CN217715329U - Disinfection device suitable for service industry - Google Patents

Abstract

The utility model discloses a degassing unit suitable for service industry, including the fuselage assembly, the liquid tank assembly, connecting piece and rotatory fog-outlet device, the liquid tank assembly is installed in the fuselage assembly, the liquid tank assembly is including going out the fog pipe, rotatory fog-outlet device passes through the connecting piece rotation and installs in liquid tank assembly top, the one end that goes out the fog pipe is linked together with the fuselage assembly, the other end is linked together through connecting piece and rotatory fog-outlet device, the connecting piece includes gear stopper and limit gear, the gear stopper is installed in the top of liquid tank assembly, limit gear installs on the gear stopper, rotatory fog-outlet device includes the linkage gear, the linkage gear is installed in the bottom of rotatory fog-outlet device, and be connected with limit gear meshes mutually. The utility model discloses an active aerosol spraying is disinfected, need not artifical handheld disinfection, and the disinfection area is big, and is efficient, can accomplish disinfection treatment in the space fast, alleviates practitioner's work load, is applicable to the service industry and carries out the place disinfection, increases the protection to practitioner.

Description

Disinfection device suitable for service industry

Technical Field

The utility model relates to a degassing unit technical field especially relates to a degassing unit suitable for service industry.

Background

Present indoor degassing unit is mostly air purifier, is a carry out sterile equipment of indoor air purification, uses more and more generally in the life, and people are more and more strict to the quality requirement of air on every side, and the kind of clarifier is more diversified, and the function is more comprehensive, along with the continuous development of science and technology, people are also higher and higher to the technological requirement of clarifier. Current clarifier is when using, only sprays towards the single direction, and the spraying is mostly water smoke moreover, can't cover the great area scope for the short time, can't realize carrying out sterile effect to indoor large tracts of land air, perhaps the disinfection effect is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a degassing unit suitable for service industry.

According to the utility model discloses an aspect provides a degassing unit suitable for service industry, including the fuselage assembly, the liquid tank assembly, connecting piece and rotatory fog outlet device, the liquid tank assembly is installed in the fuselage assembly, the liquid tank assembly includes out the fog pipe, rotatory fog outlet device passes through the connecting piece rotation and installs in liquid tank assembly top, the one end and the fuselage assembly of play fog pipe are linked together, the other end is linked together through connecting piece and rotatory fog outlet device, the connecting piece includes gear stopper and stop gear, the gear stopper is installed on the top of liquid tank assembly, stop gear installs on the gear stopper, rotatory fog outlet device includes the linkage gear, the linkage gear is installed in the bottom of rotatory fog outlet device, and be connected with stop gear mesh mutually.

The utility model has the advantages that: the rotary mist sprayer is arranged to rotationally spray the atomized aerosol generated in the machine body assembly and the liquid tank assembly at a certain angle, so that the spraying area is increased in a short time, and the spraying and disinfecting efficiency is improved; through setting up the connecting piece, be convenient for install rotatory fog outlet device on the liquid tank assembly, make things convenient for rotatory fog outlet device to carry out rotatory spraying operation. The utility model discloses a degassing unit disinfects through active aerosol spraying, need not artifical handheld disinfection, and the disinfection area is big, and the disinfection is efficient, can accomplish disinfection treatment in the space fast, alleviates practitioner's work load, is applicable to the service industry and carries out the place disinfection, increases the protection to practitioner.

In some embodiments, the utility model discloses still include the power cord, rotatory fog outlet device still includes first shell, pressure boost nozzle, swing motor, swing switch, the second air-blower, amount of wind control switch and air intake, the air intake is equipped with the second USB interface, the power cord is connected mutually with fuselage assembly and second USB interface electricity respectively, first shell is equipped with the pillar and the ejector nozzle that communicate each other, linkage gear and limit gear looks swivelling joint are passed through to the bottom of pillar, second air-blower and amount control switch install in the ejector nozzle, pressure boost nozzle and air intake are installed respectively in the both ends of ejector nozzle, the second air-blower is located between air intake and the pressure boost nozzle, the second air-blower, amount of wind control switch, the second USB interface is connected mutually in proper order. The rotary mist outlet device is powered through the power line, and the second air blower is used for pressurizing mist sprayed out of the mist outlet pipe for the second time, so that atomized aerosol can impact the pressurizing nozzle at a large air pressure. The pressurizing nozzle changes the caliber of the air duct at the terminal of the spray tube to form a vortex spray phenomenon, and the atomized disinfectant is driven by small air volume to be sprayed out, uniformly spread in the space and quickly form aerosol for disinfection.

