A kitchen waste washing station
By using a combination of a suction motor and a cleaning brush in the kitchen waste cleaning station, the problems of rotting odor, inconvenience in handling and cleaning stubborn stains when dealing with wet food waste in kitchen garbage cans are solved, achieving automated solid-liquid separation and cleaning effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- GUANGDONG XINBAO ELECTRICAL APPLIANCES HLDG CO LTD
- Filing Date
- 2024-06-26
- Publication Date
- 2026-06-30
AI Technical Summary
Existing kitchen trash cans have several drawbacks when dealing with wet food waste, including rotting odors, inconvenience in handling, incomplete solid-liquid separation, the need for manual emptying, and time-consuming and labor-intensive cleaning of stubborn stains.
Design a kitchen waste cleaning station equipped with a suction motor and cleaning brush. It uses negative pressure to suck up waste and perform solid-liquid separation. Combined with a cleaning water system and a hot air assembly, it achieves automated waste treatment and cleaning of stubborn stains.
It achieves automated solid-liquid separation of waste and efficient cleaning of stubborn stains, reduces odor emissions, and improves the convenience and efficiency of waste disposal.
Smart Images

Figure CN118683880B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of kitchen countertop waste cleaning technology, and specifically to a kitchen countertop waste cleaning station. Background Technology
[0002] Food waste often contains a large amount of moisture. When moisture mixes with solid waste, it produces a strong rotten smell. Furthermore, when there is a lot of waste in the trash can, the weight of the moisture in the waste is large, making it inconvenient to handle and dispose of. In addition, the moisture in the trash can mixed with solid waste makes subsequent waste disposal difficult.
[0003] Chinese invention patent CN219770785U discloses a split-type solid-liquid separation kitchen waste bin, including a bin body, a bin lid, an insertable water storage container, and a separation mechanism. The top of the bin body is movably connected to the bin lid via a hinge. An insertion port is provided at the bottom of the bin body, and the insertable water storage container is movably inserted into the insertion port. The insertable water storage container includes a water storage container and a handle installed on the outside of the water storage container. A pipe interface is installed at the lower end of the water storage container. The separation mechanism is located in the water storage container. The container includes a support ring, a first drain plate, a second drain plate, and a lever at the top. The support ring is machined into the inner wall of the container. The surface of the first drain plate has several sets of evenly distributed drainage holes and is fixed to the support ring. A rod is fixed in the middle of the first drain plate. The middle of the second drain plate is rotatably fitted onto the rod. The second drain plate is located below the first drain plate and its surface is also machined with several sets of drainage holes. Several sets of locking teeth are machined around the periphery of the second drain plate. An installation port is provided on one side of the container, and the lever is rotatably installed in the installation port and used in conjunction with the second drain plate. This prior art can separate solids and water in kitchen waste and guide the water into a separate container. On the one hand, it slows down the rotting and odor of kitchen waste, and on the other hand, it facilitates the separate treatment of solid waste and water in the waste, improving the treatment efficiency of kitchen waste. However, this prior art does not have a vacuuming function, requiring frequent manual emptying of the waste into the container, which is time-consuming and laborious. It is also very troublesome to clean stubborn stains such as oil adhering to hard surfaces such as kitchen countertops.
[0004] Therefore, there is still room for improvement and development in existing technologies. Summary of the Invention
[0005] To address the problems of existing technologies, this invention provides a kitchen countertop garbage cleaning station. By incorporating a suction motor and a cleaning brush, the suction motor creates a vacuum inside the separation chamber when it operates, forming a negative pressure. The cleaning brush then draws garbage from the kitchen countertop into the separation chamber. Under the action of the solid-liquid separation component, the separated wastewater enters the wastewater tank for storage, while the separated solid garbage enters the garbage bin for storage. Furthermore, the cleaning water system can be used to rinse away stubborn garbage such as oil stains adhering to the hard surface of the kitchen countertop and to clean the cleaning brush.
