Integrated intelligent cleaning monitoring device
The integrated intelligent cleaning and monitoring equipment has solved the problems of time-consuming and labor-intensive cleaning and disinfection of mops and wiping materials, as well as inadequate supervision. It has achieved efficient cleaning and disinfection and intelligent management, improving user experience and public environmental hygiene and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 谭军
- Filing Date
- 2024-12-22
- Publication Date
- 2026-06-23
AI Technical Summary
In existing technologies, cleaning and disinfecting mops and wiping materials is time-consuming and laborious, resulting in a poor user experience. Furthermore, the lack of effective supervision poses hygiene and safety hazards, and the scattered cleaning tools take up space and affect aesthetics.
Design an integrated intelligent cleaning and monitoring device, including a mop cleaning device, a wiping material cleaning device, a tool disinfection device, an RFID reader, and a control module, to realize intelligent identification, cleaning and disinfection, and usage monitoring of mops and wiping materials.
It achieves efficient cleaning and disinfection of mops and wiping materials, reduces manual operation, improves user experience, and realizes intelligent management of cleaning tools through RFID monitoring, thereby improving public environmental hygiene and safety.
Smart Images

Figure CN122250876A_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of cleaning technology, specifically providing an integrated intelligent cleaning monitoring device. Background Technology
[0002] With continuous social progress and increased awareness of hygiene, the requirements for public environmental sanitation are constantly increasing. Mops are widely used cleaning supplies in public places, mainly consisting of a mop handle, mop board, and mop head. Wiping cloths, towels, and cleaning cloths are also widely used cleaning supplies in public places, and mops and wiping cloths are primarily cleaned manually, air-dried, and managed manually. Brooms, dustpans, squeegees, and cleaning brushes are also widely used cleaning tools in public places, but for a long time, these cleaning tools have lacked timely and effective disinfection measures.
[0003] The existing technology has the following shortcomings: First, mops and wiping cloths are washed manually and air-dried naturally. Because they remain damp for extended periods, bacteria and odors easily grow, making it difficult to guarantee effective cleaning and disinfection, and is also time-consuming and labor-intensive. Second, brooms, dustpans, and cleaning brushes are not effectively disinfected, posing a hygiene and safety hazard. To ensure the cleanliness of mops and wiping cloths, separate mop and wiping cloth cleaning devices are required, necessitating two power outlets and additional power cords, water inlet pipes, and drainage pipes. This not only increases the cost of accessories and installation but also results in the scattered and messy placement of cleaning supplies such as mops, dustpans, brooms, and cleaning brushes, taking up more space, affecting aesthetics, and negatively impacting the user experience. Third, the manual washing and management of mops and wiping cloths makes it difficult for management personnel and the public to effectively supervise violations such as failure to clean, replace, or use them in different areas. Mops and wiping cloths become sources of bacteria in public places, endangering public hygiene and safety, indicating inadequate supervision of their use.
[0004] Accordingly, there is a need in the field for a new cleaning device to solve the above problems. Summary of the Invention In order to solve the above-mentioned technical problems in the prior art, namely the problems of time-consuming and laborious cleaning and disinfection of cleaning tools, poor user experience, and inadequate supervision of cleaning and use, the present invention provides an integrated intelligent cleaning monitoring device.
[0005] The technical solution adopted by the present invention to solve the above-mentioned technical problems is as follows: an integrated intelligent cleaning monitoring device, including a mop and a wiping material, wherein the mop includes a mop cloth, characterized in that the integrated intelligent cleaning monitoring device further includes a cleaning host, a monitoring sub-unit and an RFID reader;
[0006] The cleaning host includes a mop cleaning device, a wiping material cleaning device, a tool disinfection device, a first RFID reader, and a control module;
[0007] The mop cleaning device includes a mop cleaning chamber that can accommodate the mop, and is used to clean the mop cloth, which is equipped with an RFID tag.
[0008] The wiping material cleaning device includes a wiping material cleaning chamber, which can accommodate wiping materials. The wiping material cleaning device is used to clean the wiping materials, and the wiping materials are equipped with RFID tags.
[0009] The tool disinfection device includes a disinfection box and a disinfection module. The disinfection box can hold brooms and other cleaning tools, and the disinfection module disinfects brooms and other cleaning tools.
[0010] The monitoring unit is equipped with a second RFID reader, which is used to monitor the usage of the mop and / or the wiping material.
[0011] In the preferred embodiment of the above-mentioned integrated intelligent cleaning monitoring device, the RFID reader is used to identify and read the RFID tag and transmit the cleaning usage information of the mop and / or the wiping material to the control module.
[0012] In the preferred embodiment of the above-mentioned integrated intelligent cleaning and monitoring equipment, the control module includes a processing module and a storage module for storing executable instructions of the processing module. The storage module stores preset cleaning and usage information of the mop and the wiping material. The control module is used to control the mop cleaning device, the wiping material cleaning device, the tool disinfection device and / or the monitoring unit to execute corresponding work instructions.
[0013] In the preferred technical solution of the above-mentioned integrated intelligent cleaning monitoring equipment, the monitoring unit is set at the monitoring point in the area to be cleaned, and the monitoring unit is equipped with a display, which is used to display the cleaning and / or wiping material cleaning and usage information.
[0014] In the preferred embodiment of the above-mentioned integrated intelligent cleaning and monitoring equipment, the disinfection module includes an ultraviolet disinfection lamp, which is used to disinfect brooms and other cleaning tools.
[0015] In the preferred technical solution of the above-mentioned integrated intelligent cleaning and monitoring equipment, the mop cleaning device includes a mop scraping device, which includes a scraping mechanism and a first drive mechanism.
[0016] The scraping mechanism includes a scraping component, a roller, and a scraping frame. The scraping component and the roller are mounted on the scraping frame. The roller rolls inside the mop cleaning chamber and supports the scraping frame to move inside the mop cleaning chamber. The scraping component is used to scrape and clean the mop.
[0017] The first drive mechanism drives the scraping mechanism to move up and down within the mop cleaning chamber.
[0018] In the preferred technical solution of the above-mentioned integrated intelligent cleaning and monitoring equipment, the wiping material cleaning device includes a vertical wiping material cleaning device, which includes a vertical scrubbing frame, a guide, and a second drive mechanism. The vertical scrubbing frame is disposed in the wiping material cleaning chamber and is used to scrub the wiping material.
[0019] The second drive mechanism drives the vertical scrubbing frame to move back and forth within the cleaning chamber of the wiping material.
[0020] In the preferred technical solution of the above-mentioned integrated intelligent cleaning and monitoring equipment, the mop cleaning device includes a mop spray washing and drying device, and the mop spray washing device includes a washing and drying mechanism and a first drive mechanism.
[0021] The washing and drying mechanism includes a nozzle, an air nozzle, and a washing and drying rack. The nozzle and the air nozzle are arranged on the drying rack. The nozzle is used to spray washing water to clean the mop, and the air nozzle is used to blow hot air to dry the mop.
[0022] The first drive mechanism drives the washing and drying mechanism to move up and down within the mop washing chamber.
[0023] In the preferred embodiment of the above-mentioned integrated intelligent cleaning and monitoring equipment, the wiping device includes a pulsator washing machine.