In some embodiments, the first shell is further provided with a side column body, the side column body is located on one side of the support column and located below the spray cylinder, the swing motor and the swing switch are installed in the side column body, the swing switch is electrically connected with the swing motor, and the swing switch is electrically connected with the second USB interface. The side columns are used for accommodating and mounting the swing motor and the swing switch. The swing motor drives the linkage gear to rotate, so that the limit gear is pushed to rotate, the limit gear further drives the support column to rotate, and the rotating mist outlet device is rotated. The swing switch is used for controlling the swing motor to be turned on and off and controlling the rotation angle of the swing motor so as to control the rotation angle of the rotary mist sprayer.

In some embodiments the angle between the spray cylinder and the pillar is in the range of 30 ° to 45 ° and the maximum rotation angle of the rotating mist outlet is 140 °. The included angle between the spraying cylinder and the support is 30-45 degrees, so that atomized disinfectant can be conveniently sprayed out through the pressurizing nozzle along the direction of the spraying cylinder, the coverage range of spraying is improved, and the disinfection efficiency is improved. The maximum rotation angle of the rotary fog outlet device is 140 degrees, so that the sprayed fog is more uniformly distributed in the space, and the time required by aerosolization is shortened.

In some embodiments, the liquid tank assembly further includes a liquid tank cover and a liquid tank body, the bottom end of the liquid tank body is provided with a liquid outlet and a flow limiting valve, the liquid outlet is communicated with the machine body assembly through the flow limiting valve, the gear limiter is installed at the top end of the liquid tank cover, the liquid tank cover covers the liquid tank body, one end of the mist outlet pipe is communicated with the gear limiter, the other end of the mist outlet pipe is communicated with the machine body assembly, the center of the gear limiter is provided with a through hole, and the through hole is respectively communicated with the mist outlet pipe and the strut. The liquid box body is used for holding the dress antiseptic solution, the utility model discloses the antiseptic solution that adopts is the botanical source antiseptic solution, and non-traditional chemical industry class antiseptic solution is safe harmless to the human body, can carry out active safe disinfection under the condition of someone activity. The liquid tank cover is used for fixing and installing the connecting piece and supporting the rotary mist outlet device. The mist outlet pipe is used for conveying mist generated by the machine body assembly, so that atomized disinfectant enters the support column along the mist outlet pipe and the connecting piece and is sprayed out from the pressurizing nozzle along the spraying barrel. The gear limiter is used for installing a limit gear, the limit gear is meshed with the linkage gear in a lateral direction, the linkage gear rotates to drive the limit gear to rotate, and the limit gear further drives the support column to rotate, so that the rotary spraying effect of the rotary mist outlet device is achieved. The limit gear limits the rotating angle of the rotating mist outlet device to be 0-140 degrees.

In some embodiments, the fuselage assembly includes the drain pan, the second shell, third shell and automatically controlled mainboard, automatically controlled mainboard and second shell are all installed on the drain pan, the third shell is installed on the second shell, the third shell is equipped with the atomized water tank, liquid tank assembly detachably installs in the third shell, and be located the atomized water tank top, the liquid outlet is linked together with the atomized water tank through the current-limiting valve, the bottom of going out the fog pipe is linked together with the top of atomized water tank, automatically controlled mainboard includes PCB board and singlechip, the singlechip is installed on the PCB board, and be connected with PCB board electricity, the swing switch, air volume control switch all is connected with automatically controlled mainboard phase signal. The plant source disinfectant in the liquid phase flows into the atomizing water tank through the liquid outlet, the atomizer in the atomizing water tank atomizes the plant source disinfectant, and the generated mist is conveyed into the rotary mist outlet device through the mist outlet pipe and then is sprayed out. The electric control main board controls and adjusts the swing switch and the air volume control switch through the single chip microcomputer, and then controls the swing motor and the second air blower, and changes of different spraying modes are achieved.

