A cleaning mechanism
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- CHANGSHA ZHONGLIAN HENGTONG MACHINERY
- Filing Date
- 2023-09-12
- Publication Date
- 2026-06-23
AI Technical Summary
Airport runway cleaning is difficult and inefficient. Manual cleaning is ineffective and cannot fully collect foreign objects, which affects the safety of aircraft takeoff and landing.
A cleaning mechanism was designed, including components such as a rotating wheel, a cleaning box, a sealing push plate, a limiting frame, a dust collection device, and a water tank. The rotating wheel is driven to move by a transmission device, the sealing push plate prevents dust from scattering, the dust collection device works with the water tank, the dust collection box stores dust, the brush plate and rotating roller clean, the dust settling component reduces dust splashing, the gathering frame enhances suction, and activated carbon purifies odors.
It improves cleaning efficiency, enhances the comprehensiveness and sealing of dust collection, prevents dust from scattering, extends the service life of the brush plate, and ensures the safety and cleanliness of the cleaning process.
Smart Images

Figure CN117449237B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of cleaning device technology, and more specifically to a cleaning mechanism. Background Technology
[0002] The cleanliness of airport runways is not only to ensure a clean and tidy environment, but also to ensure the safe takeoff and landing of aircraft. Airport cleaning vehicles are mainly used for high-speed cleaning and maintenance of airport runways, taxiways, connecting taxiways, aprons, and other pavement surfaces. They can also be used for cleaning and maintenance of highways. The current cleaning method is usually manual cleaning. Due to the large area occupied by runways, manual cleaning is difficult, time-consuming, and labor-intensive, resulting in low work efficiency. At the same time, the effect of manual cleaning is poor, and it is impossible to collect and handle foreign objects on the runway, which can easily affect the normal takeoff and landing of aircraft.
[0003] In summary, runways occupy a large area, making manual cleaning difficult, time-consuming, and labor-intensive, resulting in low work efficiency. Furthermore, manual cleaning is ineffective in collecting and removing foreign objects from the runway, which can easily affect the normal take-off and landing of aircraft. Summary of the Invention
[0004] To address the shortcomings of existing technologies, the technical solution adopted by this invention is: a cleaning mechanism as described in this invention, comprising,
[0005] A rotating wheel has a connecting rod and a transmission device located in the middle of the rotating wheel. A cleaning box is fixedly connected to the top of the transmission device. A push-pull handle is fixedly connected to the middle of the top of the right outer wall of the cleaning box. A mounting plate is provided on the rotating wheel near the cleaning box. The mounting plate is a component that connects the rotating wheel and the cleaning box, allowing the rotating wheel to rotate on the mounting plate and have room to move with the cleaning box. The top of the mounting plate is fixedly connected to the cleaning box, and the rotating wheel is rotatably connected to the mounting plate near the cleaning box.
[0006] A limiting frame includes a limiting rod and a sealing push plate disposed inside the limiting frame. The sealing push plate is slidably connected to the cleaning box at a position away from the limiting frame. A dust outlet pipe is connected to the bottom left side of the front of the cleaning box. A drive mechanism, driven by a motor, pushes a rotating wheel, causing the rotating wheel to move the entire cleaning box. When the limiting frame extends and contacts the cleaning box, the sealing push plate allows the operator to place objects on it while simultaneously sealing the cleaning box, preventing dust collected inside from scattering to the outside. The dust outlet pipe also has a cover to block the dust outlet, thereby increasing the overall sealing performance of the cleaning box. The cleaning box includes:
[0007] The placement box is the outer shell of the cleaning box. The placement box includes a drive unit and a protective partition located in the middle of the right inner wall of the placement box. A cleaning device is fixedly connected to the middle of the bottom of the placement box, and vacuuming devices are fixedly connected to both sides of the cleaning device at the bottom of the placement box. The protective partition connects to the placement box, thus dividing the internal space of the placement box while protecting the installation position of the drive unit. The drive unit is located in the middle of the bottom right side of the placement box and extends into the interior of the placement box, while the protective partition is located on top of the drive unit. The protective partition does not contact the actuator and is fixedly connected to the placement box. The protective partition and the placement box create a protective space, which protects the actuator from entering the placement box. The drive is installed on the top back of the actuator, with the top of the actuator extending into the placement box. The bottom of the drive is fixedly connected to the placement box. The cleaning device works in conjunction with the vacuuming device, which is evenly distributed on both sides of the cleaning device. This allows for multiple cleanings of the floor, thus fully collecting foreign objects and dust, thereby improving the overall cleaning efficiency of the device.
[0008] A water storage tank is located on a connecting frame inside the dust collection box. A water inlet pipe on the left outer wall of the water storage tank extends to the outside of the box. The water storage tank is fixedly connected to the box via the water inlet pipe. The cleaning device is connected to the water storage tank. The water flow inside the tank helps to reduce dust in the cleaning area during the cleaning process. The water storage tank includes a delivery pump and a connecting frame at the bottom of the tank that is compatible with the dust collection device. The bottom of the connecting frame is connected to the dust collection device, and dust collection boxes are fixedly connected to both sides of the top of the connecting frame. The bottom of the protective partition is fixedly connected to the connecting frame. The left outer wall of the protective partition is fixedly connected to the dust collection box. The top left side of the connecting frame extends into the interior of the dust collection box, so that the protective partition is installed on the inner wall of the placement box and contacts the connecting frame. The dust collection box is a dust storage structure on the cleaning box for storing dust. An auxiliary component is fixedly connected to the dust collection box near the water storage tank. The two outer walls of the dust collection box are fixedly connected to the placement box. The suction force generated is transmitted to the dust collection device through the connecting frame and its own pipes. The internal structure of the 44-positioned structure ensures sufficient suction power for the dust collection device during dust collection. The connecting frame increases the stability of the dust collection box after installation inside the placement box, facilitating mutual support between the connecting frame, the dust collection box, and the water tank. This ensures a tight connection between components, preventing collected dust from scattering again and accelerating the overall cleaning speed. The top of the cleaning device penetrates the placement box and extends into its interior. The top center of the left outer wall of the cleaning device connects to the water tank. The bottom left side of the protective partition is fixedly connected to the connecting frame. The middle of the left outer wall of the water tank penetrates the placement box and extends to its exterior. The auxiliary component, located away from the dust collection box, connects to the water tank.
