CN210395212U - Intelligent cleaning vehicle - Google Patents

Abstract

The intelligent cleaning vehicle is designed and manufactured by a spray air system, a large water tank, a dust collection disc, an ash baffle, a dust remover garbage collection box and an automobile. The mist spraying dust collection vehicle collects dust and garbage into a dust collector garbage collection box of a dust collector by utilizing an air flow motion mode according to the principle of aerodynamics. The intelligent cleaning device sprays two different kinds of substances, gas and mist from the spray pipe respectively, collects the garbage scattered on the road surface to the dust collection disc for absorption, and can complete cleaning work without being matched with a roller brush to clean the ground. The cleaning width of the intelligent cleaning vehicle can reach more than 7 meters, which is more than 3 times of that of the existing dust collection sweeper. An intelligent cleaning vehicle is a spray type cleaning vehicle for sidewalks, roadways, streets, squares and highways, and belongs to the technical field of mechanical engineering.

Description

Intelligent cleaning vehicle

Technical Field

The intelligent cleaning vehicle is designed and manufactured by a spray air system, a large water tank, a dust collection disc, an ash baffle, a dust remover garbage collection box and an automobile. The full-disk blower shell and the full-disk blower shell cover of the intelligent cleaning vehicle are formed by casting metal through a die and then machining the metal. The full disk blower shell is provided with a connecting screw hole at the round edge, the inner cavity is a flat-bottomed volute, the center of the volute is provided with a bearing sleeve, a bearing is arranged in the bearing sleeve, the engine base is arranged at the bottom in the middle of the shell, and the air outlet is downward. The full drum machine shell cover round edge has the connection screw, and the interior is flat spiral case, is being installed the bearing by 4 bearing housings that the support supported in the middle of the spiral case, bearing housing, and the space around the support is the air intake, and the air intake outer lane is the joint of an external screw thread, and the frame is the bottom in the middle of the shell cover, and the air outlet is downward. The full-disc motor shell of the impeller and the fan-bending cover are formed by casting metal through a die and then machining. The periphery of the outer shell ring of the full disk motor of the impeller is provided with uniform inclined plane fan blades distributed according to a specified distance, the inner space of the outer shell is provided with a magnetic steel line, the middle of the magnetic steel line is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. The cover surface of the bent fan blade is distributed with the bent fan blades which are protruded in the same position with the inclined plane fan blades around the full disk motor casing ring of the impeller according to the specified distance, the middle area of the cover surface of the bent fan blade is a sunken ring, the center of the sunken ring is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. The depressed circle is the designed centrifugal force area. The bent blades of the bent blade cover surface are matched with the inclined plane blades around the full disk motor shell of the impeller to rotate. The rotor and the stator of the full-disc motor are both arranged in the magnetic steel of the shell of the impeller full-disc motor and are compressed in a hollow mode, all sealing rings are sleeved on the rotor and the stator, electric wires are connected, and the bent blade cover is covered on the shell of the impeller full-disc motor and is screwed up by screws, so that the impeller full-disc motor is formed. The full-disk blower is formed by installing the full-disk impeller motor on a bearing at the center of a volute of a full-disk blower shell, connecting an electric wire, tightly sleeving the bearing of the full-disk blower shell cover in a shaft of the full-disk impeller motor, screwing a connecting screw hole by using a screw, screwing an elbow on an external thread connector of the full-disk blower shell cover, and enabling the opening of the elbow to be upward. The L-shaped spray pipe is formed by cutting the mouths of two single-end stainless steel pipes into 45-degree angles and then combining the edges of welded mouths. The horizontal pipes of the 6L-shaped pipes are respectively provided with a plurality of small holes; the vertical pipes of the 4L-shaped pipes are respectively provided with a plurality of small holes, the small holes on the vertical pipes are respectively covered by silica gel covers, and the upper ends and the lower ends of the silica gel covers of the vertical pipes are tightly sleeved by the silica gel covers to form the L-shaped spray pipes. Cutting 10 groups of round holes with the same size as the air outlet of the full disk blower and the holes of the machine base from the rectangular steel plate according to the specified distance by using a laser cutting machine, and cutting 1 screw hole in the middle of each corner of the rectangular steel plate to form a steel plate platform. And a rectangular stainless steel plate is cut into 10 round holes with the same size as the outer diameter of the L-shaped spray pipe according to the distance between the steel plate table 10 groups of air outlets of the full-disk blower by a laser cutting machine, and then 1 water inlet pipe hole is cut at the left end to form a combined cover. A rectangular close piece which is as large as a close cover is welded by a stainless steel plate, two round holes which are as large as the outer diameter of the L-shaped spray pipe are arranged at the middle position of the bottom side of the back surface of the close piece according to a specified distance, and 4 round holes which are as large as the outer diameter of the L-shaped spray pipe are respectively arranged at the bottom sides of the two ends of the close piece according to the specified distance. The horizontal sections with holes on the horizontal pipes of the 6L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 1, 2, 5, 6, 9 and 10 in the combiner, the horizontal sections without holes on the vertical pipes of the 4L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 3, 4, 7 and 8 in the combiner, and the water level sensor is arranged on the upper position on the left side of the combiner. The circular holes of the cover are respectively arranged on 10L-shaped spray pipes which are sequentially sleeved in the rectangular cover to be covered, the periphery of the opening of the cover and the periphery of the L-shaped spray pipe are welded and sealed by electric welding, and a water inlet pipe is welded on a water inlet pipe hole at the left end of the cover to grow a water tank. Dividing the full-disk blowers into 3 groups according to the required power, wherein the left 4 of the 1 group are respectively 1.2kW, 1kW, 0.8kW and 0.6 kW; the middle two of the 2 groups are both 1.5 kW; the right 4 of the 3 groups were 0.6kW, 0.8kW, 1kW and 1.2kW, respectively. The 10 screws for the full-disk air blower are arranged on 10 groups of air outlets and machine seat holes specified by the steel plate platform, and the screws are screwed by butting the upper openings of 10L-shaped spray pipes on the long water tank with the air outlets of 10 full-disk air blowers below the steel plate platform through outer ferrule type connectors. The power lines of the full-tray blowers and the water level sensors are connected to the controller to form a spraying air system, so that the electric power of each full-tray blower can be increased or reduced according to the height of different road surfaces or other environmental reasons. The small bent pipe nozzle is manufactured by a metal hose through a die and then is provided with an electric ball valve switch. A large water tank is welded by a stainless steel plate, a water inlet is arranged on the left upper surface of the large water tank, a solenoid valve switch is arranged on the front bottom edge of the large water tank, and an internal thread sewage outlet is formed in the side bottom edge of the large water tank. Welding a rectangular steel joint with a downward opening by using a steel plate, pressing rubber plates on two ends and a front opening edge of the rectangular steel joint and between 8 and 10 centimeters from the bottom edge of the rubber plate to exceed the opening edge of the steel joint by using steel bars, drilling screw holes, and screwing the steel bars and the rubber plates on the rectangular steel joint by using screws. A round hole is formed in the middle of the steel cover surface, a section of steel pipe is welded, and then the telescopic pipe is installed on the steel pipe. And respectively welding a chain and a locking ring at the middle position of each of the two ends of the steel cover, respectively welding two pulley supports at the two ends of the steel cover, and adjusting the heights of the pulley edges and the rubber plate edges to meet the requirement of one-to-balance to obtain the dust collection disc. The dust baffle is a plastic clamping plate which is made of plastic through a steel mould and an injection molding machine, the lower opening of the plastic clamping plate is a long notch, small round holes are arranged in the long notch, small nylon wires are implanted into the small round holes, hinge plates are installed on the plastic clamping plate, and a hanging wire hole is drilled in the middle of the plastic clamping plate to form the dust baffle. A dust collector garbage collection box is welded by a steel plate, an upper box body is a clearance air chamber and a clearance air outlet, a pattern plate is arranged below the clearance air chamber, a plurality of filter bags with metal frameworks inside are arranged in the middle of the pattern plate, and an electromagnetic pulse valve is arranged on the pattern plate. The front of the middle box body is a steel door with a sealing ring, and an electric hydraulic telescopic rod is arranged on the steel door. The middle position behind the middle box body is a dust-containing air inlet, and an inclined dust baffle plate is welded in front of the dust-containing air inlet. An inclined sliding plate with a lower front and a higher rear is welded in the lower box body. The car of intelligence cleaning cart is the product of producer's customization. The automobile can be a pure electric automobile, and can also be a gasoline-electric hybrid automobile. A water tank mounting position, a mist spraying system mounting position, a dust collection disc mounting position, a hydraulic cylinder mounting position and a dust collector garbage collection box mounting position are designed on a frame of the automobile, and a control panel touch screen of a wire control system is arranged in a cab. The large water tank is arranged at a water tank mounting position of the frame, the mist spraying system is arranged at a mist spraying system mounting position of the frame, and an electromagnetic valve switch of the large water tank is connected with a hose connector to be screwed on a water inlet pipe of the mist spraying system. The L-shaped spray pipes of the full- disk blowers 1, 2, 3, 4, 7, 8, 9 and 10 in the spraying gas system are all provided with small bent pipe spray heads, and the spray openings are downward. A long spray rod is screwed on the L-shaped spray pipes of the full- disk air blowers 5 and 6 in the middle of the spraying air system respectively and is arranged below the middle of the front frame, and then small bent pipe spray heads are arranged on the two long spray rods, and the spray nozzles are downward. The dust collector garbage collection box is arranged at the garbage collection box mounting position of the frame. The vertical hydraulic oil cylinder is arranged at the hydraulic oil cylinder mounting position of the frame, and the chain of the dust collection disc and the lock ring of the vertical hydraulic oil cylinder are buckled and then arranged at the dust collection disc mounting position of the frame. The inverted hydraulic oil cylinder is arranged on the side of the vehicle beam and is buckled with the lock ring of the dust collection disc, and the telescopic pipe of the dust collection disc is connected with the dust-containing air inlet of the dust collector garbage collection box. The air inlets of 10 full disk blowers of the spraying air system are connected with 10 empty air outlets of a dust collector garbage collection box by steel wire pipes. The carriage is welded. The warning board is arranged on a steel plate in front of the upper box body of the dust collector garbage collection box. The electric hydraulic pump is arranged under the beam behind the frame and connects the hydraulic pipe with the hydraulic oil cylinder. An ash baffle is arranged next to the lower bottom of a crossbeam beside a transmission shaft and directly leads to a middle part of a dust collection disc, and a knot is made by a rope and is connected in series to a wire hanging hole of the ash baffle and then fixed on a steel pipe of the dust collection disc across a long water tank. The power lines of the warning board, the electromagnetic pulse valve, the electric hydraulic pump, the spraying air system and the nozzles and the switches are connected to the controller to be connected with a control panel of the automobile, and the intelligent cleaning vehicle is operated by a touch screen of the control panel through software design. An intelligent cleaning vehicle is a spray type cleaning vehicle for sidewalks, roadways, streets, squares and highways, and belongs to the technical field of mechanical engineering.

