CN215687498U - Electric mop device - Google Patents

Abstract

The utility model discloses an electric mop device, which comprises an operating rod, a cleaning barrel and a system, wherein a remote control handle is fixed at the top of the operating rod through a sleeve, a starting button is fixed at the top of the remote control handle through an inlay, a water spraying button is fixed at the remote control handle through a sleeve, a mop host is fixed at the bottom of the operating rod through a sleeve, a water storage box A is fixed at the top end of the mop host through a sleeve, an indicator lamp is fixed at the left side of the top of the mop host through a sleeve, rotary trays are fixed at the left side and the right side of the bottom of the mop host through a sleeve, cleaning cloth is fixed at the bottom of each rotary tray through a sleeve, a water spraying device is fixed in the middle of the left side of the mop host through a sleeve, a deep ultraviolet sterilizing lamp is fixed at the left side of the bottom of the mop host through an inlay, and a mop bucket-in trigger A is arranged at the right side of the deep ultraviolet sterilizing lamp and is fixed on the mop host through a sleeve; the electric wringing machine has the advantages of electric wringing, manpower and material resource saving and clean cleaning.

Description

Electric mop device

Technical Field

The utility model relates to the technical field of intelligent household cleaning, in particular to an electric mop device.

Background

Mop, also known as mop cloth, refers to a long-handled cleaning tool for scrubbing the floor, and also refers to a long-handled cleaning tool in general. The mop should be derived from a wipe. Most conventional mops are constructed by bundling a bundle of cloth strips at one end of a long wooden pole. Simple and cheap. The working head is changed into a bundle of cloth strips from the cloth smearing block.

The existing mop needs manual mopping and manual wringing, the manual operation is labor-consuming, and a large amount of water is needed to clean the mop cloth, so that the manpower and material resources are wasted;

after the existing electric mop is washed, the mop cloth needs to be detached and cleaned manually, and the existing electric mop is likely to be unclean in cleaning and is greatly reduced in convenience.

In the prior art, manual wringing wastes manpower and material resources, and the cleaning is not clean, so an electric mop device is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electric mop device which has the advantages of electric wringing, manpower and material resource saving and clean cleaning, and solves the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: an electric mop device comprises an operating rod, a cleaning barrel and a system, wherein a remote control handle is fixed at the top of the operating rod through a sleeve, a starting button is fixed at the top of the remote control handle through an inlay, a water spraying button is fixed at the remote control handle through a sleeve, a mop host is fixed at the bottom of the operating rod through a sleeve, a water storage box A is fixed at the top end of the mop host through a sleeve, an indicator lamp is fixed at the left side of the top of the mop host through a sleeve, rotary trays are fixed at the left side and the right side of the bottom of the mop host through a sleeve, cleaning cloth is fixed at the bottom of each rotary tray through a sleeve, a water spraying device is fixed in the middle of the left side of the mop host through a sleeve, a deep ultraviolet germicidal lamp is fixed at the left side of the bottom of the mop host through an inlay, a mop bucket-in trigger A is arranged at the right side of the deep ultraviolet germicidal lamp and is embedded and fixed on the mop host, a mop bucket entering detection sensor A is fixedly embedded on the right side of the bottom of the mop host, and a charging interface A is arranged on the right side of the mop bucket entering detection sensor A and is arranged on the mop host;

the cleaning bucket top right side is fixed with water storage box B through the suit, water storage box B left side is equipped with the interface B that charges and sets up on cleaning bucket, cleaning bucket top is fixed with through the suit and washs the dish, it has seted up the washing nozzle to wash a set top, it all is fixed with through the suit and washs the spur to wash a set top, it is fixed with the mop through the suit and goes into bucket trigger B to wash a set right-hand member, it is fixed with mop income bucket detection sensor B through the suit to wash a set top left side, it is fixed with drain box installation state detection sensor through the suit to wash a set left side front portion, it has drain box water level detection sensor to wash through the screw fixation in the middle of a set left side, cleaning bucket front portion is fixed with the pronunciation player through the suit, cleaning bucket left side is fixed with the drain box through the suit.