[0009] Preferably, the cleaning device includes a swing frame, with a protective shell rotatably connected to the top of the outer walls on both sides of the swing frame. The cleaning device is located at the bottom center of the placement box, and the top of the cleaning device extends into the interior of the placement box. The outer walls on both sides of the cleaning device are fixedly connected to the placement box. A dust-collecting component is fixedly connected to the top of the inner cavity of the protective shell. The swing frame consists of a connecting plate, a rotating rod, and an arc-shaped plate. The top of the inner cavity of the protective shell is fixedly connected to the connecting plate, the bottom of the connecting plate is rotatably connected to the rotating rod, and the outer surface of the rotating rod is fixedly connected to the arc-shaped plate. This allows the rotating rod to drive the arc-shaped plate to rotate on the connecting plate during operation. The arc-shaped inclined surface pressed by the arc-shaped plate plays a guiding role during the swing process. The swing frame can contact the brush plate when it rotates, enabling the swing frame to clean the cleaning area of the brush plate. This facilitates the cooperation between the swing frame and the dust-collecting component. The dust-collecting component is located at the top of the inner cavity of the protective housing, and there is a space for movement between the dust-collecting component and the swing frame, so that the dust-collecting component and the swing frame do not come into contact, thereby improving the cleaning efficiency of the brush plate. The swing frame can guide the collected dust, thereby reducing the situation where foreign objects fall on the brush plate and scatter everywhere. The top center of the dust-collecting component penetrates through the protective housing and extends to the outside of the protective housing. Rotating rollers are rotatably connected to the bottom of the inner walls on both sides of the protective housing. The outer surface of the rotating rollers is fixedly connected to the brush plates. Through the connection between the brush plates and the rotating rollers, the brush plates rotate with the rotating rollers driven by the power box, which facilitates the brush plates to sweep away foreign objects adhering to the ground. The brush plates are evenly distributed on the rotating rollers, thereby ensuring that the brush plates can be evenly stressed during sweeping, preventing the brush plates from bending or breaking when brushing the ground, and further extending the service life of the brush plates.
[0010] Preferably, the vacuuming device includes a mounting cylinder. A reinforcing bracket is fixedly connected to the top of the inner surface of the mounting cylinder. The vacuuming device is located at the bottom of the placement box on both sides of the cleaning device, and the outer surface of the vacuuming device at the contact point with the connecting frame is fixedly connected to the placement box. A dust collection pipe is fixedly connected to the reinforcing bracket at a position away from the mounting cylinder. The bottom end of the dust collection pipe is connected to a vacuum cleaner. Converging frames are fixedly connected to the bottom of the reinforcing bracket on both sides of the dust collection pipe. The reinforcing bracket supports the dust collection pipe inside the mounting cylinder, ensuring the dust collection pipe remains vertical and preventing bending. Simultaneously, the reinforcing bracket and the converging frames work together to reinforce the interior of the mounting cylinder, thereby increasing the strength of the mounting cylinder and preventing damage. The surface is protected from impacts by flying debris, allowing the dust collection frame to safeguard its internal components. The top of the inner surface of the dust collection frame is fixedly connected to the dust collection pipe, which is connected to the vacuum cleaner. This allows the vacuum cleaner to collect debris from the ground using suction. A sealing gasket at the connection point between the dust collection pipe and the vacuum cleaner ensures the pipe's airtightness and prevents debris from falling out during transport. The connection between the vacuum cleaner and the dust collection frame allows the frame to gather the dust collected by the vacuum cleaner, increasing the comprehensiveness of debris collection and facilitating cooperation between the vacuum cleaner and the dust collection frame. This further enhances the stability of the installation between the two components. The bottom of the dust collection frame penetrates the mounting cylinder and extends to the outside of the mounting cylinder. The tops of the outer walls on both sides of the dust collection frame are fixedly connected to the mounting cylinder.
[0011] Preferably, the connecting frame includes an exhaust fan box, the bottom of which is connected to a collection box. An activated carbon storage box is fixedly connected to the center of the bottom of the collection box's inner cavity. The connection between the activated carbon storage box and the collection box facilitates the purification of odors by the activated carbon inside the storage box, thus preventing odors from accumulating in the dust storage area after prolonged use and further ensuring the overall cleanliness of the device. The top of the activated carbon storage box extends through the collection box and outwards. A connecting pipe is connected to the bottom of the right outer wall of the collection box, and a transition box is connected to the right end of the connecting pipe. The activated carbon storage box is located inside the collection box, allowing the exhaust fan to purify odors. The suction generated by the fan box flows into the collection box and then through the connecting pipe to the collection box to the transition box. The internal airflow of the collection box is regulated by the exhaust fan box, thereby adjusting the suction for collecting foreign objects. This facilitates the transfer of suction from the collection box to the transition box via the connecting pipe, allowing the transition box to deliver suction to the dust collection device. This ensures that dust inside the dust collection device is drawn into the transition box by the suction, thus guaranteeing sufficient dust collection inside the transition box. Furthermore, the connection between the collection box and the connecting pipe is designed to minimize gaps, preventing reduced suction caused by gaps and further improving the overall cleaning effect of the device.
[0012] The auxiliary component includes an assembly frame, with an auxiliary shell fixedly connected to the top of the assembly frame. A flexible hose is connected to the side of the auxiliary shell away from the assembly frame, and an atomizing nozzle is connected to the bottom of the auxiliary shell. Driven by a water pump, the atomizing nozzle is used to suppress dust inside the dust collection box, thus preventing dust from floating around inside the dust collection box. A movable receiving plate is rotatably connected to the atomizing nozzle away from the flexible hose. The assembly frame is slidably connected to the movable receiving plate away from the atomizing nozzle. The movable receiving plate can collect the sprayed water flow from the atomizing nozzle. After the water flow dries on the movable receiving plate, a reset plate on the movable receiving plate can be reset by the push of a spring on the assembly frame, so that the movable receiving plate can once again block the atomizing nozzle.