[0006] To achieve the above objectives, the technical solution applied in this invention is as follows:
[0007] A kitchen waste cleaning station includes a main unit equipped with a suction motor; a separation box fixed to the main unit, containing a solid-liquid separation component, and having an air inlet, an air outlet, a wastewater outlet, and a waste outlet; a cleaning brush connected to the air inlet via a pipe, and the air outlet connected to the suction port of the suction motor via a pipe; a waste bin detachably mounted to the main unit, with its opening corresponding to the waste outlet; a wastewater tank detachably mounted to the main unit, with its opening corresponding to the wastewater outlet; a clean water tank detachably mounted to the main unit, with a first cleaning water path between the clean water tank and a surface, and a second cleaning water path between the clean water tank and the separation box; and a drying box fixed to the main unit, with the cleaning brush detachably placed inside. The drying box corresponds to the exhaust port of the suction motor, and a hot air component is provided between the drying box and the exhaust port of the suction motor. This setup, with its suction motor and cleaning brush, creates a vacuum inside the separation chamber when the suction motor is working, forming a negative pressure. The cleaning brush then sucks the waste from the kitchen counter into the separation chamber. Under the action of the solid-liquid separation component, the separated wastewater enters the wastewater tank for storage, while the separated solid waste enters the trash can. A first cleaning water path connects the clean water tank and the cleaning brush, allowing for the rinsing and cleaning of stubborn dirt such as grease adhering to the hard surfaces of the kitchen counter, as well as cleaning the cleaning brush itself. A second cleaning water path connects the clean water tank and the separation chamber, allowing for the cleaning of the inner walls of the separation chamber. The wastewater from this cleaning process flows into the wastewater tank through the solid-liquid separation component and the wastewater outlet. When not in use, the cleaning brush can be placed in the drying box, where it is dried by the air exhausted from the suction motor's exhaust vent. To improve drying efficiency, a hot air component is installed between the drying box and the suction motor's exhaust vent.
[0008] According to the above scheme, a first cavity is formed inside the separation box. The solid-liquid separation component includes a solid-liquid separation plate inclined within the first cavity. The solid-liquid separation plate is provided with multiple filter holes, and the lower end of the solid-liquid separation plate is connected to the waste outlet. With this configuration, after mixed waste enters the separation box, wastewater is filtered through the multiple filter holes on the solid-liquid separation plate and flows into a wastewater tank for storage, while solid waste remains in the separation box. When the waste outlet is opened, the solid waste can slide along the inclined solid-liquid separation plate into the waste bin for storage.
[0009] According to the above scheme, the opening of the separation box is movably equipped with a separation box cover, and a second cavity is formed inside the separation box cover. The separation box cover has two air vents: one and two. The air inlet of the separation box, the first cavity of the separation box, the first air vent of the separation box cover, the second cavity of the separation box cover, the second air vent of the separation box cover, and the air outlet of the separation box are sequentially connected to form a cyclone duct. With this configuration, when the suction motor is working, it creates a vacuum inside the separation box, forming a negative pressure. The cleaning brush sucks the garbage from the countertop into the separation box. Under the action of the cyclone duct, the garbage flows within the separation box, preventing it from clogging the filter holes on the solid-liquid separation plate and affecting the solid-liquid separation effect. In practical applications, combining the first and second cavities can extend the stroke of the cyclone duct, resulting in better airflow. It should be noted that large pieces of garbage can be directly placed into the separation box through the opening.
[0010] According to the above scheme, a baffle is provided at the end of the first air outlet near the second inner cavity, and a first filter screen is provided inside the first air outlet, while a second filter screen is provided inside the second air outlet. This arrangement allows for the filtration of impurities in the air through the first and second filters, while the baffle blocks debris in the separation box, preventing it from clogging the first filter screen and affecting the cyclone duct's effectiveness. Simultaneously, it guides the airflow into the second cavity. In practical applications, opening the separation box cover allows for easy cleaning of both the first and second filters.