Preferably, the water level detection sensor of the drainage tank, the mop bucket detection sensor A and the mop bucket detection sensor B all adopt Hall sensors.

Preferably, the water spraying device is connected with the water storage tank A through a pipeline in a sleeved mode.

Preferably, the remote control handle system comprises a start/stop button, a water spray button, a microprocessor and a Sub-1G transmitter, wherein the microprocessor is connected with the start/stop button, the water spray button and the Sub-1G transmitter through cables.

Preferably, the mop host system comprises a power supply system, a microprocessor, a Sub-1G emitter, an indicator lamp, charge management, a Hall sensor, a motor drive, a motor, a gain amplifier, a current sampling resistor, a water pump drive, a water pump, a UVC lamp bead drive and a UVC lamp bead, wherein the microprocessor is connected with the power supply system, the Sub-1G emitter, the indicator lamp, the charge management, the Hall sensor, the motor drive, the gain amplifier, the water pump drive and the UVC lamp bead drive through cables, the motor drive is connected with the motor and the current sampling resistor through cables, the water pump drive is connected with the water pump and the current sampling resistor through cables, the current sampling resistor is connected with the gain amplifier through cables, and the UVC lamp bead drive is connected with the UVC lamp bead through cables.

Preferably, the cleaning barrel system comprises a power supply system, a microprocessor, a WI-FI/Bluetooth, a Sub-1G emitter, a mop barrel entering detection sensor B, a water level detection sensor of a drainage tank, a drainage tank installation state detection sensor, a gain amplifier, a power switch, a gain amplifier, a water pump driver, a voice chip, a current sampling resistor, a charging current output, a current sampling resistor, a water pump and a voice player, the microprocessor is connected with the power supply system, the WI-FI/Bluetooth, the Sub-1G emitter, the mop barrel entering detection sensor B, the drainage tank water level detection sensor, the drainage tank installation state detection sensor, the gain amplifier, the power switch, the gain amplifier, the water pump driver and the voice chip through cables, the power switch is connected with the charging current output, the current sampling resistor and the gain amplifier through cables, the water pump drive is connected with the water pump, the current sampling resistor and the gain amplifier through cables, and the voice chip is connected with the voice player through cables.

Preferably, the cleaning bucket networking system comprises a gateway, a cleaning bucket, a cloud server, mobile equipment and application software, wherein the cloud server is connected with the gateway and the mobile equipment through cables, the gateway cleans the cleaning bucket through cables, and the mobile equipment is connected with the application software through cables.

Compared with the prior art, the utility model has the following beneficial effects:

1. a mop device is characterized in that a mop host machine still starts a motor to work for twenty seconds in a forward and reverse switching mode, and cleaning cloth is watered and dried through forward and reverse switching and high-speed rotation; meanwhile, the cleaning cloth is scraped by the cleaning bone spurs on the cleaning disc, so that the dehydration of the cleaning cloth is accelerated.

2. The utility model provides an electric mop device, the motor passes through drive mechanism and drives the rotary disk and rotate, makes the actuation produce the friction with ground in the cleaning cloth on rotatory tray to reach the purpose of cleaing away the ground dirt, under the mode, open the pilot lamp simultaneously and instruct operating condition, under the mode, open the UVC lamp simultaneously, disinfect the disinfection to ground, detect that the mop host computer lifts off ground more than one second, close the UVC lamp at once, in order to avoid dark sterilamp to make the injury to the human eye.

Drawings

FIG. 1 is an overall schematic view of a power mop apparatus of the present invention;

FIG. 2 is a top, left side elevational view of an overall power mop assembly of the present invention;

FIG. 3 is a functional distribution diagram of the bottom of a mop main body of the electric mop device of the present invention;

FIG. 4 is a schematic view of a cleaning bucket of an electric mop apparatus of the present invention;

FIG. 5 is a schematic block diagram of a remote control handle circuit of an electric mop apparatus of the present invention;

FIG. 6 is a schematic block diagram of a mop host control circuit of an electric mop apparatus of the present invention;

FIG. 7 is a schematic block diagram of a cleaning bucket control circuit of an electric mop apparatus of the present invention;

FIG. 8 is a schematic view of the networking function of the cleaning bucket of the electric mop device of the present invention.