[0013] Preferably, the dust suppression component includes a water supply pipe, the bottom end of which is connected to an arc-shaped spray box. A bonding plate is fixedly connected to the bottom of the inner cavity of the arc-shaped spray box, and a baffle plate is fixedly connected to the left outer wall of the bonding plate. The arc-shaped spray box cooperates with the water supply pipe, which is connected to a water storage tank. Water from the storage tank enters the water supply pipe and then flows into the arc-shaped spray box, exiting from the box to suppress dust and humidify the cleaning area. This reduces the problem of dust immediately splashing up after cleaning, and the water flow loosens foreign objects adhering to the ground, making them easier to clean and collect. This improves the overall cleaning quality of the device and reduces the amount of foreign objects on the ground after cleaning. The residual water flow is supported by a buffer block inside the arc-shaped spray box, which cushions the water flow from the water pipe when it comes into contact with the buffer block, thereby increasing the bearing capacity of the arc-shaped spray box itself. The left outer wall of the baffle plate is fixedly connected to the arc-shaped spray box. A buffer block is fixedly connected to the arc-shaped spray box away from the bonding plate. The bonding plate is connected to the baffle plate, and the bonding plate has a slope that can cooperate with the spray groove of the arc-shaped spray box to guide the water flow inside the arc-shaped spray box. This allows the baffle plate to be pressed against the bonding plate and cooperate with the buffer block, thereby blocking the space inside the arc-shaped spray box and further enhancing the strength of the arc-shaped spray box itself, making it less likely to fall or tilt from the installation position.
[0014] Preferably, the gathering frame includes a blocking plate, a protective sleeve is fixedly connected to the bottom of the blocking plate, an anti-slip mounting bracket is fixedly connected to the bottom of the protective sleeve, a drive motor is fixedly connected to the bottom of the anti-slip mounting bracket, and a gathering ring is rotatably connected to the output shaft of the drive motor. The connection between the anti-slip mounting bracket and the protective sleeve ensures that the anti-slip mounting bracket secures the drive motor while preventing gaps from forming between the anti-slip mounting bracket and the protective sleeve due to the operation of the drive motor. When the drive motor operates, it vibrates on the anti-slip mounting bracket, causing the anti-slip mounting bracket to move with the drive motor. Over time, this can easily lead to gaps at the connection point between the anti-slip mounting bracket and the protective sleeve. The loosening creates gaps, preventing the anti-slip mounting bracket from tilting and causing the drive motor to squeeze the converging ring. The anti-slip mounting bracket and protective sleeve are located inside the mounting cylinder, with their outer surfaces connected to the cylinder body. This increases the contact area at the connection point, enhancing the stability of the connection and preventing loosening. The drive motor's output shaft extends into the converging ring, using a drive gear on the output shaft that connects to a toothed block at the contact point with the converging ring. The rotation of the drive motor, via the drive gear, drives the converging ring. The vacuum cleaner rotates, driven by a motor, causing a converging ring to gather debris. This converging ring, located at the bottom of the vacuum cleaner's outer surface with some space between it and the cleaner, consists of toothed blocks, two limiting rings, a gathering ring, and an elastic conveyor strip. The elastic conveyor strip is fixedly connected to the bottom of the gathering ring, and the limiting ring is fixedly connected to the top. Toothed blocks are fixedly connected to the limiting rings near the motor, with the teeth evenly distributed on the limiting rings. This causes the motor to rotate the entire gathering ring. The elastic conveyor strip on the gathering plate within the gathering ring pushes debris on the ground, gradually gathering it together for easier subsequent cleaning. Foreign objects are collected, and the converging ring can loosen tightly adhered foreign objects during rotation. When the converging ring contacts the ground, it can wipe away foreign objects on the ground, gradually loosening them under the pressure of the converging ring, thus reducing the difficulty of subsequent cleaning. During the rotation of the converging ring, it comes into contact with the mounting cylinder, allowing the mounting cylinder to cooperate with the drive motor. The mounting cylinder and the converging ring are rotatably connected, and the space between the mounting cylinder and the converging ring provides space for the drive motor to be installed. The drive motor can limit the range of the converging ring's installation position on the anti-slip mounting bracket, thus ensuring that the converging ring is in a horizontal state.
[0015] This invention provides a cleaning mechanism. It has the following beneficial effects:
[0016] 1. This cleaning mechanism is equipped with a sealing push plate, a limiting frame, a dust collection box, and a protective partition. When the limiting frame extends and contacts the cleaning box, the sealing push plate allows workers to place objects on it while simultaneously sealing the cleaning box, preventing dust collected inside from scattering to the outside. The protective partition connects to the placement box, dividing the internal space of the box and protecting the installation position of the transmission device. The cleaning device works in conjunction with the vacuuming device. The connecting frame transmits the generated suction power to the vacuuming device through its own pipes, ensuring sufficient suction power during dust collection. This facilitates mutual support between the connecting frame, the dust collection box, and the water tank, ensuring a tight connection between the components and accelerating the overall cleaning speed of the device.
[0017] 2. This cleaning mechanism uses a converging ring that rotates under the drive motor to gather foreign objects, facilitating their collection. During rotation, the converging ring contacts the mounting cylinder, ensuring the cylinder and motor work together to maintain the ring's horizontal position. The anti-slip mounting bracket connects to the protective sleeve, securing the motor and preventing gaps from forming between the bracket and sleeve due to the motor's operation.
[0018] 3. This cleaning mechanism, through the cooperation of an arc-shaped spray box and a water supply pipe, allows water to flow through the water supply pipe into the arc-shaped spray box and then out of the arc-shaped spray box to perform dust suppression and humidification work on the cleaning area. This reduces the problem of dust splashing up immediately after the device cleans. The buffer block inside the arc-shaped spray box can support it, thereby increasing the bearing capacity of the arc-shaped spray box itself. The bonding plate and the baffle plate are connected, so that the baffle plate is subjected to the pressing force of the bonding plate and cooperates with the buffer block to block the space inside the arc-shaped spray box, further enhancing the strength of the arc-shaped spray box itself.
[0019] 4. This cleaning mechanism adjusts the suction power for collecting foreign objects by regulating the internal airflow through the collection box and the exhaust fan box. This allows the collection box to transfer suction power to the transition box via a connecting pipe, which in turn delivers suction power to the dust collection device. This ensures that dust inside the dust collection device is drawn into the transition box by the suction, thus guaranteeing sufficient dust collection and improving the overall cleaning effect of the device. The activated carbon placement box is connected to the collection box, allowing the activated carbon inside to purify the clothing lifting position, further ensuring the overall cleanliness of the device.
[0020] 5. This cleaning mechanism is connected to the vacuum cleaner via a dust collection pipe, which allows the vacuum cleaner to collect foreign objects from the ground using suction. The connection point of the dust collection pipe has a sealing gasket, which ensures the sealing of the dust collection pipe itself and prevents foreign objects from falling out when transporting them. The vacuum cleaner is connected to the dust collection frame, which allows the dust collection frame to gather the dust collected by the vacuum cleaner, thereby increasing the comprehensiveness of foreign object collection and facilitating the cooperation between the vacuum cleaner and the dust collection frame.