Background

The intelligent cleaning vehicle is designed and manufactured according to the aerodynamic principle, and a full-disk air blower with large current amount and strong wind power is firstly designed. The power supply of the storage battery pack of the automobile is used for driving the full-plate air blower, the air outlets of the full-plate air blower with different electric powers respectively enter the spray pipes of the long water tank, the air blown by the air flow is used for collecting dust and garbage scattered on the road surface to the bottom of the automobile, and the dust and the garbage on the bottom of the automobile are absorbed into the garbage bin of the dust remover by the dust collection plate through the whirlwind conveyed by the air flow.

Disclosure of Invention

The intelligent cleaning vehicle is designed and manufactured by a spray air system, a large water tank, a dust collection disc, an ash baffle, a dust remover garbage collection box and an automobile.

The full-disk blower shell and the full-disk blower shell cover of the intelligent cleaning vehicle are formed by casting metal through a die and then machining the metal. The full disk blower shell is provided with a connecting screw hole at the round edge, the inner cavity is a flat-bottomed volute, the center of the volute is provided with a bearing sleeve, a bearing is arranged in the bearing sleeve, the engine base is arranged at the bottom in the middle of the shell, and the air outlet is downward. The full drum machine shell cover round edge has the connection screw, and the interior is flat spiral case, is being installed the bearing by 4 bearing housings that the support supported in the middle of the spiral case, bearing housing, and the space around the support is the air intake, and the air intake outer lane is the joint of an external screw thread, and the frame is the bottom in the middle of the shell cover, and the air outlet is downward. The full-disc motor shell of the impeller and the fan-bending cover are formed by casting metal through a die and then machining. The periphery of the outer shell ring of the full disk motor of the impeller is provided with uniform inclined plane fan blades distributed according to a specified distance, the inner space of the outer shell is provided with a magnetic steel line, the middle of the magnetic steel line is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. The cover surface of the bent fan blade is distributed with the bent fan blades which are protruded in the same position with the inclined plane fan blades around the full disk motor casing ring of the impeller according to the specified distance, the middle area of the cover surface of the bent fan blade is a sunken ring, the center of the sunken ring is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. The depressed circle is the designed centrifugal force area. The bent blades of the bent blade cover surface are matched with the inclined plane blades around the full disk motor shell of the impeller to rotate. The rotor and the stator of the full-disc motor are both arranged in the magnetic steel of the shell of the impeller full-disc motor and are compressed in a hollow mode, all sealing rings are sleeved on the rotor and the stator, electric wires are connected, and the bent blade cover is covered on the shell of the impeller full-disc motor and is screwed up by screws, so that the impeller full-disc motor is formed. The full-disk blower is formed by installing the full-disk impeller motor on a bearing at the center of a volute of a full-disk blower shell, connecting an electric wire, tightly sleeving the bearing of the full-disk blower shell cover in a shaft of the full-disk impeller motor, screwing a connecting screw hole by using a screw, screwing an elbow on an external thread connector of the full-disk blower shell cover, and enabling the opening of the elbow to be upward. The full-disc motor of the impeller, which is composed of the full-disc motor shell of the impeller, the bent blade cover, the rotor and the stator, is used for the purpose of considering the thickness and the force of the full-disc motor of the impeller. In the manufacturing of the mold of the fan blade cover, the concave circle in the middle area of the cover surface of the fan blade cover is larger and deeper, and the fan blade with the same-position bulge is higher and is tightly combined with the inclined plane fan blade around the shell. The full-disk impeller motor is arranged between the full-disk blower shell and the full-disk blower shell cover, and the purposes of quick heat dissipation of the full-disk impeller motor and high suction and discharge capacity of the full-disk impeller motor are achieved. The suction and discharge capacity of the existing common blower and the high-pressure blower is not good. The L-shaped spray pipe is formed by cutting the mouths of two single-end stainless steel pipes into 45-degree angles and then combining the edges of welded mouths. The horizontal pipes of the 6L-shaped pipes are respectively provided with a plurality of small holes; the vertical pipes of the 4L-shaped pipes are respectively provided with a plurality of small holes, the small holes on the vertical pipes are respectively covered by silica gel covers, and the upper ends and the lower ends of the silica gel covers of the vertical pipes are tightly sleeved by the silica gel covers to form the L-shaped spray pipes. Cutting 10 groups of round holes with the same size as the air outlet of the full disk blower and the holes of the machine base from the rectangular steel plate according to the specified distance by using a laser cutting machine, and cutting 1 screw hole in the middle of each corner of the rectangular steel plate to form a steel plate platform. And a rectangular stainless steel plate is cut into 10 round holes with the same size as the outer diameter of the L-shaped spray pipe according to the distance between the 10 groups of the steel plate platforms and the air outlet of the full disk blower by a laser cutting machine, and then 1 water inlet pipe hole is cut at the left end to form a combined cover. A rectangular close piece which is as large as a close cover is welded by a stainless steel plate, two round holes which are as large as the outer diameter of the L-shaped spray pipe are arranged at the middle position of the bottom side of the back surface of the close piece according to a specified distance, and 4 round holes which are as large as the outer diameter of the L-shaped spray pipe are respectively arranged at the bottom sides of the two ends of the close piece according to the specified distance. The horizontal sections with holes on the horizontal pipes of the 6L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 1, 2, 5, 6, 9 and 10 in the combiner, the horizontal sections without holes on the vertical pipes of the 4L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 3, 4, 7 and 8 in the combiner, and the water level sensor is arranged on the upper position on the left side of the combiner. The circular holes of the cover are respectively arranged on 10L-shaped spray pipes which are sequentially sleeved in the rectangular cover to be covered, the