The figures are labeled as follows: 1. an operating lever; 2. a remote control handle; 3. a water spray button; 4. starting a key; 5. a mop host machine; 6. a water storage tank A; 7. an indicator light; 8. a water spraying device; 9. rotating the tray; 10. a cleaning cloth; 11. a deep ultraviolet germicidal lamp; 12. a mop bucket entering trigger A; 13. a mop bucket entering detection sensor A; 14. a charging interface A; 15. cleaning the barrel; 16. cleaning the nozzle; 17. a voice player; 18. cleaning the disc; 19. cleaning the bony spur; 20. a water level detection sensor of the drainage tank; 21. a drain tank; 22. a drainage box installation state detection sensor; 23. a water storage tank B; 24. a mop bucket entering trigger B; 25. a charging interface B; 26. a mop bucket entering detection sensor B.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1, 2, 3, 5 and 6, an electric mop device comprises an operating rod 1, a cleaning barrel 15 and a system, wherein the top of the operating rod 1 is fixed with a remote control handle 2 through a sleeve, the top of the remote control handle 2 is fixed with a start button 4 through an inlay, the remote control handle 2 is fixed with a water spray button 3 through a sleeve, the bottom of the operating rod 1 is fixed with a mop host 5 through a sleeve, the top of the mop host 5 is fixed with a water storage tank A6 through a sleeve, the left side of the top of the mop host 5 is fixed with an indicator light 7 through a sleeve, the left side and the right side of the bottom of the mop host 5 are both fixed with rotary trays 9 through a sleeve, the bottom of the rotary trays 9 is both fixed with cleaning cloth 10 through a sleeve, the middle of the left side of the mop host 5 is fixed with a water spray device 8 through a sleeve, the water spray device 8 is connected with the water storage tank A6 through a pipeline sleeve, the left side of the bottom of the mop host 5 is fixed with a deep ultraviolet germicidal lamp 11 through an inlay, the right side of the deep ultraviolet germicidal lamp 11 is provided with a mop bucket entering trigger A12 and is embedded and fixed on a mop host 5, the right side of the bottom of the mop host 5 is fixedly provided with a mop bucket entering detection sensor A13 through embedding, the right side of the mop bucket entering detection sensor A13 is provided with a charging interface A14 and is arranged on the mop host 5, the mop bucket entering detection sensor A13 adopts a Hall sensor, a remote control handle 2 system comprises a start/stop key, a water spraying key 3, a microprocessor and a Sub-1G emitter, the microprocessor is connected with the start/stop key, the water spraying key 3 and the Sub-1G emitter through cables, the mop host 5 system comprises a power supply system, the microprocessor, the Sub-1G emitter, an indicator lamp 7, charging management, the Hall sensor, a motor drive, a motor, a gain amplifier, a current sampling resistor, a water pump drive, a water pump, The system comprises a microprocessor, a UVC lamp bead driver and a UVC lamp bead, wherein the microprocessor is connected with a power supply system, a Sub-1G transmitter, an indicator light 7, charge management, a Hall sensor, a motor driver, a gain amplifier, a water pump driver and the UVC lamp bead driver through cables;