[0021] 6. This cleaning mechanism, through the reinforcement bracket inside the mounting cylinder, can support the dust collection pipe, making it easy for the dust collection pipe to remain vertical inside the mounting cylinder, thus avoiding the phenomenon of bending of the dust collection pipe. At the same time, the reinforcement bracket, together with the gathering frame, can reinforce the inside of the mounting cylinder, thereby enhancing the strength of the mounting cylinder itself and preventing the surface of the mounting cylinder from being hit by flying foreign objects, so that the gathering frame can protect the various internal components.
[0022] 7. This cleaning mechanism connects the brush plate to the rotating roller, allowing the brush plate to rotate with the roller driven by the power box. This facilitates the brush plate's cleaning of foreign objects adhering to the ground, preventing the brush plate from bending or breaking during brushing, thus extending the brush plate's service life. The swing frame contacts the brush plate during rotation, enabling it to clean the cleaning area of the brush plate. This facilitates the swing frame's cooperation with the dust-collecting components, thereby improving the cleaning efficiency of the brush plate.
[0023] 8. This cleaning mechanism, driven by a water pump, uses a hose to transport water from the water tank through an auxiliary shell to the atomizing nozzle, thus preventing dust from floating around inside the dust collection box. A timer controller controls the raising and lowering of the atomizing nozzle to prevent excessive moisture inside the dust collection box. A movable receiving plate on the atomizing nozzle can collect the sprayed water and swing under the influence of the water flow, thereby revealing more spray channels on the atomizing nozzle. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0025] Figure 2 This is a schematic diagram of the cleaning box of the present invention;
[0026] Figure 3 This is a schematic diagram of the cleaning device of the present invention;
[0027] Figure 4 This is a schematic diagram of the dust collection device of the present invention;
[0028] Figure 5 This is a schematic diagram of the connecting frame structure of the present invention;
[0029] Figure 6 This is a schematic diagram of the structure of the auxiliary component of the present invention.
[0030] Figure 7 This is a schematic diagram of the dust-reducing component of the present invention;
[0031] Figure 8 This is a schematic diagram of the structure of the gathering frame of the present invention.
[0032] In the diagram: 1. Transmission device; 2. Rotating wheel; 3. Push / pull handle; 4. Cleaning box; 41. Placement box; 42. Protective partition; 43. Cleaning device; 431. Protective shell; 432. Rotating roller; 433. Brush plate; 434. Dust suppression component; 435. Swing frame; 71. Arc-shaped spray box; 72. Water pipe; 73. Buffer block; 74. Baffle plate; 75. Adhesive plate; 44. Dust collection device; 441. Mounting cylinder; 442. Dust collection pipe; 443. Reinforcing bracket; 444. Vacuum cleaner; 445. Gathering device 81. Gathering Rotary Ring; 82. Anti-slip Mounting Rack; 83. Blocking Plate; 84. Drive Motor; 85. Protective Sleeve; 45. Connecting Rack; 451. Transition Box; 452. Collection Box; 453. Activated Carbon Placement Box; 454. Connecting Pipe; 455. Exhaust Fan Box; 46. Water Storage Tank; 47. Dust Collection Box; 48. Auxiliary Components; 481. Hose; 482. Auxiliary Shell; 483. Atomizing Spray Pipe; 484. Movable Receiving Plate; 485. Assembly Rack; 5. Sealing Push Plate; 6. Dust Exhaust Pipe; 7. Limiting Frame. Detailed Implementation
[0033] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the invention to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described to better illustrate the principles and practical application of the invention, and to enable those skilled in the art to understand the invention and design various embodiments with various modifications suitable for a particular purpose.
[0034] Example 1
[0035] Please see Figures 1-6 The present invention provides a technical solution: a cleaning mechanism, comprising,
[0036] The rotating wheel 2 has a connecting rod and a transmission device 1 located in the middle of the rotating wheel 2. The top of the outer walls on both sides of the transmission device 1 is fixedly connected to a cleaning box 4. The top of the right outer wall of the cleaning box 4 is fixedly connected to a push-pull handle 3. The rotating wheel 2 is provided with a mounting plate near the cleaning box 4. The mounting plate is a component that connects the rotating wheel 2 and the cleaning box 4, so that the rotating wheel 2 has room to move around on the mounting plate. The top of the mounting plate is fixedly connected to the cleaning box 4, and the rotating wheel 2 is rotatably connected to the mounting plate near the cleaning box 4.
[0037] The limiting frame 7 has a limiting rod and a sealing push plate 5 disposed inside the limiting frame 7. The sealing push plate 5 is slidably connected to the cleaning box 4 at a position away from the limiting frame 7. The bottom left side of the front of the cleaning box 4 is connected to a dust outlet pipe 6. The rotating wheel 2 is pushed by the transmission device 1 driven by the motor, so that the rotating wheel 2 drives the entire cleaning box 4 to move. When the limiting frame 7 extends and contacts the cleaning box 4, the sealing push plate 5 allows the operator to place objects on the sealing push plate 5 while sealing the cleaning box 4, preventing the dust collected inside the cleaning box 4 from drifting to the outside. The dust outlet pipe 6 has a cover that can block the dust outlet of the dust outlet pipe 6, thereby increasing the overall sealing performance of the cleaning box 4. The cleaning box 4 includes:
[0038] The placement box 41 serves as the outer shell of the cleaning box 4. The placement box 41 includes a drive unit and a protective partition 42 located in the middle of the right inner wall of the placement box 41. A cleaning device 43 is fixedly connected to the middle of the bottom of the placement box 41. A vacuuming device 44 is fixedly connected to both sides of the cleaning device 43 at the bottom of the placement box 41. The protective partition 42 connects to the placement box 41, thus dividing the internal space of the placement box 41 while protecting the installation position of the drive unit 1. The drive unit 1 is located in the middle of the bottom right side of the placement box 41 and extends into the interior of the placement box 41, while the protective partition 42 is located on top of the drive unit 1. The protective partition 42 does not contact the transmission device 1 and is fixedly connected to the placement box 41. The protective partition 42 and the placement box 41 create a protective space, so that the protective partition 42 and the placement box 41 protect the position where the transmission device 1 extends into the placement box 41. The driver is installed on the top back of the transmission device 1, the top of the transmission device 1 extends into the interior of the placement box 41, and the bottom of the driver is fixedly connected to the placement box 41. The cleaning device 43 works in conjunction with the vacuuming device 44, and the vacuuming device 44 is evenly distributed on both sides of the cleaning device 43, which can clean the ground multiple times, thereby fully collecting foreign objects and dust on the ground, and thus improving the overall cleaning efficiency of the device.