periphery of the opening of the cover and the periphery of the L-shaped spray pipe are welded and sealed by electric welding, and a water inlet pipe is welded on a water inlet pipe hole at the left end of the cover to grow a water tank. Dividing the full-disk blowers into 3 groups according to the required power, wherein the left 4 of the 1 group are respectively 1.2kW, 1kW, 0.8kW and 0.6 kW; the middle two of the 2 groups are both 1.5 kW; the right 4 of 3 groups are 0.6kW, 0.8kW, 1kW and 1.2kW respectively, install 10 full dish air-blower screws on 10 groups air outlet and frame hole that steel sheet platform stipulated, dock the screw with the air outlet of 10 full dish air-blowers below the steel sheet platform to the last mouth of 10L type spray tubes on the long water tank and with outer cutting ferrule formula joint. And power wires of the full-tray blower and the water level sensor are connected to the controller to form a spraying air system. The combined design of the L-shaped spray pipe and the long water tank is one of the core technologies of the intelligent cleaning vehicle. The small bent pipe nozzle is manufactured by a metal hose through a die and then is provided with an electric ball valve switch, so that the metal hose can adjust the height and the angle of the small bent pipe nozzle. The air ejected by the small bent pipe nozzle is in a blowing motion mode. A large water tank is welded by a stainless steel plate, a water inlet is arranged on the left upper surface of the large water tank, a solenoid valve switch is arranged on the front bottom edge of the large water tank, and an internal threaded sewage outlet is formed in the side bottom edge. Welding a rectangular steel joint with a downward opening by using a steel plate, pressing rubber plates on two ends and a front opening edge of the rectangular steel joint and between 8 and 10 centimeters from the bottom edge of the rubber plate to exceed the opening edge of the steel joint by using steel bars, drilling screw holes, and screwing the steel bars and the rubber plates on the rectangular steel joint by using screws. A round hole is formed in the middle of the steel cover surface, a section of steel pipe is welded, and then the telescopic pipe is installed on the steel pipe. A chain and a locking ring are respectively welded at the middle position of two ends of the steel cover, two pulleys are respectively welded at the two ends of the steel cover for supporting, and the heights of the pulley edges and the rubber plate edges are adjusted to meet the requirement of one to balance to form the dust collection disc, and the vacuum negative pressure for absorbing the garbage through the dust collection disc is a cyclone motion mode. The dust baffle is a plastic clamping plate which is made of plastic through a steel mould and an injection molding machine, the lower opening of the plastic clamping plate is a long notch, small round holes are arranged in the long notch, small nylon wires are implanted into the small round holes, hinge plates are installed on the plastic clamping plate, and a hanging wire hole is drilled in the middle of the plastic clamping plate to form the dust baffle. A dust collector garbage collection box is welded by a steel plate, an upper box body is a clearance air chamber and a clearance air outlet, a pattern plate is arranged below the clearance air chamber, a plurality of filter bags with metal frameworks inside are arranged in the middle of the pattern plate, and an electromagnetic pulse valve is arranged on the pattern plate. The front of the middle box body is a steel door with a sealing ring, and an electric hydraulic telescopic rod is arranged on the steel door. The middle position behind the middle box body is a dust-containing air inlet, and an inclined dust baffle plate is welded in front of the dust-containing air inlet. An inclined sliding plate with a lower front and a higher rear is welded in the lower box body. The car of intelligence cleaning cart is the product of producer's customization. The automobile can be a pure electric automobile, and can also be a gasoline-electric hybrid automobile. A water tank mounting position, a mist spraying system mounting position, a dust collection disc mounting position, a hydraulic cylinder mounting position and a dust collector garbage collection box mounting position are designed on a frame of the automobile, and a control panel touch screen of a wire control system is arranged in a cab. The large water tank is arranged at a water tank mounting position of the frame, the mist spraying system is arranged at a mist spraying system mounting position of the frame, and an electromagnetic valve switch of the large water tank is connected with a hose connector to be screwed on a water inlet pipe of the mist spraying system. The L-shaped spray pipes of the full- disk air blowers 1, 2, 3, 4, 7, 8, 9 and 10 in the spraying air system are all provided with small bent pipe spray heads, the spray ports are downward, and the angle and the height of the spray ports of the small bent pipes are adjusted. A long spray rod is screwed on the L-shaped spray pipes of the full- disk air blowers 5 and 6 in the middle of the spraying air system respectively and is arranged below the middle of the front frame, and then small bent pipe spray heads are arranged on the two long spray rods, and the spray nozzles are downward. The dust collector garbage collection box is arranged at the garbage collection box mounting position of the frame. The vertical hydraulic oil cylinder is arranged at the hydraulic oil cylinder mounting position of the frame, and the chain of the dust collection disc and the lock ring of the vertical hydraulic oil cylinder are buckled and then arranged at the dust collection disc mounting position of the frame. The inverted hydraulic oil cylinder is arranged on the side of the vehicle beam and is buckled with the lock ring of the dust collection disc, and the telescopic pipe of the dust collection disc is connected with the dust-containing air inlet of the dust collector garbage collection box. The air inlets of 10 full disk blowers of the spraying air system are connected with 10 empty air outlets of a dust collector garbage collection box by steel wire pipes. The carriage is welded. The warning board is arranged on a steel plate in front of the upper box body of the dust collector garbage collection box. The electric hydraulic pump is arranged under the beam behind the frame and connects the hydraulic pipe with the hydraulic oil cylinder. An ash baffle is arranged next to the lower bottom of a crossbeam beside a transmission shaft and directly leads to a middle part of a dust collection disc, and a knot is made by a rope and is connected in series with a wire hanging hole of the ash baffle and then fixed on a steel pipe of the dust collection disc after crossing a long water tank. The power lines of the warning board, the electromagnetic pulse valve, the electric hydraulic pump, the spraying air system and the nozzles and the switches are connected to the controller to be connected with a control panel of the automobile, and the intelligent cleaning vehicle is operated by a touch screen of the control panel through software design.