specifically, the mop host 5 is placed in the cleaning disc 18 of the cleaning barrel 15, the mop bucket detection sensor B26 on the cleaning barrel 15 detects that the mop host 5 is placed in the cleaning barrel 15, the charging power supply is immediately started, the magnitude of the charging current is detected through the current sampling resistor, the charging current is larger than a certain threshold value, the mop host 5 is confirmed to be placed in the cleaning barrel 15, the charging current is smaller than the certain threshold value, it is judged that no mop host 5 is placed in the cleaning barrel 15, the charging power supply is turned off, the voice player 17 prompts that no mop is placed in the cleaning barrel 15, when the mop host 5 is placed in the cleaning barrel 15, the mop host 5 detects that the mop bucket detection sensor B26 is located on the cleaning barrel 15, the cleaning barrel 15 starts the charging power supply, the mop host 5 enters the charging mode, the indicating lamp 7 is turned on to indicate the charging state and the electric quantity, after the mop host 5 is fully charged, the mop host 5 passes through the Sub-1G transmitter, transmitting a charging completion instruction to the cleaning bucket 15, and ending the charging when the cleaning bucket 15 receives the charging completion instruction; the mop host 5 and the cleaning bucket 15 both exit the charging mode, press the start button 4 on the remote control handle 2, send a start signal through the Sub-1G transmitter, and the cleaning state is as follows: after the microprocessor of the cleaning barrel 15 receives the starting signal, the water pump is started to spray water for fifteen seconds, the cleaning cloth 10 of the mop host 5 is washed at high pressure, and meanwhile, the cleaning bone spurs 19 on the cleaning disc 18 scrape the cleaning cloth 10; after the mop host 5 receives the starting signal, the starting motor works for fifteen seconds in a forward and reverse switching mode, and the drying state is as follows: after cleaning the cleaning cloth 10, the cleaning barrel 15 is in a waiting state, the mop host 5 still starts the motor to work for twenty seconds in a forward and reverse switching mode, and the cleaning cloth 10 is dried by supplying water through forward and reverse switching and high-speed rotation; meanwhile, cleaning cloth 10 is scraped through cleaning bone 19 on a cleaning disc 18, dehydration of the cleaning cloth 10 is accelerated, after the above steps are completed, a charging power supply is started by a cleaning barrel 15, a charging mode is entered, when the cleaning mode is entered, or in the cleaning process, the cleaning barrel 15 detects that a drainage box 21 is not installed and the drainage box 21 is full of water, a water storage box A6 stops the cleaning mode immediately when water is lacked, the charging mode is entered, a mop host 5 is placed in the cleaning barrel 15, the mop host 5 and the cleaning barrel 15 enter a pairing state respectively, thirty seconds are counted, a start button 4 and a water spray button 3 in a remote control handle 2 are pressed simultaneously, three seconds are counted, the two buttons are pressed simultaneously and continue for three seconds, a pairing code is sent by a remote control handle MCU 2 through a Sub-1G transmitter, the mop host 5 receives the pairing code, a unique address code and a key value of the remote control handle 2 are extracted, and storing the data in a memory inside the mop host 5 to prompt that the pairing is successful and quit the pairing mode, wherein the cleaning barrel 15 receives the pairing code, extracts the unique address code and the key value of the remote control handle 2, stores the unique address code and the key value in the memory inside the cleaning barrel 15 to prompt that the pairing is successful and quit the pairing mode, and thirty seconds are overtime, and the mop host 5 and the cleaning barrel 15 automatically quit the pairing mode without receiving the pairing code, so that the pairing of the mop host 5, the cleaning barrel 15 and the remote control handle 2 is completed.

Example 2:

