CN215553067U - Automatic cleaning system for vehicle access - Google Patents

Abstract

The invention discloses an automatic cleaning system for vehicle access. The automatic cleaning system comprises an automatic cleaning device, a sewage recovery circulating mechanism and a dredging mechanism, wherein the sewage recovery circulating mechanism comprises a water collecting groove, a water drainage groove is formed in the bottom wall of the water collecting groove, a fence is arranged in the water drainage groove, the dredging mechanism is positioned on one side, close to the automatic cleaning device, of the fence, and the dredging mechanism comprises a scraping brush used for scraping the surface of the fence and a fixed component used for fixing the scraping brush. The sewage that self-cleaning device washd the vehicle and produced falls into catchment groove to get into sewage recovery circulation mechanism by the water drainage tank, debris such as silt and leaf gather in the fence is close to one side of self-cleaning subassembly easily, influence the efficiency of water drainage tank drainage. The scraping brush takes away the leaves or plastic bags and the like gathered on the fence, and stirs sewage, so that the sewage takes away the silt, the probability that the fence is blocked is reduced, the drainage efficiency of the drainage tank is improved, and the water circulation efficiency of the automatic cleaning system is improved.

Description

Automatic cleaning system for vehicle access

Technical Field

The invention relates to the technical field of vehicle cleaning systems, in particular to an automatic cleaning system for vehicle access.

Background

The automatic vehicle cleaning device is a device which can automatically clean, wax and air dry vehicles through related programs and cleaning equipment. Since construction materials such as lime, cement, gravel and the like are loaded, unloaded and transported in a construction site with a work vehicle often, the construction materials are easily attached to tires and a vehicle body, and environmental pollution such as dust is easily generated when the work vehicle to which the construction materials are attached runs at high speed. Therefore, when the engineering truck leaves the construction site, the engineering truck is cleaned.

In the related art, chinese patent with publication number CN212267418U discloses an automatic vehicle cleaning device and system, where the automatic vehicle cleaning system includes an automatic vehicle cleaning device, a water collecting tank, a sedimentation tank and a circulating water tank, the automatic vehicle cleaning device is provided with a nozzle for cleaning a vehicle, the water collecting tank is arranged on a side surface of the automatic vehicle cleaning device and is communicated with the sedimentation tank, the sedimentation tank is communicated with the circulating water tank, and the circulating water tank is internally provided with a water pump. The automatic cleaning device for the vehicle cleans the upper box plate, the carriage side plate, the bottom plate, the side surfaces of all tires and the tire ground of the vehicle, and has good cleaning effect and thorough cleaning. The sewage after cleaning flows into the water collecting tank and enters the sedimentation tank, and after water is precipitated by the sedimentation tank, clean water flows into the circulating water tank and is pumped into the automatic vehicle cleaning device again through the water pump to clean the vehicle, so that the cyclic utilization of water resources is realized.

With respect to the above related art, the inventors consider that: sundries such as plastic bags or leaves may exist in the catchment tank, and the sundries such as the plastic bags or the leaves may block a channel between the catchment tank and the sedimentation tank, so that the drainage efficiency of the catchment tank is influenced, and the water circulation efficiency of the automatic cleaning system is further influenced.

SUMMERY OF THE UTILITY MODEL

In order to improve automatic cleaning system hydrologic cycle efficiency, the application provides a vehicle discrepancy automatic cleaning system.

The application provides a vehicle discrepancy self-cleaning system adopts following technical scheme:

the utility model provides a vehicle discrepancy automatic cleaning system includes self-cleaning device, sewage recovery circulation mechanism and mediation mechanism, and sewage recovery circulation mechanism is including the catchment groove that is used for collecting self-cleaning device emission sewage, catchment the water drainage tank has been seted up on the tank wall, be provided with the fence in the water drainage tank, mediation mechanism is located one side that the fence is close to self-cleaning device, and mediation mechanism is including being used for scraping the fixed subassembly that strikes the brush and the fixed brush that strikes on fence surface, fixed subassembly is connected and is struck off brush and ground, and strikes that the brush can stretch into the water drainage tank.

Through adopting above-mentioned technical scheme, the sewage that self-cleaning device washd the vehicle and produced falls into catchment groove to get into sewage recovery circulation mechanism by the water drainage tank, debris such as silt in the sewage and the leaf that falls into sewage circulation mechanism gather in the fence is close to one side of self-cleaning subassembly easily, and block up the fence, influence the efficiency of water drainage tank drainage. The scraping brush is supported by the fence to be in contact with the support of the fixing assembly, leaves or plastic bags and the like gathered on the fence are taken away, sewage is stirred, silt is taken away by the sewage, the probability that the fence is blocked is reduced, the drainage efficiency of the drainage tank is improved, and the water circulation efficiency of the automatic cleaning system is improved.