The intelligent cleaning vehicle is fully charged, and the large water tank is filled with water. The intelligent cleaning vehicle is driven to a road, the control panel is clicked to enable the water level sensor to automatically open the electromagnetic valve switch of the large water tank, and the water level sensor is automatically closed after the water is discharged to the water level of the long water tank. Starting the electric hydraulic pump, and descending the vertical hydraulic oil cylinder and the inverted hydraulic oil cylinder to enable the dust collection disc and the dust baffle plate to reach the designated positions. Clicking an operation control panel to start 10 full-disk blowers in the mist spraying system, opening small elbow nozzle switches of the full- disk blowers 1, 2, 3, 4, 7, 8, 9 and 10, not opening the small elbow nozzle switches of the middle full- disk blowers 5 and 6, rotating inclined plane blades of the full- disk blowers 5 and 6 at a high speed to generate oppressive wind power to spray gas to a plurality of small holes on a horizontal pipe of an L-shaped nozzle pipe to generate air pressure in a long water tank, so that a plurality of small holes covered by silica gel skins on vertical pipes of 4L-shaped nozzles of 3, 4, 7 and 8 in the long water tank can be blocked, and therefore, 4L-shaped nozzles of 3, 4, 7 and 8 in the long water tank spray gas; the 4L-shaped spray pipes of 1, 2, 9 and 10 in the long water tank are provided with a plurality of small holes to start to spray water into the spray pipes, and mist is sprayed out of the 4L-shaped spray pipes of 1, 2, 9 and 10 in the long water tank. The full plate blowers 5 and 6 constitute pressurized full plate blowers in the long water tank. The centrifugal force generated by the high-speed rotation of the inclined plane fan blades and the bent fan blades of 10 full-disk blowers strongly absorbs air in a centrifugal force area and strongly absorbs garbage from a garbage inlet of a dust collection disk to a garbage collection box of a dust collector; the inclined plane fan blades and the bent fan blades of 10 full-plate blowers rotate at a high speed to generate oppressive wind power to be sprayed to the L-shaped spray pipes from the air outlet, the full-plate blowers 10 are 1.2kW in power, the L-shaped spray pipes spray strong fog to scatter the garbage far away from the highway to the front of the vehicle, the full-plate blowers 9 are 1kW in power, the L-shaped spray pipes spray medium-strength fog to spray the garbage sprayed by the strong fog to the sides of the vehicle to be close to the vehicle, the full-plate blowers 8 are 0.8kW in power, the L-shaped spray pipes spray secondary strong air to spray the garbage sprayed by the medium-strength fog to the sides of the vehicle to be close to the vehicle, and the full-plate blowers 7 are 0.6kW in power, the L-shaped spray pipes spray weak air to spray the garbage sprayed by. The full-plate blower 1 is 1.2kW in power, the L-shaped spray pipe sprays strong mist, the garbage at the side of a highway tooth is sprayed to the front side of a vehicle to be scattered, the full-plate blower 2 is 1kW in power, the L-shaped spray pipe sprays medium-strong mist, the garbage sprayed by the strong mist to the front side of the vehicle is sprayed to the side of the vehicle to be close, the full-plate blower 3 is 0.8kW in power, the L-shaped spray pipe sprays secondary strong gas, the garbage sprayed by the medium-strong mist is sprayed to the side of the vehicle to be close, the full-plate blower 4 is 0.6kW in power, the L-shaped spray pipe weak gas sprays the secondary strong gas to the bottom of the vehicle, the electric power of each full-plate blower can be increased or reduced according to the reasons of different road surfaces or other environments, and the aim of spraying the garbage at far distance to the bottom of the vehicle is fulfilled. The dust collection plate generates strong vacuum negative pressure at the edge of the opening of the dust collection plate, garbage at the bottom of the vehicle is absorbed to a dust-containing air inlet of a dust collector, the thick garbage is blocked by an inclined dust blocking plate and falls into a garbage can, meanwhile, the air flow speed is slowed down, the air flow is folded and upwards passes through a filter bag with a metal framework arranged inside, dust is trapped on the surface of the filter bag, an electromagnetic pulse wave is generated by a pulse valve to enable the dust on the surface of the filter bag to fall, and clean air generated by filtering the filter bag is supplied to 10 air inlets of full-disk blowers for clean air absorption. When the intelligent cleaning vehicle runs, the dust collection disc and the dust baffle plate are lifted by a vertical hydraulic oil cylinder and an inverted hydraulic oil cylinder of the electric hydraulic pump. The warning lamp is used for warning the automobile from collision. The existing dust-absorbing sweeper also adopts the principle of aerodynamics and utilizes the cyclone motion mode of airflow to absorb dust and garbage into a garbage collecting box of a dust remover. The intelligent cleaning vehicle absorbs dust and garbage into the garbage collection box of the dust remover by utilizing the cyclone motion mode of the air flow, and collects the dust and the garbage into the dust collection box of the dust remover by utilizing the blowing motion mode of the air flow. The full-disc air blower air inlet of the intelligent cleaning vehicle can absorb garbage to the dust collector garbage collection box through the dust collection disc, and the full-disc air blower air outlet respectively sprays two different types of substances, gas and fog from the L-shaped spray pipe, so that the garbage scattered on the road surface is collected and absorbed by the dust collection disc, and the cleaning work can be finished without being matched with a roller brush to clean the ground. The cleaning width of the intelligent cleaning vehicle can reach more than 7 meters, which is more than 3 times of that of the existing dust collection sweeper.