referring to fig. 4, 7 and 8, an electric mop device comprises a cleaning barrel 15, a water storage tank B23 is fixed on the right side of the top of the cleaning barrel 15 through a sleeve, a charging interface B25 is arranged on the left side of a water storage tank B23 and is arranged on the cleaning barrel 15, a cleaning disc 18 is fixed on the top of the cleaning barrel 15 through a sleeve, a cleaning nozzle 16 is arranged on the top of the cleaning disc 18, cleaning bone spurs 19 are fixed on the top of the cleaning disc 18 through a sleeve, a mop bucket entering trigger B24 is fixed on the right end of the cleaning disc 18 through a sleeve, a mop bucket entering detection sensor B26 is fixed on the left side of the top of the cleaning disc 18 through a sleeve, a hall sensor is adopted by a water discharge tank level detection sensor 20 and a mop bucket entering detection sensor B26, a water discharge tank installation state detection sensor 22 is fixed on the front portion of the left side of the cleaning disc 18 through a sleeve, a tank water level detection sensor 20 is fixed in the middle of the left side of the cleaning disc 18 through a screw, the front part of the cleaning barrel 15 is fixed with a voice player 17 through a sleeve, the left side of the cleaning barrel 15 is fixed with a drain box 21 through a sleeve, the cleaning barrel 15 system comprises a power supply system, a microprocessor, a WI-FI/Bluetooth, a Sub-1G emitter, a mop barrel-in detection sensor B26, a drain box water level detection sensor 20, a drain box installation state detection sensor 22, a gain amplifier, a power switch, a gain amplifier, a water pump drive, a voice chip, a current sampling resistor, a charging current output, a current sampling resistor, a water pump and the voice player 17, the microprocessor is connected with the power supply system, the WI-FI/Bluetooth, the Sub-1G emitter, the mop barrel-in detection sensor B26, the drain box water level detection sensor 20, the drain box installation state detection sensor 22, the gain amplifier, the power switch, The system comprises a gain amplifier, a water pump driver and a voice chip, wherein a power switch is connected with a charging current output, a current sampling resistor and the gain amplifier through a cable, the water pump driver is connected with a water pump, the current sampling resistor and the gain amplifier through a cable, the voice chip is connected with a voice player 17 through a cable, a cleaning barrel 15 networking system comprises a gateway, a cleaning barrel 15, a cloud server, mobile equipment and application software, the cloud server is connected with the gateway and the mobile equipment through a cable, the gateway is connected with the cleaning barrel 15 through a cable, and the mobile equipment is connected with the application software through a cable;

specifically, a start button 4 and a water spray button 3 in a remote control handle 2 are pressed simultaneously, timing is carried out for three seconds, two buttons are pressed simultaneously and last for three seconds, a remote control handle 2MCU sends a distribution code through a Sub-1G transmitter, a cleaning barrel 15Sub-1G receiver receives the distribution code, enters a distribution network mode, sends a distribution network command to a Wi-Fi module or a Bluetooth module, and sets two-minute timing, after the distribution network of the Wi-Fi module or the Bluetooth module is finished, the distribution network state command is returned, after the distribution network state command is received by a microprocessor of the cleaning barrel 15, the distribution network state is prompted through a voice player 17, the distribution network mode is exited, the two-minute timing is finished, the distribution network state is not returned by the Wi-Fi module or the Bluetooth module, the distribution network state is automatically finished by the cleaning barrel 15, and overtime of the distribution network is prompted through the voice player 17, when the cleaning barrel 15 is finished being distributed with the network, the remote control handle 2 presses the starting button 4, the starting signal is sent by the Sub-1G transmitter, and the mop host 5 receives the starting signal and enters a working mode; under the working mode, the microprocessor drives the starting motor to work through the motor, the motor drives the rotating tray 9 to rotate through the transmission mechanism, so that the cleaning cloth 10 sucked on the rotating tray 9 rubs with the ground to achieve the purpose of removing the dirt on the ground, under the working mode, the indicating lamp 7 is simultaneously turned on to indicate the working state, under the working mode, the UVC lamp is simultaneously turned on to sterilize and disinfect the ground, when the mop host 5 is detected to be lifted for more than one second from the ground, the UVC lamp is immediately turned off to avoid the injury to human eyes caused by the deep ultraviolet sterilizing lamp 11, when the mop host 5 is placed on the ground again, the UVC lamp is turned on again, under the working mode, the water spraying key 3 can be pressed down to drive the water pump to be drawn out of the water storage tank A6 of the mop host 5, water is sprayed to the ground in a fan-shaped state through the water spraying device 8, the microprocessor current sampling resistor detects that the working current of the water pump is less than a certain threshold value, then the water storage tank A6 is judged to be lack of water, the water storage tank A6 is prompted to be in a water lack state through the indicator light 7, under the working mode, the microprocessor detects that the current of the motor is too large through the current sampling resistor, the motor is in a locked-rotor state for more than five seconds, and the mop host 5 immediately exits the working mode.

