CN215309630U - Induction type hand disinfection device - Google Patents

Abstract

The utility model relates to an induction type hand disinfection device, which comprises a shell, a disinfectant storage container, an electronic spraying assembly, a residual fog collecting assembly, a residual liquid recycling box, an infrared inductor, a controller and a power supply, wherein the infrared inductor induces hands and transmits a trigger signal to the controller, the controller starts the electronic spraying assembly to draw a preset amount of disinfectant from a disinfectant storage to be sprayed to a hand placing area, after the hands are disinfected, the controller starts the residual fog collecting assembly to work to collect and filter residual fog floating in the hand placing area, after the hands are disinfected, the residual disinfectant is sprayed in the hand placing area and flows into the residual liquid recycling box, the residual disinfectant is collected, in the process of disinfecting the hands, the residual fog floating in the air and the residual liquid dropping in the hand placing area are collected, improve the health and tidiness of use.

Description

Induction type hand disinfection device

Technical Field

The utility model relates to the technical field of medical instruments, in particular to an induction type hand disinfection device.

Background

The main transmission route of the new coronavirus pneumonia is the transmission of respiratory droplets, the disease is also transmitted by contact, and the contact by hands is the main mode of contact transmission, so the disinfection of the hands is the most main mode of blocking the transmission. In the traditional hand disinfection, 95% ethanol, quick-drying hand disinfectants and the like are used for disinfection. But the key link is that the disinfection liquid can flow out only by mechanical pressing after contacting, thereby achieving the disinfection purpose. The operation is complicated, the risk of virus transmission is caused by secondary contact, and meanwhile, floating disinfection solution suspended particles generated in the disinfection process can be sucked into the human body by people around the disinfection process, and the human body can be damaged by multiple times of suction. Thirdly, the flow of people in schools, railway stations, airports and other public places for epidemic prevention and control is large, the using amount of disinfectant is large, the conventional bottled disinfectant cannot meet the requirement, the conventional bottled disinfectant is complicated and inconvenient to replace frequently, and a large-dose disinfectant storage device is required to meet the requirement.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an induction type hand disinfection device.

An induction type hand disinfection device comprises a shell, wherein the shell is provided with a hand placing area, and the hand placing area is positioned below the shell;

a disinfectant liquid storage container: the disinfectant storage container is arranged in the shell;

an electronic spray assembly: the electronic spraying assembly is arranged in the shell and connected with the disinfectant storage container and used for accurately drawing a preset amount of disinfectant in the disinfectant storage container and atomizing and spraying the disinfectant in the hand placing area; residual mist collection assembly: the residual fog collecting assembly is arranged in the shell, is positioned right above the hand placing area and is used for collecting residual fog which still floats around the hand placing area after the electronic spraying assembly sprays disinfectant to sterilize hands;

and (4) a residual liquid recovery box: the residual liquid recovery box is arranged on the hand placing area, is arranged right below the ejection end of the electronic spraying assembly and is used for collecting disinfectant which is sprayed by the electronic spraying assembly, is sprayed in the hand placing area after the disinfectant is sprayed by the electronic spraying assembly and is residual;

an infrared sensor: the infrared inductor is arranged in the shell and close to the hand placing area, and is used for inducing whether a hand extends into the hand placing area;

a controller: the controller is arranged in the shell and is electrically connected with the electronic spraying assembly, the residual fog collecting assembly and the infrared sensor respectively, the infrared sensor senses that a hand stretches into the hand placing area and then sends a signal to the controller, the controller starts the electronic spraying assembly to work and spray a preset amount of disinfectant, and after the disinfectant is sprayed and a preset period of time is reserved, the controller starts the residual fog collecting assembly to work and collects residual fog floating around the hand placing area;

power supply: the power supply is arranged in the shell and is electrically connected with the electronic spraying assembly, the residual fog collecting assembly, the infrared inductor and the controller respectively and provides power. Preferably, the electronic spraying assembly comprises a disinfectant liquid drawing tube, a drawing and spraying mechanism and a disinfectant liquid spraying tube, the drawing and spraying mechanism is driven by a motor to draw and spray disinfectant liquid, one end of the disinfectant liquid drawing tube extends into the disinfectant liquid storage container, and the other end of the disinfectant liquid drawing tube is connected with a liquid drawing end of the drawing and spraying mechanism; one end of the disinfectant spraying pipe is connected with the liquid spraying end of the drawing and spraying mechanism, and the other end of the disinfectant spraying pipe is provided with an atomizing nozzle.