Drawings

FIG. 1 is a schematic view of a full tray blower housing: 1. a connecting screw hole; 2. round edges; 3. a flat-bottomed volute; 4. a bearing housing; 5. a bearing; 6. a machine base 1; 7. a screw hole; 8. the air outlet bottom.

FIG. 2 is a schematic view of a full tray blower housing cover: 1. a housing cover; 2. a support; 3. an air inlet; 4. a bearing housing; 5. a bearing; 6. an externally threaded nipple; 7. a machine base 2; 8. and an air outlet cover.

Fig. 3 is a schematic view of a full-scale motor casing of an impeller: 1. around the motor housing ring; 2. an inclined plane fan blade; 3. a magnetic line; 4. a bearing housing; 5. and a bearing.

Fig. 4 is a schematic view of a fan-bending cover: 1. a motor cover; 2. the bent fan blades are protruded in the same position with the inclined fan blades around the motor shell ring; 3. a recessed circle; 4. a bearing housing; 5. and a bearing.

Fig. 5 is a schematic diagram of a full-scale motor for an impeller: 1. the impeller is fully wound around the motor shell ring; 2. an inclined plane fan blade; 3. the fan blades are protruded in a same position; 4. a recessed circle; 5. A motor shaft.

Fig. 6 is a schematic diagram of a full tray blower configuration: 1. a full disk blower housing; 2. a flat-bottomed volute; 3. a full-disc motor of the impeller; 4. an inclined plane fan blade; 5. bending the fan blade; 6. a centrifugal force region; 7. a motor shaft; 8. and (7) air outlet.

FIG. 7 is a full tray blower schematic: 1. an air inlet; 2. bending the pipe; 3. a power line; 4. a body; 5. a machine base; 6. and (7) air outlet.

FIG. 8 is a schematic view of an L-shaped lance: 1. a vertical tube; 2. a horizontal tube; 3. a horizontal pipe section; 4. the horizontal pipe is provided with a plurality of small holes; 5. a silica gel ring; 6. the vertical pipe is provided with a plurality of small holes; 7. silica gel skin; 8. a non-porous horizontal section.

FIG. 9 is a schematic diagram of a mist system: 1. a steel plate table; 2. a screw hole; 3. a full disk blower 1, 1.2 kW; 4. an air outlet; 5. an air inlet; 6. 2kW and 1kW of full-plate blowers; 7. a full disk blower 3, 0.8 kW; 8. 4, 0.6kW of full-plate blower; 9. 5, 1.5kW of full-plate blower; 10. 6kW and 1.5kW of full-plate blowers; 11. a full disk blower 7, 0.6 kW; 12. 8, 0.8kW of full-plate blower; 13. a full- plate blower 9 and 1 kW; 14. 10, 1.2kW of full-plate blower; 15. a controller; 16. an outer ferrule type fitting; 17. a long water tank; 18. an L-shaped nozzle of the full tray blower 10; 19. an L-shaped nozzle of the full tray blower 9; 20. an L-shaped nozzle of the full-disk blower 8; 21. an L-shaped nozzle of the full-disk blower 7; 22. a plurality of small holes are arranged on the horizontal pipe of the L-shaped spray pipe in the long water tank; 23. a plurality of small holes are arranged on the vertical pipe of the L-shaped spray pipe in the long water tank; 24. an L-shaped spray pipe of the full-disk blower 6; 25. An L-shaped spray pipe of the full-disk blower 5; 26. an L-shaped spray pipe of the full-disk blower 4; 27. an L-shaped spray pipe of the full-plate blower 3; 28. an L-shaped spray pipe of the full disk blower 2; 29. an L-shaped spray pipe of the full-disk blower 1; 30. a water level sensor; 31. and a water level sensor control module.

FIG. 10 is a schematic view of a small elbow showerhead: 1. an electric ball valve switch; 2. A metal hose; 3. a small bent pipe; 4. a flat nozzle spray head.

FIG. 11 is a schematic view of a large water tank: 1. a water tank; 2. a solenoid valve switch; 3. a sewage draining outlet.

Fig. 12 is a schematic view of a dust suction plate: 1. a rubber wheel; 2. a wheel carrier; 3. steel combination; 4. a chain; 5. a telescopic pipe; 6. a locking ring; 7. a steel bar; 8. a rubber plate; 9. and a garbage inlet.

FIG. 13 is a schematic view of a dust shield: 1. a plastic splint; 2. a hinge plate; 3. a notch; 4. a small circular hole; 5. small-handle nylon wires; 6. a hanging wire hole.

FIG. 14 is a schematic view of a dust catcher garbage collection bin: 1. an upper box body; 2. a clearance air chamber; 3. a clean air outlet; 4. a pattern plate; 5. a filter bag; 6. a pulse valve; 7. a door electric hydraulic telescopic rod; 8. a middle box body; 9. a sealing door; 10. inclining the dust guard plate; 11. a dusty air inlet; 12. a garbage collection box; 13. an inclined slide plate; 14. and (5) a lower box body.

FIG. 15 is a schematic view of an automobile: 1. a frame; 2. manual control; 3. a gear position; 4. a steering wheel; 5. a braking system; 6. the control panel touches the mould screen; 7. a digital instrument; 8. a front frame; 9. an inverter; 10. a front suspension; 11. a steering wheel; 12. a transmission control system; 13. a battery management module; 14. a charging interface; 15. a controller; 16. a battery box; 17. a lithium battery pack; 18. a drive shaft; 19. a water tank mounting position; 20. a mist spraying system mounting position; 21. a drive axle; 22. driving the wheels; 23. a dust collection disc mounting position; 24. a hydraulic oil cylinder mounting position; 25. garbage collection box installation position.

Fig. 16 is a schematic view of the intelligent cleaning vehicle: 1. an automobile; 2. A full disk blower 4 small elbow nozzle; 3. a full disk blower 3 small elbow nozzle; 4. the full disk blower 2 is a small elbow nozzle; 5. a full disk blower 1 small elbow nozzle; 6. a carriage; 7. a large water tank; 8. a solenoid valve switch; 9. a water level sensor; 10. a mist gas system; 11. the air inlet of the full disk blower is connected with 10 net air outlets by a steel wire pipe; 12. a door electric hydraulic telescopic rod; 13. a pattern plate; 14. an electromagnetic pulse valve; 15. a filter bag; 16. a warning board; 17. a clearance air chamber; 18. a sealing door; 19. inclining the dust guard plate; 20. the telescopic pipe of the dust collection disc is connected with the dust-containing air inlet; 21. a garbage collection box; 22. an electrically-driven hydraulic pump; 23. a vertical hydraulic cylinder; 24. inverting the hydraulic oil cylinder; 25. a dust collection tray; 26. a full disk blower 10 small elbow nozzle; 27. a full disk blower 9 small elbow nozzle; 28. a full disk blower 8 small elbow nozzle; 29. a full disk blower 7 small elbow nozzle; 30. a middle dust guard; 31. a lithium battery pack; 32. the controller is connected with the control panel; 33. a full disk blower 5 small elbow nozzle; 34. a full disk blower 6 small elbow nozzle.

