 29 is installed between two adjacent shovel plates 30; as shown in fig. 2, 5 and 8, the U-shaped swing plate 31 swings in the housing 1 through two swing pins 35 symmetrically installed on two branches of the U-shaped swing plate, and the swing pins 35 are located below the center of the shaft sleeve 27; as shown in fig. 5 and 10, a plurality of teeth are uniformly distributed at intervals on the tail end of the U-shaped swing plate 31 along the width direction thereof, and the teeth are matched with the shovel plate 30 and the shovel block 29 on each strip-shaped swing plate 28; the U-shaped swing plate 31 is matched with the shovel plate 30; as shown in fig. 2, a collection box 42 for receiving garbage is installed at the bottom of the housing 1; the shovel plate 30 is contacted with the tooth tips on the U-shaped swing plate 31 in the process of swinging around the center of the shaft sleeve 27, and the contact point is positioned above the collecting box 42; as shown in fig. 2, 14 and 15, as the shovel 30 swings, the tip of the shovel 30 slides towards the direction of the swing pin 35 through the end surface of the U-shaped swing plate 31 and goes over the relief groove 46 on the U-shaped swing plate 31; a wedge-shaped scraper 33 arranged on the upper end surface of the U-shaped swinging plate 31 is matched with the shovel plate 30 and the shovel block 29 on each strip-shaped swinging plate 28; as shown in fig. 9, the two swing pins 35 are respectively fitted with scroll springs 34 for returning the swing of the U-shaped swing plate 31.

As shown in fig. 2, 5 and 8, the two soft bags 37 are symmetrically installed on the inner wall of the housing 1 through fixing seats E40, and the two soft bags 37 are located on two sides of the U-shaped swing plate 31; two sides of the U-shaped swinging plate 31 are respectively connected with the upper end faces of the two soft bags 37; as shown in fig. 16, the inlet holes 39 on the side surfaces of the two soft bags 37 are respectively provided with a hose having a check valve, and one ends of the two hoses are respectively inserted into the cleaning liquid in the ring bucket 21 through the two outlet holes B41 on the upper end surface of the ring bucket 21; as shown in fig. 8, 13 and 16, the outlets a38 on the side surfaces of the two soft bags 37 are respectively provided with a spray tube 44 for spraying lotion between the teeth of the U-shaped swing plate 31 and the wedge-shaped scraper 33; as shown in fig. 1, a handle 4 is mounted on a housing 1, and a switch button 5 is mounted on the handle 4; as shown in fig. 4, the housing 1 has a space therein for the shovel plate 30 to swing out of the housing 1.

As shown in fig. 2, the transmission shaft C18 is installed in the housing 1 through a fixing seat C23, and the transmission shaft C18 is in bearing fit with the fixing seat C23; the ring barrel 21 is fixedly arranged in the shell 1 through a fixed seat D22; the ring barrel 21 is nested on the transmission shaft C18.

As shown in fig. 3, a pulley a9 is mounted on the transmission shaft a 10; a fixed seat B16 is installed on the inner wall of the shell 1, a transmission shaft B43 is in bearing fit with the fixed seat B16, and the transmission shaft B43 is parallel to the transmission shaft A10; two ends of the transmission shaft B43 are respectively provided with a bevel gear A15 and a belt wheel B14, and the belt wheel B14 is in transmission connection with the belt wheel A9 through a synchronous belt 13; as shown in fig. 2 and 3, a bevel gear B17 is mounted at the upper end of the transmission shaft C18, and a bevel gear B17 is meshed with the bevel gear a 15.

As shown in fig. 12, the electric drive module 11 is mounted on the side wall of the housing 1 through a fixing seat a 12.

As shown in fig. 11, the shovel plate 30 is an elastic metal sheet, and the shovel block 29 is made of metal and has no elastic bending performance; shovel plate 30 has a bevel at one end and shovel block 29 has a pointed corner at one end. The inclined plane end on the shovel plate 30 carries out preliminary shovel to the stickness rubbish on ground, and stubborn adhesion part between stickness rubbish and the ground is shoveled through the closed angle on the shovel plate 30 that exposes after shovel plate 30 takes place to deform.