Optionally, the fixed subassembly includes the support, changes roller and a plurality of fan, the support is connected with ground, changes the roller and rotates with the support to be connected, and changes the rotation axis of roller and the length direction of water drainage tank perpendicular, and a plurality of fan are evenly laid on changeing the global of roller, scrape the brush and keep away from the one end fixed connection who changes the roller with the fan.

By adopting the technical scheme, the fan blade drives the rotary roller to rotate under the action of sewage impact force, the scraping brush on the fan blade is abutted against the fence, and impurities such as leaves and the like on the fence are taken away; the scraping brush stirs sewage in the drainage tank, so that the barrier is blocked by sediment deposition, and the drainage efficiency of the drainage tank is influenced.

Optionally, the fan blade is V-shaped, and the opening of the fan blade faces the rear direction along the rotation direction of the rotary roller.

By adopting the technical scheme, the fan blade rotates under the push of water power, and when the fan blade rotates to the drainage groove, the V-shaped part of the fan blade faces the automatic cleaning device, so that the water power received by the fan blade is increased, and the rotating efficiency of the fan blade is improved.

Optionally, the automatic cleaning system further comprises a collecting box, the collecting box is located on one side of the rotating roller close to the automatic cleaning device, and one end of the collecting box, which is far away from the ground, is opened, so that sundries carried by the scraping brush can fall into the collecting box.

Through adopting above-mentioned technical scheme, along with the rotation of changeing the roller, scrape the brush and take debris such as leaf to the one side that changes the roller and be close to self-cleaning device, thing such as leaf can get into the collecting box under gravity and centrifugal force effect, has reduced the probability that leaves etc. got into water drainage tank once more.

Optionally, the collecting box comprises a box body and a scraping plate for hooking and taking sundries on the scraping brush, the box body is placed above the drainage groove, and the scraping plate is fixedly connected with the box body.

Through adopting above-mentioned technical scheme, scrape the hook plate with debris from scraping under the brush upper hook, reduced debris and twined on scraping the brush to strike off the probability that the brush carried the reentrant water drainage tank down.

Optionally, the water drainage tank is an arc-shaped tank, the circle center is located on one side, close to the automatic cleaning device, of the water drainage tank, and the scraping brush can be abutted to the tank bottom of the water drainage tank.

Through adopting above-mentioned technical scheme, the arc wall does not have the corner, has reduced the probability that things such as leaf, silt deposit and obstruct sewage flow in the corner. The scraping brush is abutted against the bottom of the drainage groove, so that the probability that leaves, silt and the like stay at the bottom of the drainage groove and block the flow of sewage is reduced.

Optionally, the sewage recovery circulation mechanism still includes the sedimentation tank, the inflow inlet has been seted up on the sedimentation tank lateral wall, has set firmly the polylith swash plate in the sedimentation tank, and the polylith swash plate is arranged along sedimentation tank depth direction in proper order, the swash plate slope is towards the inflow inlet.

Through adopting above-mentioned technical scheme, the swash plate leads to the silt in the sewage, and the direction that guides silt to being close to the sedimentation tank bottom of a pool removes to the efficiency that sewage subsides has been improved.

Optionally, the sewage recovery and circulation mechanism further comprises a reservoir, an overflow partition plate is arranged at an outflow port of the sedimentation tank, and the outflow port is communicated with the reservoir.

By adopting the technical scheme, the sediment in the sedimentation tank is settled, the clear water is positioned at the upper part of the sedimentation tank, and the clear water passes through the overflow partition plate and flows into the reservoir. The reservoir stores cleaning water for the automatic cleaning device.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the fan blade drives the rotating roller to rotate under the impact of sewage, the scraping brush on the fan blade is abutted against the fence, and sundries such as leaves, plastic bags and the like on one side of the fence close to the automatic cleaning device are taken away, so that the possibility that the sundries such as the leaves block the fence is reduced, and the drainage efficiency of the cleaning system is improved;

2. the scraping brush is abutted against the bottom of the drainage groove, so that sewage in the drainage groove is stirred, and the probability that sediment in the sewage is deposited on one side of the fence close to the automatic cleaning device and blocks the fence is reduced;

3. the inclined plate is arranged in the sedimentation tank and accelerates the sedimentation of silt in the sedimentation tank.