[0039] A water storage tank 46 is located on a connecting frame 45 inside the dust collection box 47. The water inlet pipe on the left outer wall of the water storage tank 46 extends to the outside of the placement box 41. The water storage tank 46 is fixedly connected to the placement box 41 via the water inlet pipe. The cleaning device 43 is connected to the water storage tank 46. The water flow inside the water storage tank 46 can reduce dust in the cleaning area during the cleaning process. The water storage tank 46 has a delivery pump and a connecting frame 45 located at the bottom of the water storage tank 46 and adapted to the vacuuming device 44. The bottom of the connecting frame 45 is connected to the vacuuming device 44. The dust collection box 47 is fixedly connected to both sides of the top of the connecting frame 45. The bottom of the protective partition 42 is fixedly connected to the connecting frame 45, and the left outer wall of the protective partition 42 is fixedly connected to the dust collection box 47. The top left side of the connecting frame 45 extends... The protective partition 42 extends into the interior of the dust collection box 47, allowing it to contact the connecting frame 45 on the inner wall of the placement box 41. The dust collection box 47 stores dust for the dust storage structure on the cleaning box 4. The two outer walls of the dust collection box 47 are fixedly connected to the placement box 41. The suction force generated is transmitted to the interior of the dust collection device 44 through the connecting frame 45 via its own pipes, thus ensuring sufficient suction force during dust collection. The connecting frame 45 also increases the stability of the dust collection box 47 after it is installed inside the placement box 41, facilitating mutual support between the connecting frame 45, the dust collection box 47, and the water tank 46. This ensures a tight connection between the components, preventing the collected dust from scattering again and accelerating the overall cleaning speed of the device.
[0040] The cleaning device 43 includes a swing frame 435, with a protective housing 431 rotatably connected to the top of the outer walls on both sides of the swing frame 435. The cleaning device 43 is located at the bottom center of the placement box 41, and the top of the cleaning device 43 extends into the interior of the placement box 41. The outer walls on both sides of the cleaning device 43 are fixedly connected to the placement box 41. A dust-collecting component 434 is fixedly connected to the top of the inner cavity of the protective housing 431. The swing frame 435 consists of a connecting plate, a rotating rod, and an arc-shaped plate, while the top of the inner cavity of the protective housing 431 is fixedly connected to the connecting plate. The bottom of the connecting plate is rotatably connected to the rotating rod, and the outer surface of the rotating rod is fixedly connected to the arc-shaped plate. This allows the rotating rod to drive the arc-shaped plate to rotate on the connecting plate during operation. The arc-shaped inclined surface pressed by the arc-shaped plate guides the movement during the swing. The swing frame 435 contacts the brush plate 433 as it rotates, enabling the swing frame 435 to clean the cleaning area of the brush plate 433. This facilitates the coordination between the swing frame 435 and the dust-collecting component 434. The swing frame 435 and the dust-collecting component 434 are located within the protective casing. The dust collection component 434 is positioned at the top of the inner cavity of body 431, and there is a space for movement between the dust collection component 434 and the swing frame 435, preventing contact between them and thus improving the cleaning efficiency of the brush plate 433. The swing frame 435 can guide the collected dust, thereby reducing the scattering of foreign objects from the brush plate 433. The top center of the dust collection component 434 penetrates through the protective housing 431 and extends to the outside of the protective housing 431. Rotary rollers 4 are rotatably connected to the bottom of the inner walls on both sides of the protective housing 431. 32. A brush plate 433 is fixedly connected to the outer surface of the rotating roller 432. The brush plate 433 is connected to the rotating roller 432, so that the brush plate 433 rotates with the rotating roller 432 driven by the power box. This makes it easier for the brush plate 433 to clean the foreign objects adhering to the ground. The brush plate 433 is evenly distributed on the rotating roller 432, which ensures that the brush plate 433 can be evenly stressed during cleaning. This prevents the brush plate 433 from bending or breaking when brushing the ground, and further extends the service life of the brush plate 433.
[0041] The vacuuming device 44 includes a mounting cylinder 441. The vacuuming device 44 is located at the bottom of the housing 41 on both sides of the cleaning device 43. The outer surface of the vacuuming device 44 at the contact point with the connecting frame 45 is fixedly connected to the housing 41. A reinforcing bracket 443 is fixedly connected to the top of the inner surface of the mounting cylinder 441. A dust collection pipe 442 is fixedly connected to the reinforcing bracket 443 at a position away from the mounting cylinder 441. The bottom end of the dust collection pipe 442 is connected to the vacuum cleaner 444. A gathering frame 445 is fixedly connected to the bottom of the reinforcing bracket 443 on both sides of the dust collection pipe 442. The reinforcing bracket 443 supports the dust collection pipe 442 inside the mounting cylinder 441, ensuring the dust collection pipe 442 remains vertical and preventing bending. The reinforcing bracket 443 and the gathering frame 445 work together to support the mounting cylinder 441. The internal structure is reinforced, thereby enhancing the strength of the mounting cylinder 441 and preventing its surface from being impacted by flying foreign objects. This allows the gathering frame 445 to protect its internal components. The top of the inner surface of the gathering frame 445 is fixedly connected to the dust collection pipe 442, which is connected to the vacuum cleaner 444. This facilitates the vacuum cleaner 444 to collect foreign objects collected on the ground using suction. The connection between the dust collection pipe 442 and the vacuum cleaner 444 has a sealing gasket, ensuring the sealing of the dust collection pipe 442 and preventing it from falling off when transporting foreign objects. The connection between the vacuum cleaner 444 and the gathering frame 445 allows the gathering frame 445 to gather the dust collected by the vacuum cleaner 444, thus increasing the comprehensiveness of foreign object collection and facilitating the cooperation between the vacuum cleaner 444 and the gathering frame 445. This further improves the stability of the installation between the two components.