[0024] In the preferred embodiment of the above-mentioned integrated intelligent cleaning and monitoring equipment, the cleaning host is equipped with a drying module, which is used to dry the mop and / or the wiping material.
[0025] Those skilled in the art will understand that, in the preferred embodiment of the present invention, the cleaning host includes a mop cleaning device, a wiping material cleaning device, a tool disinfection device, an RFID reader, and a control module. The mop and wiping materials are equipped with RFID tags, the RFID reader identifies and reads these tags, the mop cleaning device cleans the mop, the wiping material cleaning device cleans the wiping materials, the tool disinfection device disinfects brooms and other cleaning tools, and the monitoring unit monitors the usage of the mop and wiping materials. This invention intelligently identifies, cleans, disinfects, monitors the cleaning and disinfection processes and usage areas of various cleaning tools, saving time and effort, providing a good user experience, and achieving intelligent management of cleaning tool cleaning, disinfection, and use. Attached Figure Description
[0026] Preferred embodiments of the present invention will now be described with reference to the accompanying drawings, in which:
[0027] Figure 1 This is a schematic diagram of the structure of the mop scraping device and the vertical cleaning device for wiping objects according to Embodiment 1 of the present invention.
[0028] Figure 2 This is a partial cross-sectional view of the mop scraping device according to Embodiment 1 of the present invention;
[0029] Figure 3 This is a schematic diagram of the internal structure of the mop scraping device according to Embodiment 1 of the present invention;
[0030] Figure 4 This is a schematic diagram of the scraping mechanism and driving mechanism according to Embodiment 1 of the present invention;
[0031] Figure 5 This is a schematic diagram of the scraping mechanism according to Embodiment 1 of the present invention;
[0032] Figure 6 This is a schematic diagram of the structure of the mop according to Embodiment 1 of the present invention;
[0033] Figure 7 This is a schematic diagram of the vertical cleaning device for wiping objects according to Embodiment 1 of the present invention;
[0034] Figure 8 This is a schematic diagram of the vertical cleaning device for wiping objects according to Embodiment 1 of the present invention;
[0035] Figure 9 This is a schematic diagram of the internal structure of the vertical cleaning device for wiping objects according to Embodiment 1 of the present invention;
[0036] Figure 10 This is a partial structural cross-sectional view of the vertical cleaning device for wiping objects according to Embodiment 1 of the present invention;
[0037] Figure 11This is a schematic diagram of the insertion and placement of the insert in Embodiment 1 of the present invention;
[0038] Figure 12 This is a schematic diagram of the insertion component according to Embodiment 1 of the present invention;
[0039] Figure 13 This is a schematic diagram of the structure of the wiping object according to Embodiment 1 of the present invention;
[0040] Figure 14 This is a front structural diagram of the vertical washing rack according to Embodiment 1 of the present invention;
[0041] Figure 15 This is a schematic diagram of the back structure of the vertical washing rack according to Embodiment 1 of the present invention;
[0042] Figure 16 This is a schematic diagram of the guide component according to Embodiment 1 of the present invention;
[0043] Figure 17 This is a schematic diagram of the structure of the limiting member according to Embodiment 1 of the present invention;
[0044] Figure 18 This is a partial structural cross-sectional view of the tool disinfection device according to Embodiment 1 of the present invention;
[0045] Figure 19 This is a schematic diagram of the integrated intelligent cleaning monitoring device according to Embodiment 1 of the present invention;
[0046] Figure 20 This is a partial structural cross-sectional view of the monitoring unit according to Embodiment 1 of the present invention;
[0047] Figure 21 This is a schematic diagram of the internal structure of the mop spray washing and drying device according to Embodiment 2 of the present invention;
[0048] Figure 22 This is a schematic diagram of the washing and drying mechanism and the driving mechanism of Embodiment 2 of the present invention;
[0049] Figure 23 This is a schematic diagram of the washing and drying mechanism according to Embodiment 2 of the present invention;
[0050] List of reference numerals in the accompanying drawings of Embodiment 1:
[0051] 10. Mop cleaning box; 11. Upper box body; 12. Opening; 13. Mop cleaning chamber; 14. Positioning seat; 15. Support body;
[0052] 20. Mop; 21. Mop board; 211. Positioning component; 22. Mop cloth; 23. Mop handle;
[0053] 30. Scraping and extrusion mechanism; 31. Scraping and extrusion frame; 33. Scraping and extrusion component; 34. First roller; 35. Limiting assembly; 351. First limiting wheel; 36. Square hole;
[0054] 50. First drive mechanism; 51. First drive motor; 52. First transmission assembly; 521. First lead screw; 522. First lead screw nut; 523. Lifting connecting frame;
[0055] 60. First drying module; 61. First water inlet valve; 62. First drain valve;
[0056] 810. Cleaning chamber for wiping materials; 812. Inlet and outlet;
[0057] 820. Insertion / removal of component; 821. Hanging plate; 822. Wiping material; 823. Cover plate; 8211. Limiting groove; 8212. Hook and loop fastener; 82121. Male side of hook and loop fastener; 82122. Female side of hook and loop fastener;
[0058] 830. Vertical scrubbing rack; 831. Scrubbing board; 832. Connecting plate; 833. Lifting assembly; 834. Scraper strip; 835. Moving assembly; 836. Telescopic assembly; 8321. Slide groove; 8331. Pulley; 8351. Second roller; 8361. Telescopic rod; 8362. Elastic element; 8363. Telescopic base;
[0059] 840. Guide component; 841. First step; 842. Second step;
[0060] 850. Limiting component; 851. Second limiting wheel;
[0061] 860. Second drive mechanism; 861. Second drive motor; 862. Second lead screw; 863. Second lead screw nut; 864. Sliding connector;
[0062] 870. Second drying module; 871. Second water inlet valve; 872. Second drain valve;
[0063] 891. First display;
[0064] 92. Monitoring unit; 921. Monitoring box; 922. Second display; 923. Second RFID reader;
[0065] 96. Tool disinfection device; 961. Disinfection box; 964. Hook; 965. Disinfection module; 966. Disinfection door.
[0066] 9800. Mop scraping device; 9810. Wiping material cleaning device;
[0067] Example 2
[0068] 330. Washing and drying mechanism; 331. Washing and drying rack; 32. Nozzle; 34. First roller; 35. Limiting component; 351. First limiting wheel; 36. Square hole; 37. Air nozzle;
[0069] 41. Cable chain; 42. Water pipe; 43. Air duct;
[0070] 50. First drive mechanism; 51. First drive motor; 52. First transmission assembly; 521. First lead screw; 522. First lead screw nut; 523. Lifting connecting frame;
[0071] 60. First drying module; 61. First water inlet valve. Detailed Implementation
[0072] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be further described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0073] Therefore, those skilled in the art should understand that the embodiments of the present invention provided in the following figures are only for explaining the technical principles of the present invention and are not intended to limit the scope of protection of the present invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.
[0074] It should be noted that in the description of this invention, terms such as "center," "upper," "lower," "left," "right," "inner," and "outer," which indicate direction or positional relationships, are based on the direction or positional relationships shown in the accompanying drawings. These are used merely for ease of description and do not indicate or imply that the device or element must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0075] Furthermore, terms such as "horizontal," "flat," "vertical," and "suspended" do not imply that components must be absolutely horizontal or suspended, but rather that they can be slightly tilted. For example, "horizontal" simply means that its direction is more horizontal than "vertical," and does not mean that the structure must be completely horizontal, but can be slightly tilted.