In some embodiments, the atomized water tank comprises a first water level sensor, a second water level sensor, a water limiting baffle, an atomizer and a wind guide pipe, wherein the water limiting baffle, the atomizer and the wind guide pipe are all installed at the bottom of the atomized water tank, the wind guide pipe is provided with a wind outlet, the height of the wind outlet is higher than that of the first water level sensor, the first water level sensor and the second water level sensor are installed on the side wall of the atomized water tank, and the height of the first water level sensor is higher than that of the second water level sensor. The flow limiting valve, the first water level sensor, the second water level sensor and the atomizer are respectively and electrically connected with the electric control main board. First water level inductor is used for monitoring the liquid level upper limit in the atomizing water tank, and when disinfectant is not enough in the atomizing water tank, the restriction valve starts, and in the disinfectant flowed into the atomizing water tank from the liquid tank through the restriction valve, when liquid level reached first water level inductor in the atomizing water tank, the restriction valve was closed. The second water level sensor is used for detecting the lower limit of the height of the liquid level in the atomized water tank, when the liquid level is lower than the second water level sensor, a liquid shortage prompt is sent out, the single chip microcomputer opens the flow limiting valve, and disinfectant is supplemented into the atomized water tank. The water limiting baffle is used for reducing the disinfectant remained at the bottom of the atomized water tank, and the utilization efficiency of the disinfectant is improved. The atomizer is used for atomizing the disinfectant in the atomizing water tank. The liquid tank body is arranged above the atomization water tank, so that the atomization water tank forms a cavity, and mist generated by the atomizer is upwards discharged in the cavity through the mist outlet pipe. The air guide pipe guides air blown in by the first air blower to enter the cavity of the atomization water tank, and the discharge speed of mist from the mist outlet pipe is increased.

In some embodiments, the body assembly further includes a sensing switch, a first blower and a power supply, the sensing switch and the electronic control main board are sequentially electrically connected, the first blower is electrically connected with the electronic control main board, the first blower, the power supply and the electronic control main board are all mounted on the bottom case and located in the second case, the first blower is communicated with the air guide pipe, and the sensing switch is mounted on the second case. The inductive switch is used for controlling the power supply to transmit power to the electric control mainboard. The first air blower blows air to the air guide pipe, and the front end of the mist outlet pipe is used for pressurizing mist, so that the upward drifting speed of the mist is accelerated.

In some embodiments, the second housing is provided with a panel, the panel is provided with a display screen hole and a plurality of key identifications, the electronic control main board further comprises a display screen and a plurality of keys, the display screen and the keys are mounted on the PCB, the display screen and the keys are respectively electrically connected with the single chip microcomputer, the panel corresponds to the electronic control main board in position, the display screen hole corresponds to the display screen in position, and the key identifications correspond to the keys in position one to one. The display screen is used for displaying specific parameters of various modes, and the plurality of keys comprise an on-off key, a timing key, a long-time spraying mode key and a spraying amount selection key for carrying out timing setting or various spraying mode selections. The panel covers on automatically controlled mainboard for protect automatically controlled mainboard.

In some embodiments, the second housing is further provided with a first USB interface, the first USB interface is electrically connected to a power source, and the first USB interface and the second USB interface are detachably and electrically connected through a power line. Through first USB interface and power cord, the power can supply power to the second USB interface for swing motor and second air-blower normally work.

Drawings

Fig. 1 is a schematic structural diagram of a disinfection device suitable for the service industry according to an embodiment of the present invention.

Fig. 2 is an exploded view of a rotary mist generator of a sterilizing apparatus for service industry according to an embodiment of the present invention.

Fig. 3 is an exploded view of a tank assembly and a connector of a disinfection apparatus suitable for the service industry according to an embodiment of the present invention.

Fig. 4 is an exploded view of a body assembly of a disinfection device suitable for use in the service industry according to an embodiment of the present invention.

Fig. 5 is a block diagram of a disinfection device suitable for use in the service industry according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

Referring to fig. 1 to 5, the present invention provides a disinfection device suitable for the service industry, which comprises a body assembly 1, a liquid tank assembly 2, a connecting member 3, a rotary mist generator 4 and a power line 5.

The rotary mist sprayer 4 includes a first housing 41, a pressurizing nozzle 42, a swing motor 43, a swing switch 44, a second blower 45, an air volume control switch 46, an air inlet 47, and a link gear 48. The first housing 41 is provided with a support column 411, a spray tube 412 and a side column 413, wherein the spray tube 412 is communicated with the support column 411, and the included angle between the spray tube 412 and the support column 411 is 30-45 degrees. The side cylinder 413 is located at one side of the pillar 411 and below the nozzle 412.