Drawings

Fig. 1 is a schematic view of the entire mechanism of the embodiment of the present application.

Fig. 2 is a partial structural schematic diagram of an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a dredging mechanism in the embodiment of the application.

Fig. 4 is a partial cross-sectional view of an embodiment of the present application.

Description of reference numerals:

1. an automatic cleaning device; 14. a speed bump; 2. a water collecting tank; 21. a water discharge tank; 22. carrying piles; 23. a fence; 3. a dredging mechanism; 31. a support; 32. rotating the roller; 33. a fan blade; 34. scraping the brush; 35. a collection box; 351. a hook scraping plate; 4. a sedimentation tank; 41. an inflow port; 42. an outflow port; 43. a partition plate; 44. a sloping plate; 45. an overflow baffle; 46. a sedimentation tank cover; 5. a reservoir; 51. a water pump; 53. a drain pipe; 54. a plastic film.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses vehicle discrepancy self-cleaning system. Referring to fig. 1, self-cleaning system installs in engineering place gate department, self-cleaning system includes self-cleaning device 1, sewage recovery circulating mechanism and dredging mechanism 3, self-cleaning device 1 washs the machineshop car, sewage after the washing gets into sewage recovery circulating mechanism, dredging mechanism 3 clears away debris such as leaf, plastic bag in the sewage recovery circulating mechanism to make sewage recovery circulating mechanism be difficult for blockking up, sewage recovery and circulation efficiency have been improved, automatic cleaning system water cycle efficiency has been improved promptly.

Referring to fig. 1 and 2, the automatic cleaning device 1 is fixedly connected above the ground, and a speed bump 14 is arranged on the ground at the front side of the automatic cleaning device along the moving direction of the engineering vehicle to assist the engineering vehicle in shaking off excessive water carried on the vehicle body. The sewage recovery and circulation mechanism comprises a water collection tank 2, a sedimentation tank 4 and a water storage tank 5. Catchment groove 2 sets up in self-cleaning device 1's below, and catchment groove 2's notch orientation self-cleaning device 1, fixedly connected with bearing pile 22 on catchment groove 2's the diapire, and bearing pile 22 keeps away from catchment groove 2 tank bottom one end and self-cleaning device 1 fixed connection to support self-cleaning device 1. The bottom of the water collecting groove 2 is provided with a water draining groove 21, the water draining groove 21 is an arc-shaped groove, and the circle center is positioned at one side of the water draining groove 21 close to the automatic cleaning device 1. The bottom wall of the water collection tub 2 is inclined toward the drain tub 21 to guide the sewage into the drain tub 21.

Referring to fig. 2 and 3, the drainage channel 21 extends from the ground to a direction away from the automatic cleaning device 1 and is communicated with the sedimentation basin 4, and a fence 23 for blocking sundries such as leaves and plastic bags in the drainage channel 21 is fixedly connected in the drainage channel 21. The dredging mechanism 3 is located on a side of the fence 23 close to the automatic cleaning device 1, and the dredging mechanism 3 includes a scraping brush 34 for scraping and brushing the fence 23 and a fixing assembly for fixing the scraping brush 34.

Referring to fig. 2 and 3, the fixing assembly includes a rotating roller 32, two brackets 31 and a plurality of fan blades 33, the drainage channel 21 is located between the two brackets 31, one end of each bracket 31 is fixedly connected to the ground, the other end of each bracket 31 is rotatably connected to the rotating roller 32, and the rotating axis of the rotating roller 32 is perpendicular to the length direction of the drainage channel 21. The plurality of fan blades 33 are uniformly arranged on the circumferential surface of the rotating roller 32. The fan 33 is a V-shaped bent plate, and along the rotation direction of the roller 32, the fan 33 faces backward, that is, the sewage flows in the drainage groove 21, when the fan 33 contacts the sewage, the fan 33 faces the automatic cleaning device 1, so that the sewage pushes the fan 33, and further the roller 32 rotates. The scraping brush 34 is fixedly connected with one end of the fan blade 33 far away from the roller 32, the scraping brush 34 is formed by cutting a plurality of teeth from an elastic metal plate, the scraping brush 34 can be abutted against the fence 23, and the scraping brush 34 can be abutted against the bottom of the drainage groove 21.