FIG. 17 is a schematic diagram of the operation of the intelligent cleaning vehicle: 1. a sidewalk; 2. road curb; 3. a highway; 4. An intelligent cleaning vehicle; 5. the large water tank is full of water; 6. clicking the control panel to enable the water level sensor to automatically open a solenoid valve switch of the large water tank and automatically close the water tank after water is discharged to a water level line of the long water tank; 7. starting 10 full-disk blowers in the mist spraying system, and opening small elbow nozzle switches of the full- disk blowers 1, 2, 3, 4, 7, 8, 9 and 10; 8. the full-plate blower 10 has the power of 1.2kW, and the L-shaped spray pipes spray strong fog to spray the garbage at the far distance of the road to the front side of the vehicle for scattering; 9. the full-plate blower 9 has the power of 1kW, and the L-shaped spray pipes spray medium-strong fog to spray garbage sprayed by the strong fog to the edge of the vehicle to be close to the edge of the vehicle; 10. the full-plate blower 8 has the power of 0.8kW, the L-shaped spray pipe sprays secondary strong gas, and the garbage sprayed by the medium-strong mist is sprayed to the edge of the vehicle to be close to the vehicle; 11. the full-tray blower 7 has the power of 0.6kW, the L-shaped spray pipes spray weak gas, and garbage sprayed by the secondary strong gas is sprayed to the bottom of the vehicle; 12. the full-plate blower 1 has the power of 1.2kW, and the L-shaped spray pipes spray strong mist to spray garbage on the sides of the road teeth to the front side for scattering; 13. the full-plate blower 2 has the power of 1kW, the L-shaped spray pipes spray medium-strong fog, and the garbage sprayed by the strong fog is sprayed to the edge of the vehicle to be close to the edge of the vehicle; 14. the full-plate blower 3 has the power of 0.8kW, the L-shaped spray pipe sprays secondary strong gas, and the garbage sprayed by the medium-strong mist is sprayed to the edge of the vehicle to be close to the vehicle; 15. the full-tray blower 4 has the power of 0.6kW, the L-shaped spray pipes spray weak gas, and garbage sprayed by the secondary strong gas is sprayed to the bottom of the vehicle; 16. strong vacuum negative pressure is generated at the edge of the opening of the dust collection tray, and garbage at the bottom of the vehicle is absorbed into a garbage collection box of the dust collector; 17. the dust baffle plate blocks the garbage; 18. garbage; 19. the pulse valve generates electromagnetic pulse waves to drop dust on the surface of the filter bag; 20. the steel wire pipes of 10 full-disk blowers supply clean air to the air inlet of the full-disk blower; 21. a clean road.

Fig. 18 is a schematic view of an intelligent cleaning vehicle cleaning sidewalk: 1. a guardrail; 2. a sidewalk; 3. big trees; 4. a highway; 5. opening small bent pipe spray head switches in the middle 5 and 6 of the middle full disk blower; 6. 7-level wind power mist is sprayed out, and the garbage on the sidewalk, below the guardrail and under the big tree is directly sprayed away; 7. a clean sidewalk.

Detailed Description

The full-disk blower shell and the full-disk blower shell cover of the intelligent cleaning vehicle are formed by casting metal through a die and then machining the metal. The full disk blower shell is provided with a connecting screw hole at the round edge, the inner cavity is a flat-bottomed volute, the center of the volute is provided with a bearing sleeve, a bearing is arranged in the bearing sleeve, the engine base is arranged at the bottom in the middle of the shell, and the air outlet is downward. E.g. figure 1

The full drum machine shell cover round edge has the connection screw, and the interior is flat spiral case, is being installed the bearing by 4 bearing housings that the support supported in the middle of the spiral case, bearing housing, and the space around the support is the air intake, and the air intake outer lane is the joint of an external screw thread, and the frame is the bottom in the middle of the shell cover, and the air outlet is downward. E.g. FIG. 2

The full-disc motor shell of the impeller and the fan-bending cover are formed by casting metal through a die and then machining. The periphery of the outer shell ring of the full disk motor of the impeller is provided with uniform inclined plane fan blades distributed according to a specified distance, the inner space of the outer shell is provided with a magnetic steel line, the middle of the magnetic steel line is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. E.g. fig. 3

The cover surface of the bent fan blade is distributed with the bent fan blades which are protruded in the same position with the inclined plane fan blades around the full disk motor casing ring of the impeller according to the specified distance, the middle area of the cover surface of the bent fan blade is a sunken ring, the center of the sunken ring is provided with a bearing sleeve, and a bearing is arranged in the bearing sleeve. The depressed circle is the designed centrifugal force area. The bent blade of the bent blade cover surface is matched with the inclined blade around the outer shell ring of the disc motor of the impeller to rotate. E.g. (FIG. 4)

The rotor and the stator of the full-disc motor are both arranged in the magnetic steel of the shell of the impeller full-disc motor and are compressed in a hollow mode, all sealing rings are sleeved on the rotor and the stator, electric wires are connected, and the bent blade cover is covered on the shell of the impeller full-disc motor and is screwed up by screws, so that the impeller full-disc motor is formed. E.g. (FIG. 5)

The full-disk blower is formed by installing the full-disk impeller motor on a bearing at the center of a volute of a full-disk blower shell, connecting an electric wire, tightly sleeving the bearing of the full-disk blower shell cover in a shaft of the full-disk impeller motor, screwing a connecting screw hole by using a screw, screwing an elbow on an external thread connector of the full-disk blower shell cover, and enabling the opening of the elbow to be upward. E.g. (FIGS. 6-7)

The L-shaped spray pipe is formed by cutting the mouths of two single-end stainless steel pipes into 45-degree angles and then combining the edges of welded mouths. The horizontal pipes of the 6L-shaped pipes are respectively provided with a plurality of small holes; the vertical pipes of the 4L-shaped pipes are respectively provided with a plurality of small holes, the small holes on the vertical pipes are respectively covered by silica gel covers, and the upper ends and the lower ends of the silica gel covers of the vertical pipes are tightly sleeved by the silica gel covers to form the L-shaped spray pipes. E.g. (FIG. 8)