[0042] The connecting frame 45 includes an exhaust fan box 455, the bottom of which is connected to a collection box 452. An activated carbon storage box 453 is fixedly connected to the middle of the bottom of the inner cavity of the collection box 452. The connection between the activated carbon storage box 453 and the collection box 452 facilitates the purification of odors by the activated carbon inside the box, preventing odors from accumulating in the dust storage area after prolonged use and further ensuring the overall cleanliness of the device. The top of the activated carbon storage box 453 extends through the collection box 452 and to the outside of it. A connecting pipe 454 connects to the bottom of the right outer wall of the collection box 452, and a transition box 451 connects to the right end of the connecting pipe 454. The activated carbon storage box 453 is located inside the collection box 452, allowing the exhaust fan box 455 to... The suction generated by the 5-phase enters the interior of the collection box 452 and flows through the connecting pipe 454 connected to the collection box 452. The suction is then transported to the interior of the transition box 451. The internal airflow of the collection box 452 is adjusted through the exhaust fan box 455, thereby adjusting the suction for collecting foreign objects. This facilitates the transfer of suction from the collection box 452 to the interior of the transition box 451 via the connecting pipe 454. The transition box 451 then delivers the suction to the interior of the dust collection device 44, allowing the dust inside the dust collection device 44 to be drawn into the transition box 451 by the suction. This ensures that the dust inside the transition box 451 is fully collected, and the connection between the collection box 452 and the connecting pipe 454 is less prone to gaps, thus avoiding the problem of reduced suction caused by gaps and further improving the overall cleaning effect of the device.
[0043] The auxiliary component 48 includes an assembly frame 485, with an auxiliary shell 482 fixedly connected to the top of the assembly frame 485. A hose 481 is connected to the side of the auxiliary shell 482 away from the assembly frame 485, and an atomizing nozzle 483 is connected to the bottom of the auxiliary shell 482. Driven by a water pump, water from the water tank 46 is transported through the hose 481 to the atomizing nozzle 483 via the auxiliary shell 482. During operation, the atomizing nozzle 483 sprays atomized water under the control of a timer controller on the auxiliary shell 482, thus using the atomizing nozzle to suppress dust inside the dust collection box 47 and preventing dust from floating around inside the dust collection box 47. The timer controller also controls the atomization... The lifting and lowering of the spray nozzle 483 prevents excessive moisture inside the dust collection box 47. A movable receiving plate 484 is rotatably connected to the atomizing spray nozzle 483 away from the hose 481. The mounting frame 485 is slidably connected to the movable receiving plate 484 away from the atomizing spray nozzle 483. The movable receiving plate 484 can collect the sprayed water flow on the atomizing spray nozzle 483 and swing under the drive of the water flow, thereby exposing more spray slots of the atomizing spray nozzle 483. After the water flow collected by the movable receiving plate 484 dries, the movable receiving plate 484 has a reset plate that can be reset under the push of the spring on the mounting frame 485, so that the movable receiving plate 484 can cover the atomizing spray nozzle 483 again.
[0044] In use, sufficient water is injected into the water tank 46. The sealing push plate 5 extends on the limiting frame 7 to seal the placement box 41. The operator holds the push handle 3 and starts the motor through the control box of the push handle 3, causing the transmission 1 to work with the motor and drive the rotating wheel 2 to rotate. The rotating wheel 2 then moves the placement box 41. At this time, the control box starts the exhaust fan inside the exhaust fan box 455 to generate suction, which enters the collection box 452. The bottom of the collection box 452, located on the left side of the cleaning device 43, is connected to the dust collection pipe 442. The top of the mounting cylinder 441 located on the left side of the cleaning device 43 is fixedly connected to the collection box 452. Part of the suction power from the collection box 452 directly enters the dust collection pipe 442 inside the mounting cylinder 441 on the left side of the cleaning device 43, allowing the dust collection pipe 442 to collect dust from the ground via the vacuum cleaner 444. The bottom of the transition box 451 located on the right side of the cleaning device 43 is connected to the dust collection pipe 442, and the top of the mounting cylinder 441 located on the right side of the cleaning device 43 is fixedly connected to the transition box 451. The remaining suction power flows from the collection box 452 through the transition box 452... Pipe 454 delivers the dust to the interior of the transition box 451 located on the right side of the cleaning device 43, allowing the dust collection pipe 442 connected to the transition box 451 to perform suction transport. The reinforcing bracket 443 connected to the dust collection pipe 442 provides internal support and reinforcement for the mounting cylinder 441, allowing the collected dust to enter the dust collection box 47 for storage. The rotating roller 432 on the protective housing 431 rotates with the push of the drive box, causing the rotating roller 432 to drive the brush plate 433 to rotate and wipe the ground. The swing frame 435 on the protective housing 431 supports the brush plate. 433 Adhesive residual dust is cleaned. During use, the water pump delivers water from the water tank 46 to the hose 481, and the hose 481 delivers water through the auxiliary shell 482 to the atomizing nozzle 483, so that the atomizing nozzle 483 atomizes and sprays water under the control of the timer controller. After receiving sufficient water, the movable receiving plate 484 swings on the atomizing nozzle 483. After the water dries on the movable receiving plate 484, the reset plate on the movable receiving plate 484 is reset by the spring of the assembly frame 485.
[0045] Example 2:
[0046] Please see Figures 7-8Based on Embodiment 1, the present invention provides a technical solution: the dust suppression component 434 includes a water supply pipe 72, the bottom end of which is connected to an arc-shaped spray box 71. A bonding plate 75 is fixedly connected to the bottom of the inner cavity of the arc-shaped spray box 71, and a baffle plate 74 is fixedly connected to the left outer wall of the bonding plate 75. The arc-shaped spray box 71 cooperates with the water supply pipe 72, and the water supply pipe 72 is connected to a water storage tank 46, allowing water from the water storage tank 46 to enter the interior of the water supply pipe 72. The water then flows through the water supply pipe 72 into the interior of the arc-shaped spray box 71 and is discharged from the arc-shaped spray box 71 to perform dust suppression and humidification work on the cleaning location. This reduces the problem of dust immediately splashing up after cleaning, and the water flow can loosen foreign objects adhering to the ground, making them easier to clean and collect. This improves the overall cleaning quality of the device and reduces the amount of dust after cleaning. The buffer block 73 inside the arc-shaped spray box 71 can support the residual foreign objects on the ground. When the water flow delivered by the water pipe 72 comes into contact with the buffer block 73, it has a buffering effect, thereby increasing the bearing capacity of the arc-shaped spray box 71 itself. The left outer wall of the baffle plate 74 is fixedly connected to the arc-shaped spray box 71. The buffer block 73 is fixedly connected to the arc-shaped spray box 71 away from the bonding plate 75. It is connected to the baffle plate 74 through the bonding plate 75. The bonding plate 75 has a slope that can cooperate with the spray groove of the arc-shaped spray box 71 to guide the water flow inside the arc-shaped spray box 71. This makes the baffle plate 74 cooperate with the buffer block 73 under the pressing force of the bonding plate 75, thereby blocking the space inside the arc-shaped spray box 71, further enhancing the strength of the arc-shaped spray box 71 itself, making it less likely to fall or tilt from the installation position.