Preferably, the drawing and spraying mechanism comprises a micro motor, a pump body and a control unit, the micro motor is installed on the pump body, the micro motor and the control unit are electrically connected to form a series circuit, and the control unit is used for controlling the rotating speed and the working time of the micro motor to achieve the amount of drawn disinfectant. Preferably, the disinfectant liquid suction pipe is a hose, and a tracking heavy hammer is arranged at one end extending into the disinfectant liquid storage container, so that the disinfectant liquid can be sucked at any time according to different disinfectant liquid positions of the disinfectant liquid storage container. Preferably, remaining fog collection assembly is including remaining fog circulation passageway, fan, filter screen and collection box, and remaining fog circulation passageway includes entry end and exit end, and the entry end setting is placed the district at the hand, and the fan is installed in remaining fog circulation passageway, and the filter screen is installed in remaining fog circulation passageway and is located between entry end and the fan, rotates through the fan and makes entry end formation negative pressure will remain fog and inhale from the entry end, will remain the antiseptic solution fog drip absorption in the fog at the filter screen through the filter screen and will be well, fan and power electric connection.

Preferably, a filter grid is arranged at the opening of the residual liquid recovery box.

Preferably, the housing comprises a front housing and a rear housing, the rear housing is provided with a plurality of fasteners, and the fasteners can be adhered to the wall of the public entrance for the convenience of the public.

Preferably, the induction type hand disinfection device further comprises a support frame, the induction type hand disinfection device can be placed at a required position for public use, the support frame comprises a support seat and a support rod, the lower end of the support rod is installed on the support seat, and the upper end of the support rod is provided with a shell.

Preferably, the front shell is provided with a disinfectant storage area, a residual fog collecting area, a controller mounting area and a power supply mounting area, the residual fog collecting area is positioned below the disinfectant storage area, the side wall of the lower side of the residual fog collecting area is provided with a plurality of openings, the controller mounting area and the power supply mounting area are positioned around the disinfectant storage area, the lower end of the rear shell extends to form a hand placing area, the hand placing area is positioned below the front shell, the disinfectant storage container is arranged in the disinfectant storage area, the front end of the front shell is provided with a door which can be opened and closed, so that the disinfectant storage container can be conveniently replaced or disinfectant can be conveniently added into the disinfectant storage container, the door is made of transparent material, the storage amount of disinfectant in the disinfectant storage container can be conveniently observed, the residual fog collecting component is arranged in the residual fog collecting area, the controller is arranged in the controller mounting area, and the power supply is arranged in the power supply mounting area.

Preferably, the two sides of the hand placing area are respectively provided with a baffle made of transparent material, the baffles on the two sides can prevent disinfectant from being sprayed outside the hand placing area, and simultaneously, the residual fog collection assembly is convenient to collect residual fog, the supporting seat is provided with a disinfectant standby storage cavity for storing more disinfectant for public use, the upper end surface of the disinfectant standby storage cavity is provided with a disinfectant adding port, a micropump is connected between the disinfectant standby storage cavity and the disinfectant storage container, the input end of the micropump is arranged in the disinfectant standby storage cavity, the output end of the micropump is arranged at the inlet of the disinfectant storage container, the micropump is electrically communicated with the controller, the bottom of the disinfectant storage container is provided with a liquid level sensor which is electrically communicated with the controller, when the liquid level sensor detects the liquid level of disinfectant in the disinfectant storage container, the liquid level sensor transmits an electric signal to the controller, the controller controls the micro pump to work to add the disinfectant in the disinfectant standby storage cavity into the disinfectant storage container.