[0011] According to the above scheme, the first cleaning water circuit includes a water pump and a steam generator. The water pump draws cold water from the clean water tank to the steam generator, which heats the cold water into hot water or steam and then delivers it to the cleaning brush. This configuration allows the hot water or steam heated by the steam generator to decompose and wash away kitchen waste and stains produced by the cleaning brush at high temperatures, resulting in a better cleaning effect.
[0012] According to the above scheme, the pipeline between the water pump and the steam generator is connected to a decomposition liquid assembly, which includes a decomposition liquid tank and a peristaltic pump. The peristaltic pump is used to pump the decomposition solution in the decomposition liquid tank to the pipeline. This configuration allows the decomposition solution to dissolve kitchen waste and stains produced by the cleaning brush, resulting in better cleaning performance.
[0013] According to the above scheme, the cleaning brush is equipped with a suction inlet for connecting to the air outlet pipe, a spray nozzle for connecting to the cleaning water pipe, a scraper for scraping stains on the kitchen countertop, and a button for controlling the operation of the suction inlet and the spray nozzle. This configuration allows the suction inlet to draw waste into the separation box; the spray nozzle can spray clean water, hot water, steam, or a decomposition solution to break down solid waste adhering to the kitchen countertop; the scraper can scrape away solid waste adhering to the kitchen countertop, making it easier to remove stubborn dirt such as oil stains from the hard surface of the kitchen countertop through rinsing, decomposition, and wiping; and the button can control the cleaning operation of the spray nozzle and the suction operation of the suction inlet.
[0014] According to the above scheme, the second cleaning water circuit includes a water pump and multiple nozzles located on the opening of the separation tank. The water pump draws clean water from the clean water tank to the multiple nozzles, which then flush the inner wall of the separation tank. This configuration allows the water pump to draw clean water from the clean water tank into the separation tank when not in operation. The multiple nozzles then flush the inner wall of the separation tank. The flushed wastewater is filtered through a solid-liquid separation plate and flows into a wastewater tank for storage, preventing the adhesion or accumulation of debris on the inner wall of the separation tank. In practical applications, the water pump is preferably an electromagnetic water pump. Multiple three-way solenoid valves are installed on the pipes of the first and second cleaning water circuits for connecting different components.
[0015] According to the above scheme, the hot air assembly includes a PTC heating element, which heats the cold air discharged from the exhaust port of the suction motor and then delivers it to the drying box. With this configuration, when the PTC heating element is not working, the cold air discharged from the exhaust port of the suction motor can dry the cleaning brush; when the PTC heating element is working, it can heat the cold air into hot air and then dry the cleaning brush.
[0016] According to the above scheme, a movable cover is movably provided on the waste outlet. The movable cover is driven to open or close the waste outlet by a drive assembly 13. The drive assembly includes a stepper motor, a drive wheel, and a transmission wheel. The transmission wheel is fixedly connected to the rotating shaft of the movable cover and meshes with the drive wheel. The drive wheel is fixed to the output end of the stepper motor, and the stepper motor is used to drive the drive wheel to rotate forward and backward. With this configuration, the stepper motor drives the drive wheel to rotate forward and backward, thereby driving the movable cover to open or close the waste outlet. In the initial state, the movable cover closes the waste outlet to prevent mixed waste from directly entering the waste bin. After solid-liquid separation, the movable cover opens the waste outlet, and the separated solid waste can slide into the waste bin for storage.
[0017] According to the above solution, the main unit includes a base and a main body. The main body is fixed to the base, and has a handle and a control panel. The base has multiple casters. This design facilitates the movement of the main unit relative to the kitchen counter for cleaning, making it convenient to use.
[0018] It should be noted that when the separation box, sewage tank, and garbage bin are assembled on the main unit, a sealed structure is set up, which can effectively isolate garbage odors and prevent odors from leaking into the air and polluting the environment.