[0076] Furthermore, it should be noted that, in the description of this invention, unless otherwise explicitly specified and limited, the terms "set," "install," "connect," and "link" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal communication between two components. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.
[0077] Example 1
[0078] like Figure 1 , Figure 3 , Figure 9 and Figure 18-20As shown, the integrated intelligent cleaning monitoring device of Embodiment 1 of the present invention includes a mop, wiping materials, a cleaning host (not shown in the figure), a monitoring sub-unit 92, and an RFID reader (not shown in the figure). The cleaning host is set in the cleaning work room, and several monitoring sub-units 92 are set at different monitoring points in the area to be cleaned. The mop 20 includes a mop cloth 22, and the mop cloth 22 and the wiping material 822 are respectively equipped with RFID tags (not shown in the figure). The cleaning host includes a mop cleaning device (not shown in the figure), a wiping material cleaning device (not shown in the figure), a tool disinfection device 96, a first RFID reader (not shown in the figure), a first display 891, and a control module (not shown in the figure). The control module is electrically connected to the mop cleaning device, the wiping material cleaning device, and the tool disinfection device 96. The three cleaning devices are integrated into one unit, saving accessory costs and installation costs, saving space, and providing a good user experience. The mop cleaning device is used to clean and dry the mop head 22, and the wiping item cleaning device is used to clean and dry the wiping item 822. The tool disinfection device 96 is used to store and disinfect brooms and other cleaning tools. The tool disinfection device 96 includes a disinfection box 961, hooks 964, a disinfection module 965, and a disinfection door 966. The disinfection box 961 is equipped with hooks 964 for hanging cleaning supplies such as brooms, dustpans, squeegees, and cleaning brushes. The disinfection module 965 disinfects cleaning supplies such as brooms, dustpans, squeegees, and cleaning brushes. The monitoring unit 92 is equipped with a second display 922, a second RFID reader 923, and a wireless module (not shown in the figure). The wireless module is wirelessly connected to the control module and / or smart terminal. The second RFID reader 923 is used to monitor the usage area and usage status of the mop head 22 and the wiping item 822. Furthermore, the RFID reader is used to identify and read the RFID tags on the mop head 22 and / or the wiping item 822, thereby monitoring the cleaning and usage status of the mop head 22 and the wiping item 822. The control module is communicatively connected to the first display 91, the second display 922, the first RFID reader, and the second RFID reader 923. The control module includes a processing module (not shown in the figure) and a storage module (not shown in the figure) for storing executable instructions of the processing module. The storage module stores preset cleaning and usage information (ID number, cleaning time, usage time, usage area, usage location, replacement time, and other related management information) of the mop 22 and the wiping material 822.Furthermore, when the mop 22 and wiping material 822 are cleaned and / or used, the RFID reader can automatically and wirelessly identify and read the RFID tags set on the mop 22 and / or wiping material 822 without contact, and transmit the cleaning and usage information of the mop 22 and / or wiping material 822 (ID number, cleaning time, usage time, usage area, usage location, replacement time, etc.) to the control module. The control module compares the relevant information of the mop 22 and / or wiping material 822 to determine whether the mop 22 and / or wiping material 822 are cleaned or used in accordance with the management regulations. The judgment result information and work instructions are transmitted to the first display 91, the second display 922, and the management terminal. The first display 91 and the second display 922 display the judgment result information and work instructions. The control module controls the mop cleaning device and the wiping material cleaning device to execute the corresponding cleaning and disinfection work instructions. It can not only remind cleaning staff to clean and replace the mop 22 and / or wiping material 822 in a timely manner, but also monitor the cleaning and usage of the mop 22 and wiping material 822. This allows managers and the public to effectively supervise the cleaning and usage of the mop 22 and wiping material 822, enabling managers to accurately grasp the cleaning work data of the mop 22 and wiping material 822, realize the intelligent management of the mop 20 and wiping material 822, and improve public environmental hygiene and safety.
[0079] Furthermore, those skilled in the art will understand that RFID tags are electronic tags, which consist of a microchip and a radio antenna. They store unique data and transmit it to an RFID reader. This is a non-contact automatic identification technology that uses radio frequency signals to identify target objects and obtain data information without human intervention. RFID tags are small, have good signal penetration, and can be placed at any suitable location on an item. In this embodiment, the RFID tag can be attached to the surface of the mop 22 or the wiping material 822, or sewn inside the mop 22 or the wiping material 822, or in any other feasible location.
[0080] Furthermore, those skilled in the art will understand that they can establish a communication connection between the control module and the smart terminal as needed. The smart terminal's database stores preset cleaning and usage information (ID number, cleaning time, usage time, usage area, usage location, replacement time, and other specified requirements) for the mop 22 and wiping material 822. When the smart terminal receives and stores the cleaning and usage information of the mop 22 and / or wiping material 822 transmitted by the control module, it retrieves the corresponding relevant information of the mop 22 and / or wiping material 822 from the database for comparison to determine whether it meets the preset requirements. The judgment result and work instructions are then sent to the control module and other management terminals. Other management terminals can be mobile terminal devices such as mobile phones or tablets, or terminal devices such as computers, allowing managers to accurately grasp the cleaning work data of the mop 22 and wiping material 822, and realize intelligent management of the cleaning and usage of the mop 20 and wiping material 822.
[0081] like Figure 20 As shown, the monitoring unit 92 includes a monitoring box 921, a second display 922, a second RFID reader 923, and a wireless module. The second display 922 is located on the outside of the monitoring box 921. When the second RFID reader 923 reads and identifies the ID number in the RFID tag on the mop 22 and / or the wiping object 822, the wireless module transmits the usage information of the mop 22 and / or the wiping object 822 (ID number, usage time, usage area, usage location, etc.) to the control module.
[0082] Furthermore, those skilled in the art will understand that the second RFID reader can be connected to the control module via a cable.
[0083] like Figure 1 , Figure 3 , Figure 9 and Figure 18 As shown, the mop cleaning device in Embodiment 1 of the present invention is specifically a mop scraping device 9800, which is equipped with a first drying module 60. The wiping material cleaning device 9810 is specifically a vertical wiping material cleaning device 9810, which is equipped with a second drying module 870. The disinfection module 965 in Embodiment 1 of the present invention is specifically an ultraviolet disinfection lamp (not shown in the figure), which is used to disinfect cleaning supplies such as brooms, dustpans, squeegees, and cleaning brushes.
[0084] Furthermore, those skilled in the art will understand that the disinfection module 965 can be any other feasible disinfection module. For example, the disinfection module can specifically be an ozone generator. Alternatively, the disinfection module can specifically be a drying module, which can also disinfect cleaning supplies such as brooms, dustpans, squeegees, and cleaning brushes.
[0085] Furthermore, those skilled in the art will understand that, as needed, the integrated intelligent cleaning equipment can be equipped with only one drying module: the drying module is equipped with three hot air output control valves, which are connected to the mop cleaning chamber, the wiping material cleaning chamber and the disinfection box through pipelines respectively. It can also dry and disinfect mops and wiping materials by hot air, and dry and disinfect cleaning supplies such as brooms, dustpans, squeegees and cleaning brushes.