According to the technical scheme, the utility model provides the induction type hand disinfection device, which has the beneficial effects that: transmit trigger signal to controller after infrared inductor senses the hand, the controller opens the antiseptic solution that the electron spraying subassembly draws the predetermined volume from antiseptic solution storage container and sprays to the hand and place the district, accomplish after the disinfection to the hand, the controller is opened and is remained fog collection subassembly work and will float and collect and filtration treatment in the district is placed to the hand remaining fog, spray after accomplishing the hand disinfection and place in the district and remaining antiseptic solution flows in and remains in the liquid recovery box in the hand, accomplish the collection to remaining antiseptic solution, at the in-process of accomplishing the hand disinfection, realize collecting the remaining fog that floats in the air and drip the remaining liquid of placing the district at the hand in the disinfection process, improve the health and the clean and tidy nature of use.

Drawings

Fig. 1 is a perspective view of an induction hand disinfection device.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a partially assembled structure of the induction hand disinfection device.

Fig. 4 is a perspective view of front case 11.

Fig. 5 is a front view of fig. 3.

Fig. 6 is a perspective view of an electrospray assembly.

Fig. 7 is a perspective view of one side baffle of the residual mist collection assembly of fig. 3 with the residual mist removed.

Fig. 8 is a rear view of fig. 1.

Fig. 9 is a second embodiment of the present invention.

Fig. 10 is a rear view of fig. 9.

Fig. 11 is a third embodiment of the present invention.

In the figure: the induction type hand disinfection device 100, the housing 10, the front housing 11, the disinfectant storage area 111, the residual mist collection area 112, the opening 1121, the controller installation area 113, the power supply installation area 114, the door 115, the rear housing 12, the hand placement area 121, the hook and loop fastener 13, the disinfectant storage container 20, the electronic spray assembly 30, the disinfectant dip tube 31, the tracking weight 311, the dip and spray mechanism 32, the micro motor 321, the pump body 322, the control unit 323, the disinfectant spray tube 33, the atomizing nozzle 331, the residual mist collection assembly 40, the residual mist flow channel 41, the inlet end 411, the outlet end 412, the fan 42, the filter screen 43, the residual mist recovery box 50, the filter grid 51, the infrared sensor 60, the controller 70, the power supply 80, the support frame 90, the support base 91 and the support rod 92.

Detailed Description

The technical solution and the technical effect of the embodiments of the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, the induction type hand disinfection apparatus 100 includes a housing 10, a disinfectant storage container 20, an electronic spray assembly 30, a residual mist collection assembly 40, a residual liquid recovery box 50, an infrared sensor 60, a controller 70 and a power supply 80, wherein the disinfectant storage container 20, the electronic spray assembly 30, the residual mist collection assembly 40, the controller 70 and the power supply 80 are installed in the housing 10, the infrared sensor 60 is installed at the lower end of the housing 10 for sensing whether a hand extends into the housing, and the residual liquid recovery box 50 is installed below the housing 10 for collecting liquid remaining after the disinfectant sprayed from the electronic spray assembly 30 sterilizes the hand.

Referring to fig. 1, the housing 10 includes a front housing 11 and a rear housing 12, and referring to fig. 4, the front housing 11 is provided with a disinfectant storage area 111, a residual mist collection area 112, a controller installation area 113 and a power installation area 114, the residual mist collection area 112 is located below the disinfectant storage area 111, a plurality of openings 1121 are formed in a lower side wall of the residual mist collection area 112, the controller installation area 113 and the power installation area 114 are located at one side of the disinfectant storage area 111, the controller installation area 113 and the power installation area 114 can also be located around the disinfectant storage area 111, a hand placement area 121 is formed by extending the lower end of the rear housing 12, and the hand placement area 121 is located below the front housing 11; the disinfectant storage container 20 is installed in the disinfectant storage area 111, in order to facilitate replacement of the disinfectant storage container 20 or addition of disinfectant into the disinfectant storage container 20, an openable door 115 is arranged at the front end of the front shell 11, and the door 115 is made of a transparent material so as to facilitate observation of the storage amount of disinfectant in the disinfectant storage container 20; the electronic spraying assembly 30 is installed in the housing 10, and the electronic spraying assembly 30 is connected to the disinfectant storage container 20, and is configured to accurately draw a preset amount of disinfectant in the disinfectant storage container 20 and atomize and spray the disinfectant in the hand placement area 121. Referring to fig. 1, 3 and 4, the residual fog collecting assembly 40 is installed in the residual fog collecting region 112, the residual fog collecting assembly 40 is located right above the hand placing region 121, and the residual fog collecting assembly 40 is used for collecting residual fog which still floats around the hand placing region 121 after the electronic spraying assembly 30 sprays disinfectant to sterilize the hands.