The linkage gear 48 is installed at the bottom end of the pillar 411, the linkage gear 48 is engaged with the limit gear 32 in the lateral direction, and the bottom end of the pillar 411 is covered on the limit gear 32 and rotates along the limit gear 32. The second blower 45 and the air volume control switch 46 are installed in the spray cylinder 412, the pressurizing nozzle 42 and the air inlet 47 are respectively installed at two ends of the spray cylinder 412, the second blower 45 is located between the air inlet 47 and the pressurizing nozzle 42, and the air volume control switch 46 is electrically connected with the second blower 45. The air inlet 47 is provided with a second USB interface 471, and the second USB interface 471 is electrically connected to the air volume control switch 46.

Swing motor 43 and swing switch 44 are mounted in side column 413, swing switch 44 is electrically connected to swing motor 43, and swing switch 44 is electrically connected to second USB interface 471. The air volume control switch 46 and the swing switch 44 are in signal connection with the electric control main board 14. The maximum rotation angle of the rotating mist outlet 4 is 140 °. The single chip microcomputer of the electric control main board 14 is used for controlling the opening and closing of the air volume control switch 46 and the swing switch 44, and controlling the air volume of the second blower 45 by adjusting the air volume control switch 46.

The connecting piece 3 comprises a gear limiter 31 and a limiting gear 32, the gear limiter 31 is installed at the top end of the liquid tank assembly 2, the limiting gear 32 is installed on the gear limiter 31, a linkage gear 48 is meshed with the limiting gear 32, and the limiting gear 32 drives the supporting column 411 to rotate. The gear retainer 31 has a first through hole 311 at the center thereof, and the first through hole 311 is communicated with the support column 411 and the spray tube 412.

The liquid tank assembly 2 comprises a liquid tank cover 21, a liquid tank body 22 and a mist outlet pipe 23, wherein a liquid outlet and a flow limiting valve 221 are arranged at the bottom end of the liquid tank body 22, and the liquid outlet is communicated with the atomization water tank 131 through the flow limiting valve 221. The gear stopper 31 is attached to the top end of the liquid tank cover 21, and the liquid tank cover 21 covers the liquid tank 22. The center of the liquid tank cover 21 is provided with a second through hole 211, and the position of the second through hole 211 corresponds to the position of the first through hole 311. The top end of the mist outlet pipe 23 is communicated with the gear limiter 31, the bottom end is communicated with the atomizing water tank 131, and the first through hole 311 is respectively communicated with the second through hole 211, the mist outlet pipe 23 and the support column 411. The mist generated by atomization is ejected along the mist outlet pipe 23, the second through hole 211, the first through hole 311, the support column 411 and the ejector 412 in sequence.

The body assembly 1 comprises a bottom shell 11, a second shell 12, a third shell 13, an electric control main board 14, an inductive switch 15, a first blower 16 and a power supply 17. The electric control main board 14 includes a PCB 141, a single chip microcomputer, a display screen 142 and a plurality of keys 143, and the single chip microcomputer, the display screen 142 and the plurality of keys 143 are all installed on the PCB 141 and electrically connected to the PCB 141. The display screen 142 and the plurality of keys 143 are electrically connected with the single chip microcomputer respectively.

Automatically controlled mainboard 14 and second shell 12 are all installed on drain pan 11, and third shell 13 is installed on second shell 12, and third shell 13 is equipped with atomized water tank 131, and liquid box 22 detachably installs in third shell 13 to be located atomized water tank 131 top, the bottom of play fog pipe 23 is linked together with atomized water tank 131's top.

The atomized water tank 131 includes a first water level sensor 132, a second water level sensor 133, a water limit baffle 134, an atomizer 135, and a wind guide pipe 136. The water-limiting baffle 134, the atomizer 135 and the air guide pipe 136 are all installed at the bottom of the atomized water tank 131. The air duct 136 is provided with an air outlet 1361, and the height of the air outlet 1361 is higher than that of the first water level sensor 132. The first and second water level sensors 132 and 133 are installed at the side wall of the atomizing water tank 131, and the height of the first water level sensor 132 is higher than that of the second water level sensor 133. The flow limiting valve 221, the first water level sensor 132, the second water level sensor 133 and the atomizer 135 are electrically connected with the single chip microcomputer of the electronic control main board 14 respectively.

The power supply 17, the inductive switch 15 and the electronic control main board 14 are electrically connected in sequence, the first air blower 16 is electrically connected with the single chip microcomputer of the electronic control main board 14, the first air blower 16, the power supply 17 and the electronic control main board 14 are all installed on the bottom shell 11 and are located in the second shell 12, the first air blower 16 is communicated with the bottom end of the air guide pipe 136, the inductive switch 15 is installed on the second shell 12, the position of the inductive switch corresponds to the position of the switch key of the panel, and the inductive switch is used for controlling the opening and closing of the device so that the power supply 17 supplies power to the electronic control main board 14.