[0086] like Figure 1-2 As shown, the mop scraping device 9800 includes a mop cleaning box 10, an upper box 11, a mop 20, a scraping mechanism 30, a first drive mechanism 50, and a lifting connecting frame 523.
[0087] like Figure 1-2 and Figure 6 As shown, the mop cleaning box 10 is provided with a mop cleaning chamber 13, which can accommodate the mop 20, the scraping mechanism 30, and washing water. The mop 20 includes a mop board 21, a mop cloth 22, and a mop handle 23. The mop cloth 22 is disposed on the bottom surface of the mop board 21, and the mop handle 23 is rotatably connected to the top surface of the mop board 21. A positioning element 211 is provided on the top surface of the mop board 21. An upper box body 11 is provided above the mop cleaning box 10. The upper box body 11 is provided with an inner cavity (not shown in the figure), and a lower cavity opening (not shown in the figure) is provided at the lower part of the inner cavity, which communicates with the mop cleaning chamber 13. Furthermore, the mop cleaning chamber 13 is provided with an opening 12, a positioning seat 14, a support body 15, a water inlet (not shown in the figure), and a drain outlet (not shown in the figure). The opening 12 is located at the top of the mop cleaning chamber 13, and the mop 20 enters and exits the mop cleaning chamber 13 through the opening 12. The positioning seat 14 and the support body 15 are located inside the mop cleaning chamber 13. The positioning seat 14 cooperates with the positioning member 211 to restrict the mop 20 to a set position inside the mop cleaning chamber 13. The support body 15 is fixedly located inside the mop cleaning chamber 13. A first water inlet valve 61 is provided at the water inlet, and a first drain valve 62 is provided at the drain outlet. The first drain valve 62 is used to open or close the drain outlet.
[0088] like Figure 2-5As shown, the scraping mechanism 30 is disposed in the mop cleaning chamber 13. The scraping mechanism 30 includes a scraping frame 31, a scraping component 33, a first roller 34, and a limiting component 35. The scraping component 33 is used to scrape and wash the mop. The first drive mechanism 50 includes a first drive motor 51 and a first transmission component 52. The first transmission component 52 includes a first lead screw 522 and a first lead screw nut 523. The first drive motor 51 is connected to the first lead screw 522, and the first lead screw 522 is threadedly connected to the first lead screw nut 523. The upper end of the lifting connecting frame 523 is connected to the first lead screw nut 523, and the lower end of the lifting connecting frame 523 is connected to the scraping frame 31. The lifting connecting frame 523 moves up and down within the upper housing 11 and the mop cleaning chamber 13. Furthermore, the front end of the scraping frame 31 is provided with a scraping component 33 and a limiting component 35. The two limiting components 35 are respectively located on the left and right sides of the scraping frame 31. The limiting component 35 is provided with a first limiting wheel 351, which abuts against the top surface of the mop board to restrict the mop between the first limiting wheel 351 and the scraping component 33, ensuring that the mop 20 will not shift during the washing process. The rear end of the scraping frame 31 is provided with a square hole 36, through which the support body 15 can pass. Four first rollers 34 are provided inside the square hole 36, abutting against the side of the support body 15, and the first rollers 34 roll on the side of the support body 15. Furthermore, the first drive motor 51 rotates forward and reverse, driving the first lead screw 522 to rotate forward and reverse. The first lead screw 522 drives the first lead screw nut 523 to move up and down, which in turn drives the lifting connecting frame 523 to move up and down, which in turn drives the scraping mechanism 30 to move up and down. During the lifting and lowering movement of the scraping mechanism 30, the first roller 34 rolls on the side of the support body 15, and the scraping component 33 performs mobile scraping and cleaning on the mop 22.
[0089] Furthermore, those skilled in the art will understand that the first drive mechanism 50 can be any other feasible drive mechanism. For example, a drive mechanism consisting of a drive motor, gears, and racks.
[0090] like Figure 3 As shown, the mop cleaning device 9800 is equipped with a first drying module 60. The first drying module 60 includes a first heater (not shown in the figure), a first fan (not shown in the figure), a first temperature sensor (not shown in the figure), and a first humidity sensor (not shown in the figure). The first fan introduces outside air into the mop cleaning chamber 13. The first heater is used to heat the air, so that the air in the mop cleaning chamber 13 forms a dry and hot airflow. The dry and hot airflow evaporates the moisture on the mop 22, thus forming a humid and hot airflow, which is then discharged from the mop cleaning chamber 13, thereby drying and disinfecting the mop 22.
[0091] The following is combined with Figure 1-6 and Figures 19-20The mop scraping device 9800 of Embodiment 1 of the present invention will be described in detail.
[0092] The present invention describes a process for cleaning, drying and disinfecting a mop, as described in Embodiment 1.
[0093] Mop cleaning process:
[0094] The cleaning staff inserts the mop 20 into the mop cleaning chamber 13 through the opening 12, and the mop 20 is confined to a set position. The cleaning program starts, and the first RFID reader automatically and wirelessly identifies and reads the RFID tag set on the mop 22 without contact, and transmits the information of the mop 22 to the control module and / or smart terminal. The control module controls the cleaning device to execute the corresponding cleaning and drying work instructions. The first water inlet valve 61 is opened, the first drive motor 51 rotates forward and reverse, the first drive motor 51 drives the first lead screw 522 to rotate forward and reverse, the first lead screw 522 drives the first lead screw nut 523 to move up and down, the first lead screw nut 523 drives the lifting connecting frame 523 to move up and down, the lifting connecting frame 523 drives the scraping mechanism 30 to move back and forth at a set height, and the scraping component 33 performs mobile scraping and cleaning on the mop 22.
[0095] Mop wringing process:
[0096] When the cleaning process is completed, the first water inlet valve 61 closes and the first drain valve 62 opens. The first drive motor 51 continues to rotate forward and backward. The first drive motor 51 drives the first lead screw 522 to rotate forward and backward. The first lead screw 522 drives the first lead screw nut 523 to move up and down. The first lead screw nut 523 drives the lifting connecting frame 523 to move up and down. The lifting connecting frame 523 drives the scraping mechanism 30 to move up and down repeatedly at a set height. The scraping component 33 performs mobile scraping and dehydration on the mop 22. This process is repeated until the washing water on the mop 22 is squeezed off and discharged from the mop cleaning chamber 13 through the first drain valve 62. The dehydration of the mop 22 is completed.
[0097] Mop drying process:
[0098] The first heater and the first fan on the first drying module 60 are automatically turned on. The first fan introduces outside air into the mop cleaning chamber 13, causing the air in the mop cleaning chamber 13 to form a dry and hot airflow. The dry and hot airflow causes the moisture on the mop 22 to evaporate, thus forming a humid and hot airflow, which is then discharged from the mop cleaning chamber 13, thereby drying and disinfecting the mop 22.
[0099] During the operation of the first heater, if the first temperature sensor detects that the temperature inside the mop cleaning chamber 13 is higher than the preset threshold, the first heater will automatically turn off; if the first temperature sensor detects that the air temperature is lower than the preset threshold, the first heater will automatically turn on.