Referring to fig. 1 to 4, the residual liquid recovery box 50 is installed on the hand placement area 121, the residual liquid recovery box 50 is installed right below the spraying end of the electronic spraying assembly 30, and the residual liquid recovery box 50 is used for collecting the disinfectant which is sprayed by the electronic spraying assembly 30 and is sprayed in the hand placement area 121 after the disinfectant is sprayed by the electronic spraying assembly 30 and is left; the infrared inductor 60 is installed on the lower end surface of the housing 10 and is close to the hand placing area 121, and the infrared inductor 60 is used for sensing whether a hand extends into the hand placing area 121; the controller 70 is installed in the controller installation area 113 and is electrically connected with the electronic spraying assembly 30, the residual fog collecting assembly 40 and the infrared sensor 60 respectively, the infrared sensor 60 sends a signal to the controller 70 after sensing that a hand extends into the hand placing area 121, the controller 70 starts the electronic spraying assembly 30 to spray, after the hand leaves the hand placing area 121, the infrared sensor 60 sends a signal to the controller 70, and the controller 70 starts the residual fog collecting assembly 40 to work to collect residual fog floating around the hand placing area 121; the power supply 80 is installed in the power supply installation region 114, and the power supply 80 is electrically connected to and supplies power to the electric spray module 30, the residual fog collecting module 40, the infrared sensor 60, and the controller 70, respectively. Referring to fig. 5, the electronic spraying assembly 30 includes a disinfectant drawing tube 31, a drawing and spraying mechanism 32 and a disinfectant spraying tube 33, the drawing and spraying mechanism 32 is driven by a motor to draw and spray disinfectant, one end of the disinfectant drawing tube 31 extends into the disinfectant storage container 20, and the other end is connected to a liquid drawing end of the drawing and spraying mechanism 32; one end of the disinfectant spraying pipe 33 is connected to the liquid spraying end of the drawing and spraying mechanism 32, and the other end is provided with an atomizing nozzle 331, the disinfectant spraying pipe 33 passes through the residual mist collecting area 112, and with reference to fig. 4, the atomizing nozzle 331 is installed on the lower end surface of the front housing 11.

Referring to fig. 6, the pumping and ejecting mechanism 32 includes a micro motor 321, a pump body 322 and a control unit 323, the micro motor 321 is installed on the pump body 322, the micro motor 321 and the control unit 323 are electrically connected to form a series circuit, and the control unit 323 is used for controlling the rotation speed and the working time of the micro motor 321 to achieve the amount of the disinfectant pumped. The disinfectant dip tube 31 is a hose, and a tracking weight 311 is disposed at one end extending into the disinfectant storage container 20, so that the disinfectant can be dipped at any time according to different disinfectant positions of the disinfectant storage container 20. Referring to fig. 7, the residual fog collecting assembly 40 includes a residual fog circulating channel 41, a fan 42 and a filter screen 43, the residual fog circulating channel 41 includes an inlet end 411 and an outlet end 412, the inlet end 411 is disposed in the hand placing area 121, the fan 42 is disposed in the residual fog circulating channel 41, the filter screen 43 is disposed in the residual fog circulating channel 41 and between the inlet end 411 and the fan 42, the inlet end 411 forms a negative pressure by rotation of the fan 42, so that the residual fog enters the residual fog collecting area 112 from the opening 1121, then is sucked in from the inlet end 411, the disinfectant fog drops in the residual fog are filtered and adsorbed in the filter screen 43 by the filter screen 43, and the fan 42 is electrically connected to the power supply 80. Referring to fig. 1, a filter grid 51 is disposed at an opening of the residual liquid recovery box 50, and the filter grid 51 can prevent other impurities from entering the residual liquid recovery box 50.

Referring to fig. 8, a plurality of sticky buckles 13 are disposed on the back surface of the housing 10, and the sticky buckles 13 can be adhered to a wall of a public entrance, such as a wall of an entrance of an exhibition hall, a wall of an entrance of a conference room, and the like, so as to be convenient for people to use.