[0019] Beneficial effects of this invention:
[0020] This invention is designed with a suction motor and a cleaning brush on the main unit. When the suction motor is working, it creates a vacuum inside the wastewater tank, forming a negative pressure. The cleaning brush then sucks the waste from the kitchen counter into the wastewater tank. The main unit also has a cleaning water path that provides fluid to the cleaning brush. This water path washes away stubborn dirt and grease adhering to the hard surfaces of the kitchen counter. At the same time, the cleaning brush can also wipe away stubborn dirt and grease adhering to the hard surfaces of the kitchen counter. With the help of rinsing and wiping, the stubborn dirt and grease adhering to the hard surfaces of the kitchen counter can be removed and then sucked into the wastewater tank. Finally, the dry and wet separation component separates the waste into solid waste and wastewater. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the entire machine of the present invention;
[0022] Figure 2 This is an exploded view of the entire device of the present invention;
[0023] Figure 3 This is a cross-sectional view of the entire machine and a schematic diagram of the suction motor in operation;
[0024] Figure 4 This is a schematic diagram of the cyclone duct with the separation box cover open in this invention;
[0025] Figure 5 This is a schematic diagram of the cyclone duct with the separation box cover closed in this invention;
[0026] Figure 6 This is a schematic diagram of the cleaning water circuit of the present invention;
[0027] Figure 7 This is a schematic diagram of the bottom of the cleaning brush of the present invention;
[0028] Figure 8 This is the main view of the cleaning brush of the present invention;
[0029] Figure 9 This is a schematic diagram of the second cleaning water path of the present invention;
[0030] Figure 10 This is a schematic diagram of the nozzle operation of the present invention;
[0031] Figure 11 This is a cross-sectional view of the separation box with the movable cover closed according to the present invention;
[0032] Figure 12 This is a cross-sectional view of the separation box with the movable cover of the present invention in the open state;
[0033] Figure 13 This is a schematic diagram of the assembly of the movable cover and the drive component of the present invention.
[0034] In the picture:
[0035] 1. Main unit base; 2. PTC heating element; 3. Main unit body; 4. Decomposition liquid tank; 5. Trash can; 6. Cleaning brush; 7. Steam generator; 8. Suction motor; 9. Water pump; 10. Three-way solenoid valve; 11. Clean water tank; 12. Waste water tank; 13. Drive assembly; 14. Separation box; 15. Drying box; 16. Control panel; 17. Peristaltic pump; 18. Dust inlet; 19. Spray nozzle; 20. Scraper; 21. Buttons 22. Air inlet; 23. Air outlet one; 231. Baffle; 232. Filter screen one; 24. Air outlet two; 25. Air outlet; 251. Filter screen two; 26. Nozzle; 27. Separation box cover; 28. Sewage outlet; 29. Garbage outlet; 30. Solid-liquid separation plate; 31. Filter holes; 32. Sewage outlet; 33. Garbage outlet; 34. Movable cover; 35. Stepper motor; 36. Drive wheel; 37. Transmission wheel; 38. Rotating shaft. Detailed Implementation
[0036] The technical solution of the present invention will be described below with reference to the accompanying drawings and embodiments.
[0037] like Figures 1 to 13As shown, the kitchen waste cleaning station of the present invention includes a main unit equipped with a suction motor 8; a separation box 14 fixed to the main unit, the separation box 14 containing a solid-liquid separation component, and the separation box 14 having an air inlet 22, an air outlet 25, a sewage outlet 28, and a waste outlet 29; a cleaning brush 6 connected to the air inlet 22 via a pipe, and the air outlet 25 connected to the suction port of the suction motor 8 via a pipe; and a waste bin 5 detachably mounted on the main unit, the opening of the waste bin 5 corresponding to the waste outlet 29. The system includes: a wastewater tank 12, which is detachably installed on the main unit, with its opening corresponding to the wastewater outlet 28; a clean water tank 11, which is detachably installed on the main unit, with a first cleaning water path between the clean water tank 11 and the cleaning brush 6, and a second cleaning water path between the clean water tank 11 and the separation box 14; and a drying box 15, which is fixed on the main unit, with the cleaning brush 6 detachably placed inside the drying box 15, and the drying box 15 corresponding to the exhaust port of the suction motor 8, with a hot air assembly between the drying box 15 and the exhaust port of the suction motor 8. This setup, with the suction motor 8 and cleaning brush 6, creates