[0047] The gathering frame 445 includes a blocking plate 83, a protective sleeve 85 fixedly connected to the bottom of the blocking plate 83, an anti-slip mounting bracket 82 fixedly connected to the bottom of the protective sleeve 85, a drive motor 84 fixedly connected to the bottom of the anti-slip mounting bracket 82, and a gathering ring 81 rotatably connected to the output shaft of the drive motor 84. The connection between the anti-slip mounting bracket 82 and the protective sleeve 85 ensures that the anti-slip mounting bracket 82 fixes the drive motor 84 while preventing gaps from forming between the anti-slip mounting bracket 82 and the protective sleeve 85 due to the operation of the drive motor 84. It also prevents the drive motor 84 from squeezing the gathering ring 81 due to the tilting of the anti-slip mounting bracket 82. The anti-slip mounting bracket 84 and the protective sleeve 85 are used to secure the gathering ring 81. Inside the mounting cylinder 441, the outer surfaces of the anti-slip mounting bracket 84 and the protective sleeve 85 are connected to the mounting cylinder 441, increasing the contact area between the anti-slip mounting bracket 84 and the protective sleeve 85. This increases the stability of the connection between the anti-slip mounting bracket 84 and the protective sleeve 85, making it less likely for the anti-slip mounting bracket 82 to loosen from the protective sleeve 85. The output shaft of the drive motor 84 extends into the interior of the convergent rotating ring 81. A drive gear on the output shaft of the drive motor 84 is connected to a toothed block at the contact point with the convergent rotating ring 81. The rotation of the drive motor 84 drives the convergent rotating ring 81 to rotate via the drive gear. The convergent rotating ring 81 rotates as driven by the drive motor 84, thus increasing the stability of the connection between the anti-slip mounting bracket 84 and the protective sleeve 85. The rotation of ring 81 can concentrate foreign objects. The converging ring 81 is located at the bottom of the outer surface of the vacuum cleaner 444 and has a movable space between it and the vacuum cleaner 444. The converging ring 81 consists of toothed blocks, two limiting rings, a converging ring, and an elastic conveyor strip. The elastic conveyor strip is fixedly connected to the bottom of the converging ring, and the limiting ring is fixedly connected to the top of the converging ring. Toothed blocks are fixedly connected to the limiting rings near the drive motor 84. The toothed blocks are evenly distributed on the limiting rings, causing the drive motor 84 to drive the entire converging ring 81 to rotate. The elastic conveyor strip on the converging plate in the converging ring 81 pushes the foreign objects on the ground, causing them to gradually gather together, thus facilitating subsequent collection. Furthermore, the converging ring 81 can also concentrate adhesive objects during rotation. The tightly attached foreign objects are loosened, and the converging rotating ring 81 contacts the ground, wiping away the foreign objects. The pressure of the converging rotating ring 81 gradually loosens the foreign objects adhering to the ground, thereby reducing the difficulty of subsequent cleaning. During the rotation of the converging rotating ring 81, it contacts the mounting cylinder 441, allowing the mounting cylinder 441 to cooperate with the drive motor 84. The mounting cylinder 441 and the converging rotating ring 81 are rotatably connected, so that the mounting cylinder 441 and the converging rotating ring 81 have space to install the drive motor 84. Thus, the drive motor 84 can limit the range of the installation position of the converging rotating ring 81 on the anti-slip mounting bracket 82, thereby ensuring that the converging rotating ring 81 is in a horizontal state.
[0048] In use, the blocking disc 83 and the protective sleeve 85 contact the mounting cylinder 441, and the anti-slip mounting bracket 82 on the protective sleeve 85 fixes the drive motor 84, so that the drive motor 84 drives the gathering ring 81 to rotate and gather foreign objects. The water pump inside the water storage tank 46 delivers water through the water pipe 72 to the inside of the arc-shaped spray box 71. Then the arc-shaped spray box 71 washes the brush plate 433. The blocking plate 74 and the bonding plate 75 support the inside of the arc-shaped spray box 71, while the buffer block 73 and the blocking plate 74 limit the water flow inside the arc-shaped spray box 71. The buffer block 73 and the blocking plate 74 inside the arc-shaped spray box 71 can reduce the water storage space inside the arc-shaped spray box 71, thus limiting the flow space of the water inside the arc-shaped spray box 71.
[0049] Example 3:
[0050] Please see Figures 1-8 Based on Embodiments 1 and 2, the present invention provides a technical solution: a method of using a cleaning mechanism, step one: first, inject sufficient water into the water storage tank 46, the worker pushes the placement box 41 through the push handle 3, and the placement box 41 is driven by the motor to drive the rotating wheel 2 inside the placement box 41 through the transmission 1, so that the rotating wheel 2 drives the placement box 41 to move, and the sealing push plate 5 slides on the limiting frame 7 to seal the placement box 41, and then the debris is placed on the sealing push plate 5;
[0051] Step 2: The exhaust fan inside the exhaust fan box 455 generates suction to enter the collection box 452. Part of the suction inside the collection box 452 directly enters the dust collection pipe 442 connected to the collection box 452, and then enters the vacuum cleaner 444 to collect dust from the ground. The other part of the suction enters the transition box 451 through the connecting pipe 454 connected to the collection box 452, and then uses another dust collection pipe 442 connected to the transition box 451 to deliver the suction to the vacuum cleaner 444 for secondary collection of dust from the ground.
[0052] Step 3: The anti-slip mounting bracket 82 and the blocking plate 83 provide support inside the mounting cylinder 441, and the vacuum cleaner 444 is installed in the placement cavity created by the anti-slip mounting bracket 82 and the blocking plate 83. The drive motor 84 on the anti-slip mounting bracket 82 drives the toothed blocks inside the gathering ring 81 to rotate the gathering ring 81 via the active gear.
[0053] Step 4: The rotating roller 432 rotates inside the protective housing 431 driven by the power box, causing the rotating roller 432 to drive the brush plate 433 to rotate and wipe the dust on the ground, while the swing frame 435 swings on the protective housing 431 as the rotating roller 432 rotates.
[0054] Step 5: The dust collected inside the collection box 452 and the transition box 451 is transported to the inside of the dust collection box 47 through the exhaust fan box 451 connected to the collection box 452. The dust swept by the brush plate 433 inside the protective shell 431 is splashed into the inside of the dust collection box 47 through the movement space between the swing frame 435 and the arc spray box 71.