The working principle is as follows: an electric mop device, a mop host 5 is put into a cleaning disc 18 of a cleaning barrel 15, a mop put-in barrel detection sensor B26 on the cleaning barrel 15 detects that the mop host 5 is put into the cleaning barrel 15, a charging power supply is immediately started, the magnitude of charging current is detected through a current sampling resistor, if the charging current is larger than a certain threshold value, the mop host 5 is confirmed to be put into the cleaning barrel 15, if the charging current is smaller than the certain threshold value, no mop host 5 is judged to be put into the cleaning barrel 15, the charging power supply is turned off, a voice player 17 prompts that no mop is put into the cleaning barrel 15, when the mop host 5 is put into the cleaning barrel 15, a mop put-in barrel detection sensor B26 of the mop host 5 detects that the mop host 5 is on the cleaning barrel 15, the cleaning barrel 15 is started, the mop host 5 enters a charging mode, an indicator light 7 is turned on to indicate the charging state and the electric quantity, and after the mop host 5 is fully charged, transmitting a charging completion instruction to the cleaning barrel 15 through a Sub-1G transmitter, and finishing charging after the cleaning barrel 15 receives the charging completion instruction; the mop host 5 and the cleaning bucket 15 both exit the charging mode, press the start button 4 on the remote control handle 2, send a start signal through the Sub-1G transmitter, and the cleaning state is as follows: after the microprocessor of the cleaning barrel 15 receives the starting signal, the water pump is started to spray water for fifteen seconds, the cleaning cloth 10 of the mop host 5 is washed at high pressure, and meanwhile, the cleaning bone spurs 19 on the cleaning disc 18 scrape the cleaning cloth 10; after the mop host 5 receives the starting signal, the starting motor works for fifteen seconds in a forward and reverse switching mode, and the drying state is as follows: after cleaning the cleaning cloth 10, the cleaning barrel 15 is in a waiting state, the mop host 5 still starts the motor to work for twenty seconds in a forward and reverse switching mode, and the cleaning cloth 10 is dried by supplying water through forward and reverse switching and high-speed rotation; meanwhile, cleaning cloth 10 is scraped through cleaning bone 19 on a cleaning disc 18, dehydration of the cleaning cloth 10 is accelerated, after the above steps are completed, a charging power supply is started by a cleaning barrel 15, a charging mode is entered, when the cleaning mode is entered, or in the cleaning process, the cleaning barrel 15 detects that a drainage box 21 is not installed and the drainage box 21 is full of water, a water storage box A6 stops the cleaning mode immediately when water is lacked, the charging mode is entered, a mop host 5 is placed in the cleaning barrel 15, the mop host 5 and the cleaning barrel 15 respectively enter a pairing state, thirty seconds are counted, a start button 4 and a water spraying button 3 in a remote control handle 2 are pressed simultaneously, three seconds are counted, two buttons are pressed simultaneously and last for three seconds, a pairing code is sent by a remote control handle 2MCU through a Sub-1G transmitter, the mop host 5 receives the pairing code, a unique address code and a key value of the remote control handle 2 are extracted, storing the data in a memory inside the mop host 5 to prompt that pairing is successful and quit a pairing mode, wherein the cleaning barrel 15 receives a pairing code, extracts a unique address code and a key value of the remote control handle 2, stores the unique address code and the key value in the memory inside the cleaning barrel 15 to prompt that pairing is successful and quit the pairing mode, thirty seconds are overtime, the mop host 5 and the cleaning barrel 15 automatically quit the pairing mode without receiving the pairing code, so far, the mop host 5, the cleaning barrel 15 and the remote control handle 2 are paired, simultaneously a start button 4 and a water spray button 3 in the remote control handle 2 are pressed, three seconds are counted, two buttons are simultaneously pressed for three seconds, a network distribution code is sent by a remote control handle 2MCU through a Sub-1G transmitter, the cleaning barrel 15Sub-1G receiver enters a network distribution mode after receiving the network distribution code, and sends a network distribution instruction to a Wi-Fi module or a Bluetooth module, setting two minutes for timing, after the Wi-Fi module or the Bluetooth module finishes the distribution, returning to a distribution network state instruction, after the microprocessor of the cleaning barrel 15 receives the distribution network state instruction, prompting the distribution network state through the voice player 17, exiting the distribution network mode, after the two minutes of timing is finished, not receiving the situation that the Wi-Fi module or the Bluetooth module returns to the distribution network state, automatically finishing the distribution network mode by the cleaning barrel 15, and prompting the overtime of the distribution network through the voice player 17, so that the distribution network of the cleaning barrel 15 is finished, pressing the starting button 4 by the remote control handle 2, sending a starting signal through the Sub-1G transmitter, receiving the starting signal by the mop host 5, and entering the working mode; under the working mode, the microprocessor drives the starting motor to work through the motor, the motor drives the rotating tray 9 to rotate through the transmission mechanism, so that the cleaning cloth 10 sucked on the rotating tray 9 rubs with the ground to achieve the purpose of removing the dirt on the ground, under the working mode, the indicating lamp 7 is simultaneously turned on to indicate the working state, under the working mode, the UVC lamp is simultaneously turned on to sterilize and disinfect the ground, when the mop host 5 is detected to be lifted for more than one second from the ground, the UVC lamp is immediately turned off to avoid the injury to human eyes caused by the deep ultraviolet sterilizing lamp 11, when the mop host 5 is placed on the ground again, the UVC lamp is turned on again, under the working mode, the water spraying key 3 can be pressed down to drive the water pump to be drawn out of the water storage tank A6 of the mop host 5, water is sprayed to the ground in a fan-shaped state through the water spraying device 8, the microprocessor current sampling resistor detects that the working current of the water pump is less than a certain threshold value, then judge water storage tank A6 lack of water, indicate water storage tank A6 lack of water state through pilot lamp 7, under operating mode, microprocessor detects through current sampling resistance that the motor current is too big, is in the locked-rotor state and reaches more than five seconds, and mop host computer 5 withdraws from operating mode immediately, has possessed electronic wringing, practices thrift manpower, material resources, the advantage of sanitization.