As shown in fig. 10, two pin holes are symmetrically formed in two legs of the U-shaped swing plate 31, and ring grooves 32 are circumferentially formed on inner walls of the pin holes; as shown in fig. 2 and 8, two swing pins 35 are symmetrically and fixedly installed on the inner wall of the housing 1, and the two swing pins 35 are respectively matched with two pin hole bearings; as shown in fig. 9, two spiral springs 34 are respectively disposed in the two annular grooves 32, one end of each spiral spring 34 is connected to the inner wall of the corresponding annular groove 32, and the other end is connected to the corresponding pivot pin 35. The scroll spring 34 is located in the annular groove 32, so that the space occupied by the scroll spring 34 on the swing pin 35 is saved, and the internal mechanism of the equipment is more compact.

As shown in fig. 8, two pressing blocks 36 are symmetrically installed on both sides of the U-shaped swing plate 31, and the two pressing blocks 36 are respectively connected to the upper end surfaces of the two soft bags 37.

As shown in fig. 8, the end of the nozzle 44 is provided with an atomizing structure.

As shown in fig. 1, the switch knob 5 is electrically connected to an electric drive module 11.

As shown in fig. 1, the handle 4 has a rubber sleeve with anti-slip threads.

In the utility model, the switch button 5 is switched once, the output shaft of the electric drive module 11 rotates for even circles, so that the switch button 5 is switched once, and the bar-shaped swinging plate 28 swings for an integral multiple of 120 degrees around the central line of the shaft sleeve 27; when the electric drive module 11 stops operating, any one of the three strip-shaped swing plates 28 and the plurality of shovel plates 30 and shovel blocks 29 arranged on the same are ensured to be positioned at the position for shoveling viscous garbage; this even-numbered turn output mode of the electric drive module 11 is known in the art.

The utility model discloses well electricity drives module 11 is prior art, and it mainly comprises motor and reduction gear.

The utility model discloses in install the atomizing structure on spray tube 44 is terminal adopts current mechanism, atomizing structure makes the lotion that the blowout comes be vaporific, and vaporific lotion can spray evenly between U type pendulum plate 31 tooth and wedge scraper blade 33.

In the utility model, the hose connecting the soft bag 37 and the ring barrel 21 is provided with the one-way valve, when the soft bag 37 is compressed and deformed, the one-way valve plays a role of blocking, and prevents the washing liquid in the soft bag 37 from entering the ring barrel 21 through the hose; when the soft bag 37 is compressed and deformed to recover, the one-way valve plays a role in communication, so that the soft bag 37 sucks the cleaning liquid from the ring barrel 21 through the hose, and the cleaning liquid in the soft bag 37 is supplemented.

The utility model discloses a work flow: in the initial state, a plurality of holes at the bottom of the ring barrel 21 are not communicated with a plurality of through holes on the lower brush holder 19; one end of the U-shaped swinging plate 31 with the teeth is upwarped; the two soft capsules 37 remain in an undeformed state; the soft bag 37 and the ring bucket 21 are filled with cleaning liquid; the shifting pin 8 on the driving plate 6 is positioned at the notch of the corresponding radial groove 25 on the grooved wheel 24 and is about to enter the radial groove 25, the cylindrical surface on the locking disc 7 is in contact fit with the corresponding concave locking cambered surface 26 on the grooved wheel 24, and the locking disc 7 forms a locking state on the grooved wheel 24 to prevent the grooved wheel 24 from rotating; one end of one strip-shaped swing plate 28, which is provided with a shovel plate 30 and a shovel block 29, is exposed.