The second casing 12 is provided with a panel 122 and a first USB interface 121, the panel 122 is provided with a display hole and a plurality of key identifiers, the panel 122 corresponds to the electronic control main board 14, the display hole corresponds to the display screen 142, and the key identifiers correspond to the keys 143 one-to-one. The first USB interface 121 is electrically connected to the power supply 17, and the first USB interface 121 and the second USB interface 471 are electrically connected to each other in a detachable manner through the power cord 5.

The utility model discloses when using, take off rotatory fog ware 4 and liquid case lid 21 of going out, to adding the botanical antiseptic solution in the liquid case 22, with liquid case lid 21 lid fit on liquid case 22 to install rotatory fog ware 4 on connecting piece 3, make linkage gear 48 and limit gear 32 aim at the meshing installation. One end of the power line 5 is connected to the first USB interface 121, and the other end is connected to the second USB interface 471. The switch key of the panel 122 is pressed, the power supply 17 is switched on, the disinfection device is started, the flow limiting valve 221 is opened, the disinfection solution flows into the atomization water tank 131, and when the liquid level of the disinfection solution reaches the height of the first water level sensor 132, the flow limiting valve 221 is closed. The atomizer 135 atomizes the mist, the first blower 16 and the second blower 45 blow the air to blow the mist out, and the swing motor 43 drives the rotary mist sprayer 4 to rotate and spray the mist through the linkage gear 48 and the limit gear 32.

According to specific use needs, press the long-time spraying mode button or spray volume selection button, select specific spraying mode, can also set up regularly through the timing button, facilitate the use. The spraying mode of the sterilizing device comprises the following three modes: (1) long-time spraying mode: consuming 200ml of plant source disinfectant per hour; (2) five minute spray interval pattern: every thirty seconds and five minutes, 10ml of plant source disinfectant is consumed every hour; (3) two minute spray interval mode: spraying for thirty seconds every time, stopping spraying for two minutes, and consuming 20ml of plant source disinfectant every hour; (4) one minute spray interval mode: every thirty seconds, stop for one minute, consume 40ml of plant source disinfectant liquid every hour. A five minute spray interval mode is recommended when the ambient temperature is above 25 c and a two minute spray interval mode is recommended when the ambient temperature is below 25 c. The timing of 1, 2, 4, 8 hours can also be selected by the timing key.

In the use, the liquid level of disinfectant in the atomized water tank 131 is monitored by the second water level sensor 133, when the liquid level of the disinfectant is lower than the second water level sensor 133, the limit valve 221 is opened, the disinfectant in the liquid tank 22 flows into the atomized water tank 131, if the limit valve 221 is opened, the liquid level in the atomized water tank 131 does not change, the liquid shortage reminding is sent, the disinfectant needs to be supplemented into the liquid tank 22, and the device can normally run.

The utility model discloses a botanical disinfectant realizes carrying out active safe disinfection to the space under the condition of someone activity, only needs to set for spraying mode, and the device can carry out spraying disinfection automatically and handles, changes the wind channel bore through twice blast air pressure boost and terminal and forms the whirlpool spray, makes the antiseptic solution realize aerosolizing in the space, under the prerequisite of the little amount of wind of silence, evenly spreads the botanical disinfectant in the space and disappears to the air. The disinfection device has the advantages of large fog output, capability of covering a large area in a short time, high disinfection efficiency and simple personnel operation, and is very suitable for indoor space disinfection in the service industry.

The above description is only some embodiments of the present invention, and for those skilled in the art, without departing from the inventive concept, a plurality of modifications and improvements can be made, and all of them belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a degassing unit suitable for service industry, its characterized in that, includes fuselage assembly, liquid tank assembly, connecting piece and rotatory fog outlet device, the liquid tank assembly install in the fuselage assembly, the liquid tank assembly includes out the fog pipe, rotatory fog outlet device passes through the connecting piece rotatory install in liquid tank assembly top, the one end of going out the fog pipe with the fuselage assembly is linked together, and the other end passes through the connecting piece with rotatory fog outlet device is linked together, the connecting piece includes gear stopper and limit gear, gear stopper install in the top of liquid tank assembly, limit gear install in on the gear stopper, rotatory fog outlet device includes the linkage gear, the linkage gear install in the bottom of rotatory fog outlet device, and with limit gear meshes the connection mutually.