The fan sheet 33 drives the rotary roller 32 to rotate under the action of sewage impact force, the scraping brush 34 on the fan sheet 33 is abutted against the fence 23, and objects such as leaves and the like on the fence 23 are taken away; scrape 34 and contradict with water drainage tank 21 tank bottom to stir water drainage tank 21 internal sewage, reduce the sedimentary probability of silt at water drainage tank 21's tank bottom in the sewage, thereby reduced fence 23 and blockked up by leaf, silt, and influenced cleaning system water cycle efficiency's probability.

Referring to fig. 2 and 3, the foreign materials such as leaves carried by the scraping brush 34 may fall into the drain groove 21 again while moving along with the fan blade 33, and thus a collection box 35 is placed above the drain groove 21, the collection box 35 being located at a side of the rotating roller 32 close to the automatic cleaning apparatus 1. The collection box 35 is a waterproof plastic box, and iron blocks or stone bricks can be placed in the collection box 35 for increasing the firmness of placement of the collection box 35. Collecting box 35 includes the box and scrapes hook plate 351, and the one end opening of water drainage tank 21 is kept away from to the box, scrapes hook plate 351 for many plastics and scrapes the hook and arrange in proper order along changeing roller 32 axis direction, and keeps away from the fixed platelike hook that forms of panel that passes through to the one end of changeing roller 32, scrapes fixed one end of hook plate 351 panel and box opening part fixed connection, and scrapes hook plate 351 and keep away from the one end of box and extend to the direction slope of keeping away from ground. A plurality of plastic wiper hooks are disposed across the teeth of the wiper 34.

Along with the rotation of the roller 32, the scraping brush 34 brings sundries such as leaves to one side of the roller 32 close to the automatic cleaning device 1, the scraping hook plate 351 takes the sundries on the scraping brush 34 away, and conveys the sundries into the box body, so that the probability that the sundries such as leaves enter the drainage groove 21 again is reduced.

Referring to fig. 1 and 4, the sewage after being filtered by the fence 23 enters the settling tank 4. The sedimentation tank 4 is a cavity structure with a large upper part and a small lower part, the upper end of the sedimentation tank 4 is opened, and a sedimentation tank cover 46 is arranged on the opening cover. An inflow port 41 and an outflow port 42 are formed in the side wall of the sedimentation tank 4 close to the sedimentation tank cover 46, the drainage tank 21 is communicated with the sedimentation tank 4 through the inflow port 41, and a partition plate 43 is fixedly connected to the side wall of the sedimentation tank 4 close to the inflow port 41, so that the flow of sewage in the direction close to the bottom of the sedimentation tank 4 is accelerated, and the probability that the sewage which just flows into the sedimentation tank 4 rushes into the outflow port 42 is reduced. A plurality of inclined plates 44 are fixedly connected to the side wall of the settling tank 4, the inclined plates 44 are sequentially arranged in the depth direction of the settling tank 4, and the interval between the inclined plates 44 and the settling tank cover 46 is gradually increased in the direction close to the inflow port 41 so that the inclined plates 44 are inclined toward the inflow port 41. The sloping plate 44 guides the silt in the sewage guided by the partition plate 43 to move towards the direction close to the bottom of the sedimentation tank 4, thereby improving the efficiency of sewage sedimentation.

Referring to fig. 1 and 4, an overflow partition plate 45 is arranged at the outlet 42 of the settling tank 4, the overflow partition plate 45 comprises a connection sub-plate and an overflow sub-plate, the connection sub-plate is parallel to the bottom wall of the settling tank 4, and the connection sub-plate is fixedly connected with the side wall of the settling tank 4. The overflow daughter board is the arc, and the centre of a circle is located the one side that is close to egress opening 42, and the overflow daughter board is close to the one end of 4 diapalls of sedimentation tank and is connected daughter board integrated into one piece, and the both ends that the overflow daughter board is close to 4 lateral walls of sedimentation tank all with 4 lateral walls of sedimentation tank sealing fixed connection. The overflow sub-plate is spaced from the settler cover 46.

The sewage in the drainage tank 21 enters the sedimentation tank 4 through the inflow port 41 and moves in a direction approaching the bottom of the sedimentation tank 4 guided by the partition plate 43, and the silt in the sewage collides with the inclined plate 44 and is accelerated to move toward the bottom of the sedimentation tank 4 guided by the inclined plate 44. Over time, the fresh water in the settling tank 4 passes through the gap between the overflow sub-plate and the settling tank cover 46 and flows out of the settling tank 4 through the outflow port 42.