When the sticky garbage on the ground is shoveled and cleaned, the handle 4 is held by hand to enable the equipment to be slightly inclined, the sticky garbage on the ground is shoveled by a plurality of shoveling plates 30 on a strip-shaped swinging plate 28 positioned outside the shell 1, and the sticky garbage shoveled from the ground is adhered to the upper surfaces of the shoveling plates 30; because the adhesive force between the viscous garbage and the ground is very strong, the elastic shoveling plates 30 can only shovel most of the upper end of the viscous garbage, and a small part of the elastic shoveling plates which are in direct contact with the ground still adheres to the ground; continuously applying pressure to enable the shovel plate 30 to be warped and deformed under the action of the ground, exposing the hard metal shovel blocks 29 at the tail end of the strip-shaped swing plate 28, enabling the pushing device to conduct reciprocating scraping on the residual part of the viscous garbage still adhered to the ground through the shovel blocks 29 at the tail end of the strip-shaped swing plate 28, and shoveling and adhering the residual part of the viscous garbage adhered to the ground on the shovel blocks 29; lifting the equipment to enable the shovels 30 and the shovels 29 to leave the ground, the deformation of the shovels 30 disappears and the shovels restore to the original shape, and a part of viscous garbage originally adhered to the shovels 29 enters the intervals among the shovels 30 and a part of viscous garbage reaches the upper surfaces of the shovels 30; at this time, the removal of the viscous waste adhering to the ground is completed.

Then the stain on the sticky garbage attaching point on the ground is cleaned and the sticky garbage attached to the shovel plate 30 and the shovel block 29 is collected at the same time, and the working flow is as follows:

after the viscous garbage attached to the ground is shoveled, firstly aligning the conical brush 20 positioned at the bottom of the equipment with the stain on the ground; then, a switch button 5 on the handle 4 is pressed, so that the electric drive module 11 operates, an output shaft of the electric drive module 11 drives a transmission shaft A10 to rotate, and a transmission shaft A10 drives a coaxial belt wheel A9, a drive plate 6 and a locking disc 7 to synchronously rotate; the belt wheel A9 drives the belt wheel B14 to rotate through a synchronous belt 13; the belt wheel B14 drives the bevel gear A15 to synchronously rotate through a transmission shaft B43; the bevel gear drives the brush holder 19 and the conical brush 20 to synchronously rotate relative to the ring barrel 21 through the bevel gear B17 and the transmission shaft C18, a plurality of through holes on the brush holder 19 are respectively and repeatedly communicated and disconnected with a plurality of through holes at the bottom of the ring barrel 21, and the cleaning liquid in the ring barrel 21 intermittently flows to the conical brush 20 from the through holes communicated between the brush holder 19 and the ring barrel 21; the conical brush 20 which is rotated and stained with the cleaning liquid brushes the stains on the ground; the switch button 5 is continuously pressed for a plurality of times until the taper brush 20 cleans stains on the ground.

Meanwhile, the rotary driving plate 6 drives the grooved wheel 24 to rotate through the interaction of the driving pin 8 arranged on the rotary driving plate and the radial groove 25 on the grooved wheel 24; when the driving plate 6 rotates for one circle, the driving pin 8 drives the grooved wheel 24 to rotate for 60 degrees; under the condition that the switch button 5 is continuously pressed for a plurality of times, the driving plate 6 which continuously rotates drives the grooved wheel 24 to intermittently rotate through the driving pin 8; the shovel plates 30 and the shovel blocks 29 adhered with the sticky garbage continuously and intermittently swing along the same axial direction with the corresponding strip-shaped swing plates 28; when the shovels 30 and the shovels 29 adhered with the viscous garbage meet the upturned end of the U-shaped swinging plate 31, the teeth on the U-shaped swinging plate 31 begin to be embedded into the intervals between the shovels 30, and the wedge-shaped scraping plate 33 on the U-shaped swinging plate 31 is in surface contact with the shovels 30 adhered with the viscous garbage.