2. The disinfection device suitable for the service industry as claimed in claim 1, further comprising a power line, wherein the rotary mist generator further comprises a first housing, a pressurizing nozzle, a swing motor, a swing switch, a second blower, an air volume control switch and an air inlet, the air inlet is provided with a second USB interface, the power line is respectively electrically connected with the machine body assembly and the second USB interface, the first housing is provided with a pillar and a nozzle which are mutually communicated, the bottom end of the pillar is rotationally connected with the limit gear through the linkage gear, the second blower and the air volume control switch are installed in the nozzle, the pressurizing nozzle and the air inlet are respectively installed at two ends of the nozzle, the second blower is located between the air inlet and the pressurizing nozzle, and the second blower, the air volume control switch and the second USB interface are sequentially electrically connected.

3. The disinfection apparatus adapted for service industry of claim 2, wherein the first housing further comprises a side post located at one side of the support and below the spray tube, the swing motor and the swing switch are mounted in the side post, the swing switch is electrically connected to the swing motor, and the swing switch is electrically connected to the second USB port.

4. A disinfection apparatus as claimed in claim 2, characterised in that said spray cylinder is arranged at an angle in the range of 30 ° to 45 ° to said support column, said rotary mist generator having a maximum rotation angle of 140 °.

5. The disinfection device suitable for the service industry as claimed in claim 2, wherein the liquid tank assembly further comprises a liquid tank cover and a liquid tank body, a liquid outlet and a flow-limiting valve are arranged at the bottom end of the liquid tank body, the liquid outlet is communicated with the machine body assembly through the flow-limiting valve, the gear limiter is mounted at the top end of the liquid tank cover, the liquid tank cover covers the liquid tank body, one end of the mist outlet pipe is communicated with the gear limiter, the other end of the mist outlet pipe is communicated with the machine body assembly, a through hole is arranged in the center of the gear limiter, and the through hole is respectively communicated with the mist outlet pipe and the support column.

6. The disinfection device suitable for the service industry of claim 5, wherein the machine body assembly comprises a bottom shell, a second shell, a third shell and an electric control main board, the electric control main board and the second shell are both installed on the bottom shell, the third shell is installed on the second shell, the third shell is provided with an atomizing water tank, the liquid tank assembly is detachably installed in the third shell and is located above the atomizing water tank, the liquid outlet is communicated with the atomizing water tank through the flow limiting valve, the bottom end of the mist outlet pipe is communicated with the top end of the atomizing water tank, the electric control main board comprises a PCB (printed circuit board) and a single chip microcomputer, the single chip microcomputer is installed on the PCB and is electrically connected with the PCB, and the swing switch and the air volume control switch are in signal connection with the electric control main board.

7. The disinfection device suitable for the service industry as claimed in claim 6, wherein the atomized water tank comprises a first water level sensor, a second water level sensor, a water limiting baffle, an atomizer and a wind guide pipe, the water limiting baffle, the atomizer and the wind guide pipe are all installed at the bottom of the atomized water tank, the wind guide pipe is provided with an air outlet, the height of the air outlet is higher than that of the first water level sensor, the first water level sensor and the second water level sensor are installed on the side wall of the atomized water tank, the height of the first water level sensor is higher than that of the second water level sensor, and the flow limiting valve, the first water level sensor, the second water level sensor and the atomizer are respectively and electrically connected with the electronic control main board.

8. The disinfection device suitable for the service industry as claimed in claim 7, wherein the body assembly further comprises an inductive switch, a first blower and a power supply, the inductive switch and the electronic control main board are electrically connected in sequence, the first blower is electrically connected with the electronic control main board, the first blower, the power supply and the electronic control main board are all mounted on the bottom shell and located in the second housing, the first blower is communicated with the air guide pipe, and the inductive switch is mounted on the second housing.

9. The disinfection device suitable for the service industry as claimed in claim 6, wherein the second housing is provided with a panel, the panel is provided with a display screen hole and a plurality of key marks, the electronic control main board further comprises a display screen and a plurality of keys, the display screen and the plurality of keys are both mounted on the PCB, the display screen and the plurality of keys are respectively and electrically connected with the single chip microcomputer, the panel corresponds to the electronic control main board in position, the display screen hole corresponds to the display screen in position, and the plurality of key marks correspond to the plurality of keys in position one to one.

10. A disinfection apparatus as claimed in claim 6, wherein said second housing further comprises a first USB interface, said first USB interface being electrically connected to said power source, said first USB interface being removably electrically connected to said second USB interface via said power cord.

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