Cutting 10 groups of round holes with the same size as the air outlet of the full disk blower and the holes of the machine base from the rectangular steel plate according to the specified distance by using a laser cutting machine, and cutting 1 screw hole in the middle of each corner of the rectangular steel plate to form a steel plate platform. And a rectangular stainless steel plate is cut into 10 round holes with the same size as the outer diameter of the L-shaped spray pipe according to the distance between the 10 groups of the steel plate platforms and the air outlet of the full disk blower by a laser cutting machine, and then 1 water inlet pipe hole is cut at the left end to form a combined cover. A rectangular close piece which is as large as a close cover is welded by a stainless steel plate, two round holes which are as large as the outer diameter of the L-shaped spray pipe are arranged at the middle position of the bottom side of the back surface of the close piece according to a specified distance, and 4 round holes which are as large as the outer diameter of the L-shaped spray pipe are respectively arranged at the bottom sides of the two ends of the close piece according to the specified distance. The horizontal sections with holes on the horizontal pipes of the 6L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 1, 2, 5, 6, 9 and 10 in the combiner, the horizontal sections without holes on the vertical pipes of the 4L-shaped spray pipes are respectively inserted into the outer surface of the combiner from the holes of 3, 4, 7 and 8 in the combiner, and the water level sensor is arranged on the upper position on the left side of the combiner. The circular holes of the cover are respectively arranged and sequentially sleeved into the rectangular box, 10L-shaped spray pipes are covered, the periphery of the opening of the box and the periphery of the L-shaped spray pipes are welded and sealed by electric welding, and a water inlet pipe is welded on a water inlet pipe hole at the left end of the cover to form a long water tank. Dividing the full-disk blowers into 3 groups according to the required power, wherein the left 4 of the 1 group are respectively 1.2kW, 1kW, 0.8kW and 0.6 kW; the middle two of the 2 groups are both 1.5 kW; the right 4 of 3 groups are 0.6kW, 0.8kW, 1kW and 1.2kW respectively, install 10 full dish air-blower screws on 10 groups air outlet and frame hole that steel sheet platform stipulated, dock the screw with the air outlet of 10 full dish air-blowers below the steel sheet platform to the last mouth of 10L type spray tubes on the long water tank and with outer cutting ferrule formula joint. The power lines of the full-tray blowers and the water level sensors are connected to the controller to form a spraying air system, so that the electric power of each full-tray blower can be increased or reduced according to the height of different road surfaces or other environmental reasons. E.g. (FIG. 9)

The small bent pipe nozzle is manufactured by a metal hose through a die and then is provided with an electric ball valve switch, so that the metal hose can adjust the height and the angle of the bent pipe nozzle. The air ejected by the small bent pipe nozzle is in a blowing motion mode. E.g. (figure 10)

A large water tank is welded by a stainless steel plate, a water inlet is arranged on the left side of the large water tank, a solenoid valve switch is arranged on the bottom edge of the front of the large water tank, and an internal threaded sewage outlet is formed in the bottom edge of the side surface of the large water tank. E.g. (FIG. 11)

Welding a rectangular steel joint with a downward opening by using a steel plate, pressing rubber plates on two ends and a front opening edge of the rectangular steel joint and between 8 and 10 centimeters from the bottom edge of the rubber plate to exceed the opening edge of the steel joint by using steel bars, drilling screw holes, and screwing the steel bars and the rubber plates on the rectangular steel joint by using screws. A round hole is formed in the middle of the steel cover surface, a section of steel pipe is welded, and then the telescopic pipe is installed on the steel pipe. And respectively welding a chain and a locking ring at the middle position of each of the two ends of the steel cover, respectively welding two pulley supports at the two ends of the steel cover, and adjusting the heights of the pulley edges and the rubber plate edges to meet the requirement of one-to-balance to obtain the dust collection disc. E.g. (FIG. 12)

The dust baffle is a plastic clamping plate which is made of plastic through a steel mould and an injection molding machine, the lower opening of the plastic clamping plate is a long notch, small round holes are arranged in the long notch, small nylon wires are implanted into the small round holes, hinge plates are installed on the plastic clamping plate, and a hanging wire hole is drilled in the middle of the plastic clamping plate to form the dust baffle. E.g. (FIG. 13)

A dust collector garbage collection box is welded by a steel plate, an upper box body is a clearance air chamber and a clearance air outlet, a pattern plate is arranged below the clearance air chamber, a plurality of filter bags with metal frameworks inside are arranged in the middle of the pattern plate, and an electromagnetic pulse valve is arranged on the pattern plate. The front of the middle box body is a steel door with a sealing ring, and an electric hydraulic telescopic rod is arranged on the steel door. The middle position behind the middle box body is a dust-containing air inlet, and an inclined dust baffle plate is welded in front of the dust-containing air inlet. An inclined sliding plate with a lower front and a higher rear is welded in the lower box body. E.g. (FIG. 14)

The car of intelligence cleaning cart is the product of producer's customization. The automobile can be a pure electric automobile, and can also be a gasoline-electric hybrid automobile. A water tank mounting position, a mist spraying system mounting position, a dust collection disc mounting position, a hydraulic cylinder mounting position and a dust collector garbage collection box mounting position are designed on a frame of the automobile, and a control panel touch screen of a wire control system is arranged in a cab. E.g. (FIG. 15)

The large water tank is arranged at a water tank mounting position of the frame, the mist spraying system is arranged at a mist spraying system mounting position of the frame, and an electromagnetic valve switch of the large water tank is connected with a hose connector to be screwed on a water inlet pipe of the mist spraying system. The L-shaped spray pipes of the full- disk air blowers 1, 2, 3, 4, 7, 8, 9 and 10 in the spraying air system are all provided with small bent pipe spray heads, the spray ports are downward, and the angle and the height of the spray ports of the small bent pipes are adjusted. A long spray rod is screwed on the L-shaped spray pipes of the full- disk air blowers 5 and 6 in the middle of the spraying air system respectively and is arranged below the middle of the front frame, and then small bent pipe spray heads are arranged on the two long spray rods, and the spray nozzles are downward. The dust collector garbage collection box is arranged at the garbage collection box mounting position of the frame. The vertical hydraulic oil cylinder is arranged at the hydraulic oil cylinder mounting position of the frame, and the chain of the dust collection disc and the lock ring of the vertical hydraulic oil cylinder are buckled and then arranged at the dust collection disc mounting position of the frame. The inverted hydraulic oil cylinder is arranged on the side of the vehicle beam and is buckled with the lock ring of the dust collection disc, and the telescopic pipe of the dust collection disc is connected with the dust-containing air inlet of the dust collector garbage collection box. The air inlets of 10 full disk blowers of the spraying air system are connected with 10 empty air outlets of a dust collector garbage collection box by steel wire pipes. The carriage is welded. The warning board is arranged on a steel plate in front of the upper box body of the dust collector garbage collection box. The electric hydraulic pump is arranged under the beam behind the frame and connects the hydraulic pipe with the hydraulic oil cylinder. An ash baffle is arranged next to the lower bottom of a crossbeam beside a transmission shaft and directly leads to a middle part of a dust collection disc, and a knot is made by a rope and is connected in series to a wire hanging hole of the ash baffle and then fixed on a steel pipe of the dust collection disc across a long water tank. The power lines of the warning board, the electromagnetic pulse valve, the electric hydraulic pump, the spraying air system and the nozzles and the switches are connected to the controller to be connected with a control panel of the automobile, and the intelligent cleaning vehicle is operated by a touch screen of the control panel through software design. E.g. (FIG. 16)