a vacuum inside the separation box 14 when the suction motor 8 is working, forming a negative pressure. The cleaning brush 6 then draws the waste from the kitchen counter into the separation box 14. Under the action of the solid-liquid separation component, the separated wastewater enters the wastewater tank 12 for storage, while the separated solid waste enters the trash can 5 for storage. A cleaning water path is provided between the clean water tank 11 and the cleaning brush 6 for cleaning the kitchen counter waste and the cleaning brush 6. This cleaning water path can be used to rinse and clean oil adhering to the hard surfaces of the kitchen counter. Stubborn garbage such as dirt and cleaning brush 6 are cleaned; a second cleaning water channel is provided between the clean water tank 11 and the separation tank 14 for cleaning the inner wall of the separation tank 14. The inner wall of the separation tank 14 can be cleaned through the second cleaning water channel. The wastewater after cleaning flows into the wastewater tank 12 through the solid-liquid separation component and the wastewater outlet 28; when not in use, the cleaning brush 6 can be placed in the drying box 15 and the cleaning brush 6 can be dried by the air discharged from the exhaust port of the suction motor 8. In order to improve the drying efficiency, a hot air component is provided between the drying box 15 and the exhaust port of the suction motor 8.
[0038] In this embodiment, a first cavity is formed inside the separation box 14. The solid-liquid separation assembly includes a solid-liquid separation plate 30 inclinedly disposed within the first cavity. The solid-liquid separation plate 30 is provided with a plurality of filter holes 31, and the lower end of the solid-liquid separation plate 30 is connected to the waste outlet 29. With this configuration, after the mixed waste enters the separation box 14, the wastewater is filtered through the plurality of filter holes 31 on the solid-liquid separation plate 30 and flows into the wastewater tank 12 for storage, while the solid waste remains in the separation box 14. When the waste outlet 29 is opened, the solid waste can slide along the inclined solid-liquid separation plate 30 into the waste bin 5 for storage.
[0039] In this embodiment, the opening of the separation box 14 is movably equipped with a separation box cover 27, and a second cavity is formed inside the separation box cover 27. The separation box cover 27 is equipped with an air vent 23 and an air vent 24. The air inlet 22 of the separation box 14, the first cavity of the separation box 14, the air vent 23 of the separation box cover 27, the second cavity of the separation box cover 27, the air vent 24 of the separation box cover 27, and the air outlet 25 of the separation box 14 are sequentially connected to form a cyclone duct. With this configuration, when the suction motor 8 is working, it creates a vacuum in the inner cavity of the separation box 14, forming a negative pressure. The cleaning brush 6 sucks the garbage from the countertop into the separation box 14. Under the action of the cyclone duct, the garbage flows within the separation box 14, preventing it from clogging the filter holes 31 on the solid-liquid separation plate 30 and affecting the solid-liquid separation effect. In practical applications, combining the first and second cavities can extend the stroke of the cyclone duct, resulting in better airflow. It should be noted that large pieces of waste can be directly placed into the separation box 14 through the opening.
[0040] In this embodiment, a baffle 231 is provided at one end of the air vent 23 near the second inner cavity, a filter screen 232 is provided inside the air vent 23, and a filter screen 251 is provided inside the air vent 24. This arrangement allows impurities in the air to be filtered through the filter screens 232 and 251, while the baffle 231 blocks debris in the separation box 14, preventing it from clogging the filter screen 232 and affecting the cyclone duct's performance. The baffle 231 also guides airflow to the second cavity. In practical applications, the filter screens 232 and 251 can be easily cleaned after opening the separation box cover 27.
[0041] In this embodiment, the first cleaning water circuit includes a water pump 9 and a steam generator 7. The water pump 9 pumps cold water from the clean water tank 11 to the steam generator 7, and the steam generator 7 heats the cold water into hot water or steam, which is then delivered to the cleaning brush 6. This configuration allows the hot water or steam heated by the steam generator 7 to decompose and wash away kitchen waste and stains generated by the cleaning brush 6 after its operation, resulting in a better cleaning effect.