The plurality of shovel plates 30 which continuously swing drive the U-shaped swing plate 31 to swing downwards around the swing pin 35 through the wedge-shaped scraper 33, the U-shaped swing plate 31 which swings downwards drives the two pressing blocks 36 on the two sides to press the two soft bags 37 simultaneously, cleaning solution in the two soft bags 37 is sprayed on the teeth and the wedge-shaped scraper 33 on the U-shaped swing plate 31 in a mist manner from the two sides of the U-shaped swing plate 31 through the corresponding spray pipes 44, and the two volute springs 34 are deformed and store energy; meanwhile, the teeth on the U-shaped swing plate 31 are embedded into the intervals among the plurality of shovel plates 30 to clean the viscous garbage adhered to the intervals among the plurality of shovel plates 30, and the wedge-shaped scraper 33 scrapes the viscous garbage adhered to the surfaces of the plurality of shovel plates 30; cleaning liquid is sprayed on the teeth and the wedge-shaped scrapers 33 on the U-shaped swinging plate 31, so that sticky garbage cleaned from the intervals among the plurality of shovels 30 and the surfaces of the shovels 30 cannot continuously adhere to the U-shaped swinging plate 31 and the wedge-shaped scrapers 33; the sticky garbage cleaned from the intervals among the shovels 30 falls into the collection box 42 below; when the U-shaped swinging plate 31 is pushed by the plurality of shoveling plates 30 to swing below the horizontal position, the sticky garbage cleaned from the surfaces of the plurality of shoveling plates 30 by the wedge-shaped scraping plate 33 falls into the collecting box 42 below; when the U-shaped swinging plate 31 swings downwards to a certain position, the plurality of shoveling plates 30 continuously swing for a plurality of times of 120 degrees through the middle of the U-shaped swinging plate 31 over the wedge-shaped scraping plate 33 until the electric driving module 11 stops running after the cleaning of the soil on the ground is finished; when the electric drive module 11 stops operating, the three bar-shaped swing plates 28 are respectively overlapped with the three bar-shaped swing plates 28 in the initial state, and other components in the device move to the initial position and the initial state.

When the shoveling plates 30 cleaned with the viscous garbage leave the U-shaped swinging plate 31, the U-shaped swinging plate 31 swings back to the initial position under the reset action of the two volute spiral springs 34; in this process, the two soft bags 37 are gradually restored, and the two soft bags 37 respectively suck the cleaning liquid from the ring barrel 21 through the corresponding hoses provided with the check valves.

As shown in fig. 14 and 15, the shovel plate 30 contacts with the tooth tips of the U-shaped swing plate 31 during the swing process around the center of the shaft sleeve 27, and the contact line 45 between the shovel plate and the U-shaped swing plate is positioned above the collecting box 42; with the swinging of the shovel plates 30, the U-shaped swing plate 31 swings around the swing pin 35 towards the collecting box 42 under the action of the shovel plates 30, and when the contact lines 45 between the U-shaped swing plate 31 and the shovel plates 30 on the corresponding strip-shaped swing plate 28 move from the tooth end of the U-shaped swing plate 31 to the abdicating groove 46 of the U-shaped swing plate 31, the tip ends of the shovel plates 30 continuously swing over the abdicating groove 46 on the U-shaped swing plate 31.

To sum up, the utility model has the advantages that: the shovel plate 30 of the utility model primarily shovels sticky garbage on the ground, and the shovel block 29 further shovels sticky garbage which is not shoveled clean or more stubborn sticky garbage by the shovel plate 30 on the ground; the sticky garbage scooped up from the ground is adhered to the shovel plate 30 or the shovel block 29 and interacts with the shovel plate 30 and the shovel block 29 through the teeth on the U-shaped swing plate 31 and the wedge-shaped scraper 33, so that the sticky garbage adhered to the shovel plate 30 or the shovel block 29 is cut off and falls into the collecting box 42 below; then cleaning the stain on the ground by using a conical brush 20 which is arranged on the equipment and is stained with washing liquid, thereby realizing the integration of shoveling viscous garbage, collecting viscous garbage and cleaning the stain, saving the cleaning process of sanitation workers and improving the working efficiency of sanitation; secondly, the utility model discloses still be convenient for carry, be favorable to the sanitationman anytime and anywhere can all clear up subaerial stickness rubbish, wash subaerial spot, further improve sanitationman's work efficiency.

Claims (3)

1. The utility model provides an environmental protection equipment of clearance stickness rubbish which characterized in that: the electric-driven type cleaning brush comprises a shell, a handle, a switch button, a drive plate, a locking plate, a drive pin, a drive shaft A, an electric-driven module, a drive shaft C, a brush holder, a conical brush, a ring barrel, a grooved pulley, a shaft sleeve, a strip-shaped swinging plate, a shovel block, a shovel plate, a U-shaped swinging plate, a wedge-shaped scraper blade, a volute spiral spring, a soft bag and a collecting box, wherein the drive plate and the locking plate which are connected with each other are concentrically arranged on the inner wall of the shell through the drive shaft A, and the drive shaft A is matched with; the output shaft of the electric drive module arranged on the side wall of the shell is connected with the transmission shaft A; the transmission shaft C is vertically arranged in the shell, the lower end of the transmission shaft C is provided with a brush support, and the lower end face of the brush support is provided with a conical brush; the conical brush is matched with the ground through a movable groove on the lower end surface of the shell; the ring barrel is fixedly arranged in the shell, and the lower end face of the ring barrel is in contact fit with the upper end face of the brush holder; a plurality of through holes distributed on the lower end surface of the ring barrel are respectively matched with a plurality of vertical through holes on the upper end surface of the brush support; the transmission shaft A is in transmission connection with the transmission shaft C;