While there have been shown and described the fundamental principles and essential features of the utility model and advantages thereof, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. An electric mop device, characterized in that: the mop comprises an operating rod (1), a cleaning barrel (15) and a system, wherein the top of the operating rod (1) is fixed with a remote control handle (2) through a sleeve, the top of the remote control handle (2) is fixed with a start button (4) through an inlay, the remote control handle (2) is fixed with a water spray button (3) through a sleeve, the bottom of the operating rod (1) is fixed with a mop host (5) through a sleeve, the top end of the mop host (5) is fixed with a water storage box A (6) through a sleeve, the left side of the top of the mop host (5) is fixed with an indicator lamp (7) through a sleeve, the left side and the right side of the bottom of the mop host (5) are both fixed with rotary trays (9) through sleeves, the bottom of the rotary trays (9) is both fixed with cleaning cloth (10) through sleeves, and the middle of the left side of the mop host (5) is fixed with a water spray device (8) through a sleeve, the mop is characterized in that a deep ultraviolet germicidal lamp (11) is fixedly embedded in the left side of the bottom of the mop host (5), a mop bucket entering trigger A (12) is arranged on the right side of the deep ultraviolet germicidal lamp (11) and fixedly embedded in the mop host (5), a mop bucket entering detection sensor A (13) is fixedly embedded in the right side of the bottom of the mop host (5), and a charging interface A (14) is arranged on the right side of the mop bucket entering detection sensor A (13) and arranged on the mop host (5);