[0100] When the first humidity sensor detects that the moisture content in the air inside the mop cleaning chamber 13 is lower than a preset threshold, the first fan and the first heater automatically shut off, and the cleaning and drying process is completed.
[0101] Cleaning staff take out the cleaned, dried, and disinfected mop 20 for cleaning. The first RFID reader identifies the RFID tag on the mop 22 to obtain information about the mop 22 leaving the mop cleaning box 10, and transmits this information (ID number, usage time, etc.) to the control module and / or smart terminal. The control module and / or smart terminal receive and store the cleaning and disinfection information of the mop 22, retrieves the corresponding relevant information from the database based on the ID number of the mop 22, compares it to determine whether it meets the cleaning and disinfection requirements, and displays the judgment result and work instructions on the first display 891.
[0102] Using the monitoring process:
[0103] Several monitoring units 92 are set up at different monitoring points in the area to be cleaned. Cleaning staff use mops 22 to clean the area. The second RFID reader 923 on the monitoring unit 92 identifies the RFID tag on the mop 22. The monitoring unit 92 transmits the usage information of the mop 22 (ID number, usage time, usage area, usage location, etc.) to the control module. The control module and / or smart terminal receive and store the usage information of the mop 22, and retrieve the relevant information of the corresponding mop 22 from the database for comparison to determine whether it meets the preset requirements. The judgment result information and work instructions are sent to the cleaning host and other management terminals. The judgment result information and specified information are displayed on the first display 891 and the second display 922 respectively, allowing managers and the public to monitor the cleaning and use of the mop 22 in a timely and effective manner, realizing intelligent management of mop cleaning and disinfection and the usage area, preventing cross-infection events, and improving public environmental hygiene and safety.
[0104] like Figure 8-12 As shown, the vertical cleaning device 9810 for wiping objects includes a cleaning chamber 810, an insert 820, a vertical scrubbing frame 830, a guide 840, a limiting member 850, a telescopic assembly 836, a second drive mechanism 860, and a second drying module 870.
[0105] like Figure 7-8 As shown, the cleaning chamber 810 for wiping items is provided with an inlet and outlet 812, which are located at the top of the cleaning chamber 810 for wiping items.
[0106] like Figure 8-11As shown, a vertical scrubbing rack 830, a guide member 840, a limiting member 850, a telescopic component 836, and a second drive mechanism 860 are disposed within the cleaning chamber 810. The guide member 840 and the limiting member 850 are respectively disposed on opposite side walls inside the cleaning chamber 810. The telescopic component 836 is disposed on the side of the vertical scrubbing rack 830. The second drive mechanism 860 is slidably connected to the vertical scrubbing rack 830.
[0107] like Figure 14-15 As shown, the vertical scrubbing rack 830 includes a scrubbing plate 831, a connecting plate 832, a lifting assembly 833, and a moving assembly 835. Further, the connecting plate 832 is installed on one side of the scrubbing plate 831, and a sliding groove 321 is provided on the connecting plate 832. Further, the scrubbing plate 831 has continuously spaced raised scraping strips 834 on the side facing the object to be wiped 822, and the raised scraping strips 834 contact the object to be wiped 822. Further, two rows of lifting assemblies 833 are provided on the side of the scrubbing plate 831 facing the guide member 840, and the lifting assemblies 833 are provided with pulleys 8331 that contact the inner wall of the object cleaning chamber 810. Further, a moving assembly 835 is provided at the lower part of the scrubbing plate 831, and the rollers 351 on the moving assembly 835 contact the bottom of the object cleaning chamber 810.
[0108] Furthermore, those skilled in the art will understand that the vertical scrubbing frame 830 moves back and forth a distance greater than the distance between the two scraping strips 834 along the length of the object being wiped. This allows the vertical scrubbing frame 830 to scrub and squeeze the object being wiped 822 more thoroughly, improving the cleaning effect.
[0109] Furthermore, those skilled in the art will understand that the scrubbing board 831 can be any other feasible scrubbing board. For example, a scrubbing frame with raised ridges and grooves.
[0110] Furthermore, those skilled in the art will understand that the lifting assembly 833 can be any other feasible lifting assembly. For example, a lifting assembly equipped with ball bearings.
[0111] Furthermore, those skilled in the art will understand that the moving component 835 can be any other feasible moving component. For example, a moving component equipped with balls.
[0112] like Figure 10-11 , Figure 16As shown, the guide member 840 is provided with a first-level step 841 and a second-level step 842 of different heights. The two rows of guide members 840 are protruding from the side wall inside the wiping material cleaning chamber 810. The guide members 840 are correspondingly configured with the lifting assembly 833. The pulley 8331 on the lifting assembly 833 moves up the first-level step 841 or the second-level step 842, causing the vertical scrubbing rack 830 to move towards the wiping material 822. The scraping strip 834 on the vertical scrubbing rack 830 applies pressure to the wiping material 822 on the insert 820.
[0113] Furthermore, those skilled in the art will understand that the guide 840 can be configured as a multi-level step at different heights. When the lifting assembly 833 of the vertical scrubbing rack 830 moves to a step at a different height, the scraping strip 834 on the vertical scrubbing rack 830 applies different intensities of squeezing force to the wiping material 822 on the insert 820, so that the wiping material 822 obtains different intensities of scrubbing or dehydration effects, providing cleaning personnel with wiping materials 822 with different scrubbing intensities or different humidity, thereby improving the user experience.
[0114] Furthermore, those skilled in the art will understand that the guide 840 can be any other feasible guide. For example, an outwardly recessed guide can be provided on the inner wall of the wiping chamber 810.
[0115] like Figure 11 , Figure 17 As shown, the limiting member 850 is provided with a second limiting wheel 851. The limiting member 850 is installed on the inner side wall of the wiping cleaning cavity 810, and the second limiting wheel 851 contacts the limiting groove 8211 on the insert member 820.
[0116] Furthermore, those skilled in the art will understand that the limiting member 850 can be any other feasible limiting member. For example, a limiting member with ball bearings or a limiting member without limiting wheels.
[0117] like Figure 11-13 As shown, the insert 820 is provided with a cover plate 823 and a hanging plate 821. The cover plate 823 can close the inlet and outlet 812. The hanging plate 821 is located under the cover plate 823. One side of the hanging plate 821 is provided with a limiting groove 8211. The other side of the hanging plate 821 is provided with a hook and loop fastener female surface 82122, which can be detachably and hook and loop fastener connected to the hook and loop fastener male surface 82121 on the wiping object 822. The hook and loop fastener female surface 82122 and the hook and loop fastener male surface 82121 constitute the hook and loop fastener 8212.
[0118] Furthermore, those skilled in the art will understand that the insert 820 and the wiping material 822 can be connected in any feasible detachable manner. For example, the insert 820 may be provided with a clip for detachable connection with the wiping material 822.
[0119] like Figure 8 , Figure 11 As shown, the hanging plate 821 and the wiping material 822 on the insert 820 are inserted into the set position in the wiping material cleaning chamber 810 through the inlet and outlet 812. The wiping material 822 on one side of the insert 820 contacts the scraping strip 834 on the vertical scrubbing rack 830, and the limiting groove 8211 on the other side of the insert 820 contacts the second limiting wheel 851 on the limiting member 850. The scraping strip 834 and the second limiting wheel 851 cooperate to restrict the hanging plate 821 and the wiping material 822 in the set position in the wiping material cleaning chamber 810 so that the scraping strip 834 can scrub and squeeze the wiping material 822.