Referring to fig. 2 and 4, the settling tank 4 communicates with the water reservoir 5 through a flow outlet 42. A water pump 51 is arranged on the ground beside the reservoir 5, one end of the water pump 51 is connected with a water suction pipe, and the other end is connected with a water discharge pipe 53. The end of the suction pipe remote from the water pump 51 is inserted into the bottom of the reservoir 5. The drain pipe 53 communicates with the automatic cleaning apparatus 1 so that the water reservoir 5 supplies water to the automatic cleaning apparatus 1.

Referring to fig. 1 and 2, in order to reduce the probability of sundries such as leaves, silt and the like entering the water reservoir 5, a plastic film 54 is covered on the opening of the water reservoir 5, and the water suction pipe penetrates through the plastic film 54 and extends into the bottom of the water reservoir 5.

The implementation principle of the automatic cleaning system for vehicle access in the embodiment of the application is as follows:

the engineering truck drives into the automatic cleaning device 1, the automatic cleaning device 1 cleans the engineering truck, the cleaned sewage flows into the water collecting groove 2 and enters the water drainage groove 21, the sundries such as leaves are intercepted by the fence 23, the sundries intercepted by the fence 23 are moved away from the water drainage groove 21 by the dredging mechanism 3, and the sundries are scraped by the scraping plate 351 and slide into the collecting box 35. The sewage filtered by the fence 23 enters the sedimentation tank 4, the separation of water and silt is completed in the sedimentation tank 4, and the clear water in the sedimentation tank 4 enters the reservoir 5 through the outflow port 42. The water in the reservoir 5 is fed into the automatic cleaning apparatus 1 by the water pump 51.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a vehicle discrepancy automatic cleaning system, includes self-cleaning device (1), its characterized in that: still include sewage recovery circulation mechanism and mediation mechanism (3), sewage recovery circulation mechanism is including catchment groove (2) that is used for collecting self-cleaning device (1) discharge sewage, water drainage tank (21) have been seted up on catchment groove (2) diapire, be provided with fence (23) in water drainage tank (21), mediation mechanism (3) are located one side that fence (23) are close to self-cleaning device (1), and mediation mechanism (3) are including being used for scraping the fixed subassembly that strikes off brush (34) and fixed brush (34) of striking off on brushing fence (23) surface, fixed subassembly is connected and is struck off brush (34) and ground, and strikes off brush (34) and can stretch into water drainage tank (21).

2. The automatic vehicle access cleaning system of claim 1, wherein: fixed subassembly includes support (31), changes roller (32) and a plurality of fan blade (33), support (31) are connected with ground, change roller (32) and support (31) and rotate to be connected, and the rotation axis who changes roller (32) is perpendicular with the length direction of water drainage tank (21), and a plurality of fan blade (33) evenly lay on the global of changeing roller (32), scrape one end fixed connection that roller (32) were kept away from with fan blade (33) to scraping brush (34).

3. The automatic vehicle access cleaning system of claim 2, wherein: the fan blade (33) is V-shaped, and the opening of the fan blade (33) faces the rear direction along the rotating direction of the rotating roller (32).

4. The automatic vehicle access cleaning system of claim 2, wherein: the automatic cleaning system also comprises a collecting box (35), wherein the collecting box (35) is positioned on one side of the rotating roller (32) close to the automatic cleaning device (1), and one end of the collecting box (35) far away from the ground is opened, so that sundries carried by the scraping brush (34) can fall into the collecting box (35).

5. The automatic vehicle access cleaning system of claim 4, wherein: the collecting box (35) comprises a box body and a scraping hook plate (351) used for hooking sundries on the scraping brush (34), the box body is placed above the drainage groove (21), and the scraping hook plate (351) is fixedly connected with the box body.

6. The automatic vehicle access cleaning system of claim 2, wherein: drainage tank (21) are the arc wall, and the centre of a circle is located drainage tank (21) and is close to one side of self-cleaning device (1), strike off the tank bottom of brush (34) and drainage tank (21) and can contradict.

7. The automatic vehicle access cleaning system of claim 1, wherein: the sewage recovery circulating mechanism further comprises a sedimentation tank (4), an inflow port (41) is formed in the side wall of the sedimentation tank (4), a plurality of inclined plates (44) are fixedly arranged in the sedimentation tank (4), the inclined plates (44) are sequentially arranged along the depth direction of the sedimentation tank (4), and the inclined plates (44) incline towards the inflow port (41).

8. The automatic vehicle access cleaning system of claim 7, wherein: the sewage recycling mechanism further comprises a water storage tank (5), an overflow partition plate (45) is arranged at an outflow port (42) of the sedimentation tank (4), and the outflow port (42) is communicated with the water storage tank (5).

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