[0042] In this embodiment, a decomposition solution assembly is connected to the pipeline between the water pump 9 and the steam generator 7. The decomposition solution assembly includes a decomposition solution tank 4 and a peristaltic pump 17, which pumps the decomposition solution in the decomposition solution tank 4 to the pipeline. This configuration allows the decomposition solution to dissolve kitchen waste and stains generated by the cleaning brush 6 after its operation, resulting in better cleaning performance.
[0043] In this embodiment, the cleaning brush 6 is equipped with a suction inlet 18 for connection to the air outlet 25, a spray nozzle 19 for connection to the first cleaning water pipe, a scraper 20 for scraping stains on the kitchen counter, and a button 21 for controlling the operation of the suction inlet 18 and the spray nozzle 19. This configuration allows the suction inlet 18 to draw waste into the separation box 14; the spray nozzle 19 to spray clean water, hot water, steam, or a decomposition solution to decompose solid waste adhering to the kitchen counter; the scraper 20 to scrape away solid waste adhering to the kitchen counter, making it easier to remove stubborn dirt such as oil stains from the hard surface of the kitchen counter through rinsing, decomposition, and wiping; and the button 21 to control the cleaning operation of the spray nozzle 19 and the suction operation of the suction inlet 18. In practical applications, there are two buttons 21: one for the first cleaning water pipe and the other for the suction motor 8.
[0044] In this embodiment, the second cleaning water path includes a water pump 9 and multiple nozzles 26 located on the opening of the separation tank 14. The water pump 9 pumps clean water from the clean water tank 11 to the multiple nozzles 26, which in turn flush the inner wall of the separation tank 14. This configuration allows the water pump 9 to pump clean water from the clean water tank 11 to the separation tank 14 when not in operation. The multiple nozzles 26 then flush the inner wall of the separation tank 14. The flushed wastewater is filtered by the solid-liquid separation plate 30 and then flows into the wastewater tank 12 for storage, preventing the adhesion or accumulation of debris on the inner wall of the separation tank 14. In practical applications, the water pump 9 is preferably an electromagnetic water pump, and multiple three-way solenoid valves 10 are installed on the pipes of the first and second cleaning water paths for connecting different components.
[0045] In this embodiment, the hot air assembly includes a PTC heating element 2, which heats the cold air discharged from the exhaust port of the suction motor 8 and then delivers it into the drying box 15. This configuration allows the cold air discharged from the exhaust port of the suction motor 8 to dry the cleaning brush 6 when the PTC heating element 2 is not operating, and the cold air to be heated to dry the cleaning brush 6 when the PTC heating element 2 is operating.
[0046] In this embodiment, a movable cover 34 is movably mounted on the waste outlet 29. The movable cover 34 is driven to open or close the waste outlet 29 by a drive assembly 13. The drive assembly 13 includes a stepper motor 35, a drive wheel 36, and a transmission wheel 37. The transmission wheel 37 is fixedly connected to the rotating shaft 38 of the movable cover 34 and is meshed with the drive wheel 36. The drive wheel 36 is fixed to the output end of the stepper motor 35, which drives the drive wheel 36 to rotate in both directions. With this configuration, the movable cover 34 is driven to open or close the waste outlet 29 by the stepper motor 35 driving the drive wheel 36 to rotate in both directions. In the initial state, the movable cover 34 closes the waste outlet 29 to prevent mixed waste from directly entering the waste bin 5. After solid-liquid separation, the movable cover 34 opens the waste outlet 29, and the separated solid waste can slide into the waste bin 5 for storage.
[0047] In this embodiment, the main unit includes a base 1 and a main body 3. The main body 3 is fixed to the base 1, and has a handle and a control panel 16. The base 1 has multiple casters. This design facilitates the movement of the main unit relative to the kitchen counter for cleaning, making it convenient to use.
[0048] It should be noted that when the separation box 14, sewage box 12 and garbage can 5 are assembled on the main unit, a sealing structure is provided, which can effectively isolate garbage odors and prevent odors from leaking into the air and polluting the environment.