the sixth grooved wheel and the shaft sleeve are coaxially arranged on the inner wall of the shell, and the shaft where the grooved wheel and the shaft sleeve are arranged is parallel to the transmission shaft A; the radial groove on the grooved wheel is matched with a shifting pin arranged at the edge of the circular surface of the driving plate; the concave locking cambered surface on the wheel groove is matched with the cylindrical surface of the locking disc; three strip-shaped swing plates are uniformly distributed on the outer cylindrical surface of the shaft sleeve in the circumferential direction, a plurality of strip-shaped shovel plates are uniformly installed at the tail end of each strip-shaped swing plate along the width direction of the strip-shaped swing plate at intervals, and a shovel block is installed between every two adjacent shovel plates; the U-shaped swing plate swings in the shell through two swing pins symmetrically arranged on the two arms of the U-shaped swing plate, and the swing pins are positioned below the side of the center of the shaft sleeve; a plurality of teeth are uniformly distributed at intervals on the tail end of the U-shaped swing plate along the width direction of the U-shaped swing plate, and the teeth are matched with the shovel plate and the shovel block on each strip-shaped swing plate; the U-shaped swing plate is matched with the shovel plate; the bottom of the shell is provided with a collecting box for receiving garbage; the shovel plate is contacted with the tip of the upper tooth of the U-shaped swing plate in the process of swinging around the center of the shaft sleeve, and the contact point is positioned above the collecting box; along with the swinging of the shovel plate, the tip end of the shovel plate slides towards the direction of the swing pin through the end surface of the U-shaped swing plate and passes through the abdicating groove on the U-shaped swing plate; the wedge-shaped scraper arranged on the upper end surface of the U-shaped swing plate is matched with the shovel plate and the shovel block on each strip-shaped swing plate; scroll springs for resetting the swinging of the U-shaped swinging plate are respectively nested on the two swinging pins;

the two soft bags are symmetrically arranged on the inner wall of the shell through the fixing seat E respectively, and are positioned on two sides of the U-shaped swing plate respectively; two sides of the U-shaped swing plate are respectively connected with the upper end faces of the two soft bags; the inlet holes positioned on the side surfaces of the two soft bags are respectively provided with a hose with a one-way valve, and one end of each hose is inserted into the cleaning liquid positioned in the annular barrel through two outlet holes B on the upper end surface of the annular barrel; spray pipes for spraying washing liquid between the U-shaped swing plate teeth and the wedge-shaped scraper are respectively arranged at outlet holes A on the side surfaces of the two soft bags; a handle is arranged on the shell, and a switch button is arranged on the handle; the housing has a space therein for the blade to swing out of the housing.

2. An environmental protection apparatus for cleaning viscous waste according to claim 1, which comprises: the transmission shaft C is arranged in the shell through the fixed seat C, and the transmission shaft C is matched with the fixed seat C in a bearing mode; the ring barrel is fixedly arranged in the shell through a fixed seat D; the ring barrel is nested on the transmission shaft C.

3. An environmental protection apparatus for cleaning viscous waste according to claim 1, which comprises: the transmission shaft A is provided with a belt wheel A; a fixed seat B is arranged on the inner wall of the shell, a transmission shaft B is matched with the fixed seat B in a bearing way, and the transmission shaft B is parallel to the transmission shaft A; two ends of the transmission shaft B are respectively provided with a bevel gear A and a belt wheel B, and the belt wheel B is in transmission connection with the belt wheel A through a synchronous belt; the upper end of the transmission shaft C is provided with a bevel gear B, and the bevel gear B is meshed with the bevel gear A.