The intelligent cleaning vehicle is fully charged, and the large water tank is filled with water. The intelligent cleaning vehicle is driven to a road, the control panel is clicked to enable the water level sensor to automatically open the electromagnetic valve switch of the large water tank, and the water level sensor is automatically closed after the water is discharged to the water level of the long water tank. Starting the electric hydraulic pump, and descending the vertical hydraulic oil cylinder and the inverted hydraulic oil cylinder to enable the dust collection disc and the dust baffle plate to reach the designated positions. Clicking an operation control panel to start 10 full-disk blowers in the mist spraying system, opening small elbow nozzle switches of the full- disk blowers 1, 2, 3, 4, 7, 8, 9 and 10, not opening small elbow nozzle switches of middle full- disk blowers 5 and 6, rotating inclined plane blades of the full- disk blowers 5 and 6 at a high speed to generate oppressive wind power, spraying gas to a plurality of small holes on a horizontal pipe of an L-shaped nozzle pipe, generating air pressure in a long water tank, and blocking a plurality of small holes covered by silica gel skins on vertical pipes of 4L-shaped nozzles of 3, 4, 7 and 8 in the long water tank, so that the gas is sprayed from 4L-shaped nozzles of 3, 4, 7 and 8 in the long water tank; the 4L-shaped spray pipes of 1, 2, 9 and 10 in the long water tank are provided with a plurality of small holes to start to spray water into the spray pipes, and mist is sprayed out of the 4L-shaped spray pipes of 1, 2, 9 and 10 in the long water tank. The full plate blowers 5 and 6 constitute pressurized full plate blowers in the long water tank. The centrifugal force generated by the high-speed rotation of the inclined plane fan blades and the bent fan blades of 10 full-disk blowers strongly absorbs air in a centrifugal force area and strongly absorbs garbage from a garbage inlet of a dust collection disk to a garbage collection box of a dust collector; the inclined plane fan blades and the bent fan blades of 10 full-plate blowers rotate at a high speed to generate oppressive wind power to be sprayed to the L-shaped spray pipes from the air outlet, the full-plate blowers 10 are 1.2kW in power, the L-shaped spray pipes spray strong fog to scatter the garbage far away from the highway to the front of the vehicle, the full-plate blowers 9 are 1kW in power, the L-shaped spray pipes spray medium-strength fog to spray the garbage sprayed by the strong fog to the sides of the vehicle to be close to the vehicle, the full-plate blowers 8 are 0.8kW in power, the L-shaped spray pipes spray secondary strong air to spray the garbage sprayed by the medium-strength fog to the sides of the vehicle to be close to the vehicle, and the full-plate blowers 7 are 0.6kW in power, the L-shaped spray pipes spray weak air to spray the garbage sprayed by. The full dish air-blower 1 is 1.2 kW's power, strong fog is erupted to L type spray tube, spout the rubbish on highway curb and scatter to the plantago limit, full dish air-blower 2 is 1 kW's power, strong fog in the L type spray tube erupts, spout the rubbish that strong fog was scattered to the plantago limit and be close to the car limit, full dish air-blower 3 is 0.8 kW's power, L type spray tube erupts the time strong gas, spout the rubbish that the medium strong fog was spouted and be close to the car limit, full dish air-blower 4 is 0.6 kW's power, the weak gas of L type spray tube, spout the rubbish that the time strong gas was spouted and to the car bottom. The dust collection plate generates strong vacuum negative pressure at the edge of the opening of the dust collection plate, garbage at the bottom of the vehicle is absorbed to a dust-containing air inlet of a dust collector, the thick garbage is blocked by an inclined dust blocking plate and falls into a garbage can, meanwhile, the air flow speed is slowed down, the air flow is folded and upwards passes through a filter bag with a metal framework arranged inside, dust is trapped on the surface of the filter bag, an electromagnetic pulse wave is generated by a pulse valve to enable the dust on the surface of the filter bag to fall, and clean air generated by filtering the filter bag is supplied to 10 air inlets of full-disk blowers for clean air absorption. When the intelligent cleaning vehicle runs, the dust collection disc and the dust baffle plate are lifted by a vertical hydraulic oil cylinder and an inverted hydraulic oil cylinder of the electric hydraulic pump. The warning lamp is used for warning the automobile from collision. E.g. (FIG. 17)

When the intelligent cleaning vehicle cleans a sidewalk, 10 full-plate blowers in the mist spraying system are started by clicking the operation control panel, and small bent pipe nozzle switches in the middle of the middle full- plate blowers 5 and 6 are opened. The small elbow shower head switches of full tray blowers 1, 2, 3, 4, 7, 8, 9 and 10 are not opened. The inclined plane blades and the bent blades of the full- disk blowers 1, 2, 3, 4, 7, 8, 9 and 10 rotate at high speed to generate oppressive wind power to the long water tank, and then the pressurized full-disk blower is formed. The L-shaped spray pipes in the middle of the full disk air blower 5 and 6 are provided with a plurality of small holes, and then water can be sprayed into the spray pipes to spray 7-level wind mist, so that garbage on sidewalks, under guardrails and under big trees can be directly sprayed away. When the pavement is a road with a flat pavement, the small elbow nozzle switches of the middle 5 and the middle 6 of the full disk blower can be closed, the small elbow nozzle switches of the full disk blowers 1, 2, 3, 4, 7, 8, 9 and 10 are opened, and dust and garbage are collected and absorbed into the garbage collection box of the dust remover. After the mist-spraying dust-collecting vehicle cleans the garbage on the sidewalk, the mist-spraying dust-collecting vehicle is turned around, and then the garbage on the road is cleaned, as shown in figure 18.

Claims (6)

1. The utility model provides an intelligence cleaning cart, includes big water tank, dust absorption dish, ash baffle, dust remover garbage collection box, car and spraying gas system, its characterized in that spraying gas system, spraying gas system includes: the full-disk air blower comprises an impeller full-disk motor, uniform inclined plane fan blades and bent fan blades with mutually matched and protruding cover surfaces are distributed around a shell ring of the full-disk motor according to a specified distance, a concave circle is arranged in the middle area of the cover surface, a shaft sleeve is arranged in the center of the concave circle, and the L-shaped spray pipe is located in the long water tank and consists of a horizontal pipe and a vertical pipe.

2. The intelligent cleaning vehicle as claimed in claim 1, wherein the hollow volute with flat bottom and the full-disc motor of the impeller in the full-disc blower are installed in the housing of the full-disc blower.

3. The intelligent cleaning vehicle as claimed in claim 1, wherein the full-disc blower is provided with an upward air inlet and a downward air outlet.

4. The intelligent cleaning vehicle as claimed in claim 1, wherein the horizontal pipe of the partial L-shaped spray pipe is provided with a plurality of small holes.

5. The intelligent cleaning vehicle as claimed in claim 1, wherein the upper end of the vertical pipe of the partial L-shaped spray pipe is provided with a plurality of small holes.

6. The intelligent cleaning vehicle as claimed in claim 1, wherein a water level sensor is arranged in the long water tank.

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