[0049] The embodiments of the present invention have been described above with reference to the accompanying drawings. However, the present invention is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other modifications under the guidance of the present invention without departing from the spirit and scope of the claims, and all of these modifications are within the scope of protection of the present invention.
Claims
1. A kitchen waste washing station, characterized in that, include: The main unit, which is equipped with a suction motor; A separation box, fixed to the main unit, is equipped with a solid-liquid separation component inside the separation box, and has an air inlet, an air outlet, a sewage outlet, and a waste outlet on the separation box. A cleaning brush, wherein the cleaning brush is connected to the air inlet via a pipe, and the air outlet is connected to the air intake of the suction motor via a pipe; A trash can, which is detachably mounted on the main unit, has an opening that corresponds to a trash outlet. A wastewater tank, which is detachably installed on the main unit, has an opening that corresponds to the wastewater outlet. A clean water tank is detachably installed on the main unit. A first cleaning water path is provided between the clean water tank and the cleaning brush, and a second cleaning water path is provided between the clean water tank and the separation tank. A drying box is fixed to the main unit, and the cleaning brush is detachably placed inside the drying box. The drying box is arranged in correspondence with the exhaust port of the suction motor, and a hot air assembly is provided between the drying box and the exhaust port of the suction motor. The separation box has a first cavity, and the solid-liquid separation assembly includes a solid-liquid separation plate inclinedly disposed in the first cavity. The solid-liquid separation plate is provided with a plurality of filter holes, and the lower end of the solid-liquid separation plate is connected to the waste outlet. The separation box has an movable separation box cover, and a second cavity is formed inside the separation box cover. The separation box cover is provided with air vent one and air vent two. The air inlet of the separation box, the first cavity of the separation box, the air vent one of the separation box cover, the second cavity of the separation box cover, the air vent two of the separation box cover, and the air outlet of the separation box are sequentially connected to form a cyclone air duct.
2. A kitchen waste washing station according to claim 1, characterized in that: A baffle is provided at one end of the air vent near the second inner cavity, and a filter screen is provided inside the air vent. A filter screen is provided inside the air vent.
3. A kitchen waste washing station as claimed in claim 1, characterized in that: The cleaning water circuit includes a water pump and a steam generator. The water pump is used to pump cold water from the clean water tank to the steam generator, and the steam generator is used to heat the cold water into hot water or steam and then deliver it to the cleaning brush.
4. A kitchen waste cleaning station according to claim 3, characterized in that: The pipeline between the water pump and the steam generator is connected to a decomposition liquid assembly, which includes a decomposition liquid tank and a peristaltic pump. The peristaltic pump is used to pump the decomposition solution in the decomposition liquid tank to the pipeline.
5. A kitchen waste cleaning station according to claim 3, characterized in that: The cleaning brush is equipped with a dust inlet for connecting to the air outlet pipe, a spray nozzle for connecting to the cleaning water pipe, a scraper for scraping stains on the kitchen counter, and buttons for controlling the operation of the dust inlet and the spray nozzle.
6. A kitchen waste cleaning station according to claim 1, characterized in that: The second cleaning water circuit includes a water pump and multiple nozzles located on the opening of the separation tank. The water pump is used to pump clean water from the clean water tank to the multiple nozzles, and the multiple nozzles are used to rinse the inner wall of the separation tank with clean water.
7. A kitchen waste cleaning station according to claim 1, characterized in that: The hot air assembly includes a PTC heating element, which heats the cold air discharged from the exhaust port of the suction motor and then delivers it into the drying box.
8. A kitchen waste cleaning station according to claim 1, characterized in that: A movable cover is movably provided on the waste outlet. The movable cover is driven to open or close the waste outlet by a drive assembly. The drive assembly includes a stepper motor, a drive wheel, and a transmission wheel. The transmission wheel is fixedly connected to the rotating shaft of the movable cover. The transmission wheel is meshed with the drive wheel. The drive wheel is fixed to the output end of the stepper motor. The stepper motor is used to drive the drive wheel to rotate forward and backward.