[0120] Furthermore, those skilled in the art will understand that the mounting plate 821 on the insert 820 and the limiting member 850 can be configured in any feasible corresponding manner. For example, the mounting plate 821 may have a limiting protrusion that engages with the groove on the limiting member 850.
[0121] like Figure 9 , Figure 11 As shown, the telescopic assembly 836 includes a telescopic rod 8361, an elastic element 8362, and a telescopic base 8363. The telescopic base 8363 and the scraping strip 834 are installed on the same side of the vertical scrubbing rack 830. The telescopic rod 8361 contacts the inner wall of the wiping material cleaning cavity 810. The elastic element 8362 expands the gap between the vertical scrubbing rack 830 and the limiting member 850 to accommodate the side insertion of the insertion member 820.
[0122] Furthermore, those skilled in the art will understand that the telescopic component 836 can be any other feasible telescopic component. For example, a telescopic component equipped with pulleys or a telescopic component equipped with ball bearings.
[0123] Furthermore, those skilled in the art will understand that the telescopic assembly 836 can be installed at any feasible location within the wiping chamber 810. For example, the telescopic base 8363 is installed on the inner wall of the wiping chamber 810.
[0124] like Figure 9 As shown, the second drive mechanism 860 includes a second drive motor 861, a second lead screw 862, a second lead screw nut 863, and a sliding connector 864. The second drive motor 861 is connected to the second lead screw 862, the second lead screw 862 meshes with the second lead screw nut 863, and the second lead screw nut 863 is connected to the sliding connector 864. When the second drive motor 861 drives the second lead screw 862 to rotate, the second lead screw nut 863 drives the sliding connector 864 to move laterally, and the sliding connector 864 drives the vertical scrubbing frame 830 to reciprocate along the length of the object to be wiped 822. The vertical scrubbing frame 830 reciprocates and scrubs the object to be wiped 822.
[0125] like Figure 9 , Figure 14 As shown, the sliding connector 864 on the second drive mechanism 860 passes through the slide groove 321 on the connecting plate 832 and is slidably connected to the connecting plate 832. The sliding connector 864 on the second drive mechanism 860 can slide within the slide groove 321.
[0126] Furthermore, those skilled in the art will understand that the second drive mechanism 860 can be any other feasible drive mechanism. For example, a drive mechanism consisting of a drive motor, gears, racks, and sliding connectors.
[0127] Furthermore, those skilled in the art will understand that the sliding connection between the second drive mechanism 860 and the vertical washing rack 830 can be achieved using any other feasible sliding connection method. For example, the vertical washing rack 830 and the second drive mechanism 860 can be slidably connected via a sliding connecting rod device.
[0128] like Figure 7-9 As shown, the vertical cleaning device 9810 for wiping items is equipped with a second water inlet valve 871, a second drain valve 872, and a second drying module 870. Further, the second drying module 870 includes a second heater (not shown in the figure), a second fan (not shown in the figure), a second temperature sensor (not shown in the figure), and a second humidity sensor (not shown in the figure). The second fan introduces outside air into the wiping item cleaning chamber 810, and the second heater heats the air, creating a dry, hot airflow within the wiping item cleaning chamber 810. This dry, hot airflow evaporates moisture from the wiping item 822, thus creating a humid, hot airflow, which is then discharged from the wiping item cleaning chamber 810, thereby drying and disinfecting the wiping item 822.
[0129] In addition, those skilled in the art can add an ultraviolet disinfection lamp to the wiping chamber 810 as needed to disinfect and sterilize the wiping material 822.
[0130] The following is combined with Figure 7-17 and Figures 19-20 The vertical cleaning device 9810 for wiping objects according to Embodiment 1 of the present invention will be further described.
[0131] The cleaning staff fastens the female side 82122 of the hanging plate 821 to the male side 82121 of the wiping item 822, and then inserts the hanging plate 821 and the wiping item 822 into the wiping item cleaning chamber 810 through the inlet / outlet 812. At this time, the wiping item 822 on one side of the insert 820 contacts the scraping strip 834 on the vertical scrubbing rack 830, and the limiting groove 8211 on the other side of the insert 820 contacts the second limiting wheel 851 on the limiting member 850. The scraping strip 834 and the second limiting wheel 851 restrict the hanging plate 821 and the wiping item 822 to a set position in the wiping item cleaning chamber 810, and the cover plate 823 on the insert 820 closes the inlet / outlet 812.
[0132] Then, the cleaning staff starts the cleaning and dehydration program for the wipes. The first RFID reader automatically and wirelessly identifies and reads the RFID tag set on the wipes 22 without contact, and transmits the information of the wipes 22 to the control module and / or smart terminal. The control module controls the cleaning device to execute the corresponding cleaning and drying work instructions. The second drain valve 872 closes, the second water inlet valve 871 opens automatically, and washing water is injected into the wipe cleaning chamber 810. When the washing water reaches the preset water level, the second water inlet valve 871 closes.
[0133] First stage of scrubbing: The second drive motor 861 rotates forward, driving the second lead screw 862 to rotate forward. The second lead screw nut 863 drives the sliding connector 864 to move laterally. The sliding connector 864 drives the vertical scrubbing frame 830 to move along the length of the wiping object 822. When the pulley 8331 on the lifting assembly 833 moves onto the first step 841, the elastic element 8362 on the telescopic assembly 836 is compressed. The scraping strip 834 on the vertical scrubbing frame 830 applies pressure to the wiping object 822. The vertical scrubbing frame 830 continues to move along the length of the wiping object 822, and the scraping strip 834 scrubs the wiping object 822 on the insertion part 820. When the pulley 8331 on the lifting assembly 833 moves to the end of the first step 841, the second drive motor 861 reverses, driving the vertical scrubbing frame 830 to move in the opposite direction, and the scraping strip 834 scrubs the wiping object 822 in the opposite direction. This process is repeated until the dirt on the wiping material 822 is scraped off into the wiping material cleaning chamber 810, completing the first stage of scrubbing.
[0134] Second stage of scrubbing: At this time, the pulley 8331 on the lifting assembly 833 moves to the end of the first step 841, the second drive motor 861 continues to rotate forward, and the vertical scrubbing frame 830 moves along the length of the wiping object 822. When the pulley 8331 on the lifting assembly 833 moves up to the second step 842, the elastic element 8362 on the telescopic assembly 836 is compressed again, and the scraping strip 834 applies greater pressure to the wiping object 822. The vertical scrubbing frame 830 continues to move along the length of the wiping object 822, and the scraping strip 834 scrubs the wiping object 822 with greater force. When the pulley 8331 on the lifting assembly 833 moves to the end of the second step 842, the second drive motor 861 reverses, driving the vertical scrubbing frame 830 to move in the opposite direction, and the scraping strip 834 scrubs the wiping object 822 in the opposite direction. This process is repeated until the dirt on the wiping material 822 is scraped off into the wiping material cleaning chamber 810, completing the second stage of scrubbing.