[0055] Step 6: When the rotating roller 432 is rotating, the water pump inside the water storage tank 46 delivers water to the inside of the arc-shaped spray box 71 through the water delivery pipe 72, and sprays the water onto the brush plate 433 along with the water flow inside the arc-shaped spray box 71. The bonding plate 75 and the buffer block 73 support the inside of the arc-shaped spray box 71.
[0056] Step 7: The water pump delivers water through the hose 481 to the auxiliary housing 483, and the water flows into the atomizing nozzle 483 and is atomized and sprayed under the control of the timer controller. The movable receiving plate 484 receives the sprayed water and swings with the pressure of the sprayed water. After the water dries up, the reset plate on the movable receiving plate 484 returns to the initial position under the push of the spring on the assembly frame 485.
[0057] Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of them. All other embodiments obtained by those skilled in the art and related fields based on the embodiments of the present invention without inventive effort should fall within the scope of protection of the present invention. Structures, devices, and operating methods not specifically described and explained in the present invention, unless otherwise specified or limited, shall be implemented according to conventional means in the art.
Claims
1. A cleaning mechanism comprising, a rotating wheel (2) having a connecting rod body, and a transmission (1) provided in the middle of the rotating wheel (2), the top of the transmission (1) being fixedly connected with a cleaning box (4), the right side outer wall top of the cleaning box (4) being fixedly connected with a push-pull handle (3), and the position of the rotating wheel (2) close to the cleaning box (4) being provided with a mounting plate; The limiting frame (7) has a limiting rod and a sealing push plate (5) arranged inside the limiting frame (7), the position of the sealing push plate (5) away from the limiting frame (7) is in sliding connection with the cleaning box (4), the front bottom left side of the cleaning box (4) is communicated with a dust outlet pipe (6), characterized in that: the cleaning box (4) comprises: a placing box (41) having a driver, and a protective partition (42) provided in the middle of the right side inner wall of the placing box (41), the bottom middle position of the placing box (41) being fixedly connected with a cleaning device (43), and the bottom of the placing box (41) being fixedly connected with a dust suction device (44) on both sides of the cleaning device (43); a water storage tank (46) having a conveying pump, and a communication frame (45) provided at the bottom of the water storage tank (46) and matched with the dust suction device (44), the bottom of the communication frame (45) being communicated with the dust suction device (44), the top of the communication frame (45) being fixedly connected with a dust collecting box (47) on both sides, the dust collecting box (47) being fixedly connected with an auxiliary part (48) close to the water storage tank (46), and the both side outer walls of the dust collecting box (47) being fixedly connected with the placing box (41); the dust suction device (44) comprises a mounting cylinder (441), the inner surface top of the mounting cylinder (441) being fixedly connected with a reinforcing support (443), the position of the reinforcing support (443) away from the mounting cylinder (441) being fixedly connected with a dust collecting pipe (442), the bottom end of the dust collecting pipe (442) being communicated with a dust collector (444), the bottom of the reinforcing support (443) being fixedly connected with a gathering frame (445) on both sides of the dust collecting pipe (442), and the inner surface top of the gathering frame (445) being fixedly connected with the dust collecting pipe (442); the communication frame (45) comprises an exhaust fan box (455), the bottom of the exhaust fan box (455) being communicated with a collection box (452), the inner cavity bottom middle position of the collection box (452) being fixedly connected with an activated carbon storage box (453), the top of the activated carbon storage box (453) penetrating through the collection box (452) and extending to the outside of the collection box (452), the right side outer wall bottom of the collection box (452) being communicated with a communication pipe (454), and the right end of the communication pipe (454) being communicated with a transition box (451); the gathering frame (445) comprises a blocking disc (83), the bottom of the blocking disc (83) being fixedly connected with a protective sleeve (85), the bottom of the protective sleeve (85) being fixedly connected with an anti-skid mounting frame (82), the bottom of the anti-skid mounting frame (82) being fixedly connected with a driving motor (84), the output shaft of the driving motor (84) being rotatably connected with a gathering rotating ring (81), and the output shaft of the driving motor (84) extending to the inside of the gathering rotating ring (81).
2. A cleaning mechanism according to claim 1, wherein: The cleaning device (43) includes a swing frame (435), and a protective shell (431) is rotatably connected to the top of the outer walls on both sides of the swing frame (435). A dust-collecting component (434) is fixedly connected to the top of the inner cavity of the protective shell (431). The top middle position of the dust-collecting component (434) penetrates the protective shell (431) and extends to the outside of the protective shell (431). A rotating roller (432) is rotatably connected to the bottom of the inner walls on both sides of the protective shell (431). A brush plate (433) is fixedly connected to the outer surface of the rotating roller (432).
3. The cleaning mechanism of claim 1, wherein: The auxiliary component (48) includes an assembly frame (485), an auxiliary shell (482) is fixedly connected to the top of the assembly frame (485), a hose (481) is connected to the side of the auxiliary shell (482) away from the assembly frame (485), an atomizing nozzle (483) is connected to the bottom of the auxiliary shell (482), a movable receiving plate (484) is rotatably connected to the position of the atomizing nozzle (483) away from the hose (481), and the position of the assembly frame (485) away from the atomizing nozzle (483) is slidably connected to the movable receiving plate (484).
4. A cleaning mechanism according to claim 2, wherein: The dust suppression component (434) includes a water supply pipe (72), the bottom end of which is connected to an arc-shaped spray box (71). A bonding plate (75) is fixedly connected to the bottom of the inner cavity of the arc-shaped spray box (71). A baffle plate (74) is fixedly connected to the left outer wall of the bonding plate (75). The left outer wall of the baffle plate (74) is fixedly connected to the arc-shaped spray box (71). A buffer block (73) is fixedly connected to the arc-shaped spray box (71) away from the bonding plate (75).
5. The cleaning mechanism of claim 1, wherein: The bottom of the gathering frame (445) passes through the mounting cylinder (441) and extends to the outside of the mounting cylinder (441). The top of the outer walls on both sides of the gathering frame (445) are fixedly connected to the mounting cylinder (441).
6. The cleaning mechanism of claim 1, wherein: The top of the cleaning device (43) penetrates through the placement box (41) and extends into the interior of the placement box (41). The top middle position of the left outer wall of the cleaning device (43) is connected to the water storage tank (46).
7. The cleaning mechanism of claim 1, wherein: The bottom left side of the protective partition (42) is fixedly connected to the connecting frame (45). The middle of the left outer wall of the water storage tank (46) penetrates the placement box (41) and extends to the outside of the placement box (41). The auxiliary component (48) is connected to the water storage tank (46) at a position away from the dust collection box (47).