the cleaning device is characterized in that a water storage tank B (23) is fixed on the right side of the top of the cleaning barrel (15) through a sleeve, a charging interface B (25) is arranged on the left side of the water storage tank B (23) and is arranged on the cleaning barrel (15), a cleaning disc (18) is fixed on the top of the cleaning barrel (15) through a sleeve, a cleaning nozzle (16) is arranged on the top of the cleaning disc (18), cleaning bone spurs (19) are fixed on the top of the cleaning disc (18) through a sleeve, a mop entering barrel trigger B (24) is fixed on the right end of the cleaning disc (18) through a sleeve, a mop entering barrel detection sensor B (26) is fixed on the left side of the top of the cleaning disc (18) through a sleeve, a drainage tank installation state detection sensor (22) is fixed on the front portion of the left side of the cleaning disc (18) through a sleeve, a drainage tank water level detection sensor (20) is fixed in the middle of the left side of the cleaning disc (18) through screws, the front part of the cleaning barrel (15) is fixedly provided with a voice player (17) through a sleeve, and the left side of the cleaning barrel (15) is fixedly provided with a drainage box (21) through a sleeve.

2. An electric mop assembly as defined in claim 1, further comprising: the water level detection sensor (20) of the drainage box, the mop bucket detection sensor A (13) and the mop bucket detection sensor B (26) are all Hall sensors.

3. An electric mop assembly as defined in claim 1, further comprising: the water spraying device (8) is connected with the water storage tank A (6) in a sleeved mode through a pipeline.

4. An electric mop assembly as defined in claim 1, further comprising: the remote control handle (2) system comprises a start/stop button, a water spray button (3), a microprocessor and a Sub-1G emitter, wherein the microprocessor is connected with the start/stop button, the water spray button (3) and the Sub-1G emitter through cables.

5. An electric mop assembly as defined in claim 1, further comprising: the mop host (5) system comprises a power supply system, a microprocessor, a Sub-1G transmitter, an indicator lamp (7), charge management, a Hall sensor, a motor drive, a motor, a gain amplifier, a current sampling resistor, a water pump drive, a water pump, a UVC lamp bead drive and a UVC lamp bead, wherein the microprocessor is connected with the power supply system, the Sub-1G transmitter, the indicator lamp (7), the charge management, the Hall sensor, the motor drive, the gain amplifier, the water pump drive and the UVC lamp bead drive through cables, the motor drive is connected with the motor and the current sampling resistor through cables, the water pump drive is connected with the water pump and the current sampling resistor through cables, the current sampling resistor is connected with the gain amplifier through cables, and the UVC lamp bead drive is connected with the UVC lamp bead through cables.

6. An electric mop assembly as defined in claim 1, further comprising: the cleaning barrel (15) system comprises a power supply system, a microprocessor, a WI-FI/Bluetooth, a Sub-1G emitter, a mop barrel entering detection sensor B (26), a drainage box water level detection sensor (20), a drainage box installation state detection sensor (22), a gain amplifier, a power switch, a gain amplifier, a water pump driver, a voice chip, a current sampling resistor, a charging current output, a current sampling resistor, a water pump and a voice player (17), wherein the microprocessor is connected with the power supply system, the WI-FI/Bluetooth, the Sub-1G emitter, the mop barrel entering detection sensor B (26), the drainage box water level detection sensor (20), the drainage box installation state detection sensor (22), the gain amplifier, the power switch, the gain amplifier, the water pump driver and the voice chip through cables, and the power switch is connected with the charging current output through cables, The water pump drive is connected with the water pump, the current sampling resistor and the gain amplifier through cables, and the voice chip is connected with the voice player (17) through cables.

7. An electric mop assembly as defined in claim 1, further comprising: the cleaning bucket (15) networking system comprises a gateway, a cleaning bucket (15), a cloud server, a mobile device and application software, wherein the cloud server is connected with the gateway and the mobile device through cables, the gateway is connected with the cleaning bucket (15) through cables, and the mobile device is connected with the application software through cables.

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