[0135] Preferably, the vertical scrubbing rack 830 moves along the length of the object being wiped 822. When the pulley 8331 on the lifting assembly 833 moves from the starting position to the end of the first step 841, the second drive motor 861 continues to rotate forward. When the pulley 8331 on the lifting assembly 833 moves to the end of the second step 842, the second drive motor 861 reverses direction, driving the vertical scrubbing rack 830 to move in the opposite direction, and the pulley 8331 on the lifting assembly 833 moves back to the starting position. This process is repeated, and the scrubbing strip 834 applies continuous and varying pressure to the object being wiped 822, which helps to improve the cleaning effect.
[0136] First stage of dehydration: The second drain valve 872 opens, and the washing water is discharged from the cleaning chamber 810. At this time, the pulley 8331 on the lifting assembly 833 moves to the starting position, the second drive motor 861 rotates forward, and the vertical scrubbing rack 830 moves along the length of the wiped item 822. When the pulley 8331 on the lifting assembly 833 moves up the first step 841, the elastic element 8362 on the telescopic assembly 836 is compressed, and the scraping strip 834 applies pressure to the wiped item 822. The vertical scrubbing rack 830 continues to move along the length of the wiped item 822, and the scraping strip 834 squeezes and dehydrates the wiped item 822 on the insertion part 820. When the pulley 8331 on the lifting assembly 833 moves from the starting position to the end of the first step 841, the second drive motor 861 reverses, driving the vertical scrubbing rack 830 to move in the opposite direction, and the scraping strip 834 squeezes and dehydrates the wiped item 822 in the opposite direction. This process is repeated until the washing water on the wiping material 822 is squeezed off and discharged from the wiping material cleaning chamber 810 through the second drain valve 872, thus completing the first stage of dehydration.
[0137] Second stage of dehydration: At this time, the pulley 8331 on the lifting assembly 833 moves to the end of the first step 841, the second drive motor 861 continues to rotate forward, the vertical scrubbing rack 830 moves along the length of the wiped item 822, the pulley 8331 on the lifting assembly 833 moves onto the second step 842, the elastic element 8362 on the telescopic assembly 836 is compressed again, the scraping strip 834 applies greater squeezing force to the wiped item 822, the vertical scrubbing rack 830 continues to move along the length of the wiped item 822, and the scraping strip 834 applies greater squeezing force to the wiped item 822 for dehydration; when the pulley 8331 on the lifting assembly 833 moves to the end of the second step 842, the second drive motor 861 reverses, driving the vertical scrubbing rack 830 to move in the opposite direction, and the scraping strip 834 applies reverse squeezing force to the wiped item 822 for dehydration. This process is repeated until the washing water on the wiping material 822 is squeezed off and discharged from the wiping material cleaning chamber 810 through the second drain valve 872, thus completing the second stage of dehydration.
[0138] Preferably, the vertical scrubbing rack 830 moves along the length of the object being wiped 822. When the pulley 8331 on the lifting assembly 833 moves from the starting position to the end of the first step 841, the second drive motor 861 continues to rotate forward. When the pulley 8331 on the lifting assembly 833 continues to move to the end of the second step 842, the second drive motor 861 reverses direction, driving the vertical scrubbing rack 830 to move in the opposite direction, and the pulley 8331 on the lifting assembly 833 moves back to the starting position. This process is repeated, and the scraping strip 834 applies continuous and varying pressure to the object being wiped 822 for dehydration, which helps to improve the dehydration effect.
[0139] The second drive motor 861 reverses, and the vertical washing rack 830 moves to the starting position. The elastic element 8362 on the telescopic assembly 836 opens the gap between the vertical washing rack 830 and the limiting element 850 to allow the hanging plate 821 and the wiping item 822 to enter and exit. At this time, the washing water in the wiping item cleaning chamber 810 has been drained, the second drain valve 872 is closed, and the washing and dehydration process is completed.
[0140] Furthermore, those skilled in the art will understand that they can set the number of cycles for washing and dehydration according to actual needs in order to achieve better washing and dehydration results.
[0141] Drying and disinfection procedure for wipes:
[0142] The second heater and the second fan on the second drying module 870 are automatically turned on, so that the air in the wiping material cleaning chamber 810 forms a dry and hot airflow. The dry and hot airflow evaporates the moisture on the wiping material 822, thus forming a humid and hot airflow, which is then discharged from the wiping material cleaning chamber 810, thereby drying and disinfecting the wiping material 822.
[0143] During the operation of the second heater, if the second temperature sensor detects that the temperature inside the cleaning chamber 810 is higher than the preset threshold, the second heater will automatically turn off; if the second temperature sensor detects that the air temperature is lower than the preset threshold, the second heater will automatically turn on.
[0144] When the second humidity sensor detects that the moisture content in the air inside the cleaning chamber 810 is lower than a preset threshold, the second fan and the second heater automatically shut down, and the cleaning and drying process is completed.
[0145] Cleaning staff first remove the insert 820 from the inlet / outlet 812 of the wiping material cleaning chamber 810, then separate the Velcro female side 82122 on the hanging plate 821 from the Velcro male side 82121 on the wiping material 822, and remove the cleaned and squeezed-dry wiping material 822 for cleaning work. The first RFID reader identifies the RFID tag on the wiping material 22 to obtain the retrieval information of the wiping material 22 leaving the wiping material cleaning chamber 810, and transmits the retrieval information (ID number, retrieval time, etc.) to the control module and / or smart terminal. The control module and / or smart terminal receive and store the cleaning and disinfection information of the wiping material 22, and retrieve the corresponding relevant information from the database according to the ID number of the wiping material 22 for comparison to determine whether it meets the cleaning and disinfection requirements. The judgment result and work instructions are displayed on the first display 891.
[0146] Using the monitoring process:
[0147] Several monitoring units 92 are set up at different monitoring points in the area to be cleaned. Cleaning staff use wiping cloths 822 to clean the area. The second RFID reader 923 on the monitoring unit 92 identifies the RFID tag on the wiping cloth 822. The monitoring unit 92 transmits the usage information of the wiping cloth 822 (ID number, usage time, usage area, usage location, etc.) to the control module. The control module and / or smart terminal receive and store the usage information of the wiping cloth 822, and retrieve the relevant information of the corresponding wiping cloth 822 from the database for comparison to determine whether it meets the preset requirements. The judgment result information and work instructions are sent to the cleaning host and other management terminals. The judgment result information and specified information are displayed on the first display 891 and the second display 922 respectively, allowing managers and the public to monitor the cleaning and use of the wiping cloth 822 in a timely and effective manner, realizing intelligent management of the cleaning and disinfection of the wiping cloth 822 and the usage area, preventing cross-infection events, and improving public environmental hygiene and safety.
[0148] Example 2
[0149] like Figure 21-22As shown, the difference between Embodiment 2 and Embodiment 1 is that the mop cleaning device in Embodiment 2 is specifically a mop spray washing and drying device (not shown in the figure). The mop spray washing device does not use a scraping mechanism, but a washing and drying mechanism 330. In addition, a drag chain 41, a water pipe 42 and an air pipe 43 are added. The rest of the working method is the same as that in Embodiment 1.
[0150] like Figure 21-22 As shown, the flexible water pipe 42 and air pipe 43 are installed inside the flexible cable chain 41. One end of the water pipe 42 is connected to the first water inlet valve 61, and the other end of the water pipe 42 is connected to the nozzle 32. One end of the air pipe 43 is connected to the first drying module 60, and the other end of the air pipe 43 is connected to the air nozzle 37. The hot air generated by the first drying module 60 is blown out through the air nozzle 37 to dry and disinfect the mop. One end of the cable chain 41 is fixedly connected to the fixing seat of the first water inlet valve 61 (not shown in the figure), and the other end of the cable chain 41 is fixedly connected to the upper end of the lifting connecting frame 523. The cable chain 41 bends and deforms as the lifting connecting frame 523 rises and falls, and the water pipe 42 and air pipe 43 bend and deform along with the cable chain 41.
[0151] like Figure 21-23As shown, the washing and drying mechanism 330 includes a washing and drying rack 331, a nozzle 32, a first roller 34, a limiting component 35, and an air nozzle 37. The nozzle 32 is used to spray washing water to wash the mop, and the air nozzle 39 is used to blow hot air to dry and disinfect the mop. The first drive mechanism 50 includes a first drive motor 51 and a first transmission component 52. The first transmission component 52 includes a first lead screw 522 and a first lead screw nut 523. The first drive motor 51 is connected to the first lead screw 522, and the first lead screw 522 is threadedly connected to the first lead screw nut 523. The upper end of the lifting connecting frame 523 is connected to the first lead screw nut 523, and the lower end of the lifting connecting frame 523 is connected to the washing and drying rack 331. Furthermore, the front end of the washer-dryer rack 331 is provided with a nozzle 32, a limiting component 35, and an air nozzle 37. Two limiting components 35 are respectively located on the left and right sides of the washer-dryer rack 331. Each limiting component 35 is equipped with a first limiting wheel 351, which abuts against the top surface of the mop handle to confine the mop between the first limiting wheel 351 and the nozzle 32. The rear end of the washer-dryer rack 331 is provided with a square hole 36 through which the support body 15 can pass. Four first rollers 34 are provided inside the square hole 36, abutting against the side of the support body 15, and rolling on the side of the support body 15. Furthermore, the first drive motor 51 rotates in both directions, driving the first lead screw 522 to rotate in both directions. The first lead screw 522 drives the first lead screw nut 523 to move up and down, which in turn drives the lifting connecting frame 523 to move up and down, which in turn drives the washer-dryer mechanism 330 to move up and down. During the lifting and moving of the washing and drying mechanism 330, the first roller 34 rolls on the side of the support body 15, the drag chain 41 bends and deforms as the lifting connecting frame 523 rises and falls, the water pipe 42 bends and deforms as the drag chain 41 rises and falls, the nozzle 32 sprays washing water to clean the mop, and the air nozzle 37 blows hot air to dry and disinfect the mop.
[0152] Example 3
[0153] The difference between Embodiment 3 and Embodiment 1 is that the structures of the wiping and cleaning devices in the two embodiments are different. The wiping and cleaning device in Embodiment 3 of the present invention is a pulsator washing machine, and the rest of the working method is the same as that in Embodiment 1.
[0154] Furthermore, those skilled in the art will understand that the wiping device can be any other feasible wiping device. For example, the wiping device is a drum washing machine.
[0155] As described above, this invention intelligently identifies, cleans, disinfects, and monitors the cleaning, disinfection, and usage areas of various cleaning tools. This not only saves time, effort, and space, and provides a good user experience, but also enables intelligent management of mop and wiping material cleaning and usage.
[0156] Finally, it should be noted that while the preferred embodiments of the present invention have been described above in conjunction with the accompanying drawings, it will be readily understood by those skilled in the art that the scope of protection of the present invention is obviously not limited to these specific embodiments. Without departing from the principles of the present invention, those skilled in the art can make equivalent changes or substitutions to the relevant technical features, and the technical solutions resulting from these changes or substitutions will all fall within the scope of protection of the present invention.
Claims
1. An integrated intelligent cleaning and monitoring device, comprising a mop and a wiping material, wherein the mop includes a mop cloth, characterized in that, The integrated intelligent cleaning monitoring equipment also includes a cleaning host, a monitoring sub-unit, and an RFID reader; The cleaning host includes a mop cleaning device, a wiping material cleaning device, a tool disinfection device, a first RFID reader, and a control module; The mop cleaning device includes a mop cleaning chamber that can accommodate the mop cloth. The mop cleaning device is used to clean the mop cloth, and the mop cloth is equipped with an RFID tag. The wiping material cleaning device includes a wiping material cleaning chamber, which can accommodate wiping materials. The wiping material cleaning device is used to clean the wiping materials, and the wiping materials are equipped with RFID tags. The tool disinfection device includes a disinfection box and a disinfection module. The disinfection box can hold brooms and other cleaning tools, and the disinfection module disinfects brooms and other cleaning tools. The monitoring unit is equipped with a second RFID reader, which is used to monitor the usage of the mop and / or the wiping material.
2. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The RFID reader is used to identify and read the RFID tag and transmit the cleaning and usage information of the mop and / or the wiping material to the control module.
3. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The control module includes a processing module and a storage module for storing executable instructions of the processing module. The storage module stores preset cleaning and usage information of the mop and the wiping material. The control module is used to control the mop cleaning device, the wiping material cleaning device, the tool disinfection device and / or the monitoring unit to execute corresponding work instructions.
4. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The monitoring unit is installed at the monitoring point in the area to be cleaned. The monitoring unit is equipped with a display, which is used to display the cleaning and usage information of the mop and / or the wiping material.
5. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The disinfection module includes an ultraviolet disinfection lamp, which is used to disinfect brooms and other cleaning tools.
6. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The mop cleaning device includes a mop scraping device, which includes a scraping mechanism and a first drive mechanism. The scraping mechanism includes a scraping component, a roller, and a scraping frame. The scraping component and the roller are mounted on the scraping frame. The roller rolls inside the mop cleaning chamber and supports the scraping frame to move inside the mop cleaning chamber. The scraping component is used to scrape and clean the mop. The first drive mechanism drives the scraping mechanism to move up and down within the mop cleaning chamber.
7. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The wiping material cleaning device includes a vertical wiping material cleaning device, which includes a vertical scrubbing frame, a guide, and a second drive mechanism. The vertical scrubbing frame is disposed in the wiping material cleaning chamber and is used to scrub the wiping material. The second drive mechanism drives the vertical scrubbing frame to move back and forth within the cleaning chamber of the wiping material.
8. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The mop cleaning device includes a mop spray washing and drying device, and the mop spray washing device includes a washing and drying mechanism and a first drive mechanism. The washing and drying mechanism includes a nozzle, an air nozzle, and a washing and drying rack. The nozzle and the air nozzle are arranged on the drying rack. The nozzle is used to spray washing water to clean the mop, and the air nozzle is used to blow hot air to dry the mop. The first drive mechanism drives the washing and drying mechanism to move up and down within the mop washing chamber.
9. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The cleaning device for wiping items includes a top-loading washing machine.
10. The integrated intelligent cleaning monitoring equipment according to claim 1, characterized in that, The cleaning host is equipped with a drying module, which is used to dry the mop and / or the wiping material.