Referring to fig. 9 and 10, the induction type hand disinfection device 100 further comprises a support frame 90, the support frame 90 can be used by the public at a desired position, the support frame 90 comprises a support base 91 and a support rod 92, the lower end of the support rod 92 is mounted on the support base 91, and the upper end of the support rod 92 is mounted with the housing 10.

Referring to fig. 11, two sides of the hand placing area 121 are respectively provided with a baffle 122, the baffles 122 are made of transparent material, the baffles 122 on the two sides can prevent the disinfectant from being sprayed outside the hand placing area 121, and at the same time, the residual fog collection assembly 40 can collect the residual fog conveniently, the supporting seat 92 is provided with a disinfectant standby storage cavity 921 for storing more disinfectant for public use, the upper end surface of the disinfectant standby storage cavity 921 is provided with a disinfectant adding port 922, a micro pump 93 is connected between the disinfectant standby storage cavity 921 and the disinfectant storage container 20, the input end of the micro pump 93 is installed in the disinfectant standby storage cavity 921, the output end of the micro pump 93 is installed at the inlet of the disinfectant storage container 20, the micro pump 93 is electrically connected with the controller 70, the bottom of the disinfectant storage container 20 is provided with a liquid level sensor 21, the liquid level sensor 21 is electrically connected with the controller 70, when the liquid level sensor 21 detects the liquid level of the disinfectant in the disinfectant storage container 20, liquid level inductor 21 transmits an electrical signal for controller 70, and controller 70 controls micropump 93 work and adds the antiseptic solution of the reserve storage chamber 921 of antiseptic solution to antiseptic solution storage container 20, makes the volume that this device stored the antiseptic solution obtain promoting, has increased the disinfection number of times, for the availability factor that more step provides this device, increases reserve battery, in time changes when power 80 electric power is not enough, can ensure that this device lasts work. And in public places with large flow of people, the supply and demand requirements of large-dose disinfectant can be met.

Claims (10)

1. An induction type hand disinfection device, which is characterized in that: the hand placing area is positioned below the shell;

a disinfectant liquid storage container: the disinfectant storage container is arranged in the shell;

an electronic spray assembly: the electronic spraying assembly is arranged in the shell and connected with the disinfectant storage container and used for accurately drawing a preset amount of disinfectant in the disinfectant storage container and atomizing and spraying the disinfectant in the hand placing area; residual mist collection assembly: the residual fog collecting assembly is arranged in the shell, is positioned right above the hand placing area and is used for collecting residual fog which still floats around the hand placing area after the electronic spraying assembly sprays disinfectant to sterilize hands;

and (4) a residual liquid recovery box: the residual liquid recovery box is arranged on the hand placing area, is arranged right below the ejection end of the electronic spraying assembly and is used for collecting disinfectant which is sprayed by the electronic spraying assembly, is sprayed in the hand placing area after the disinfectant is sprayed by the electronic spraying assembly and is residual;

an infrared sensor: the infrared inductor is arranged in the shell and close to the hand placing area, and is used for inducing whether a hand extends into the hand placing area;

a controller: the controller is arranged in the shell and is electrically connected with the electronic spraying assembly, the residual fog collecting assembly and the infrared sensor respectively, the infrared sensor senses that a hand stretches into the hand placing area and then sends a signal to the controller, the controller starts the electronic spraying assembly to work and spray a preset amount of disinfectant, and after the disinfectant is sprayed and a preset period of time is reserved, the controller starts the residual fog collecting assembly to work and collects residual fog floating around the hand placing area;

power supply: the power supply is arranged in the shell and is electrically connected with the electronic spraying assembly, the residual fog collecting assembly, the infrared inductor and the controller respectively and provides power.

2. An induction hand sanitizer according to claim 1, wherein: the electronic spraying assembly comprises a disinfectant liquid drawing tube, a drawing and spraying mechanism and a disinfectant liquid spraying tube, the drawing and spraying mechanism is driven by a motor to draw and spray disinfectant liquid, one end of the disinfectant liquid drawing tube extends into the disinfectant liquid storage container, and the other end of the disinfectant liquid drawing tube is connected with a liquid drawing end of the drawing and spraying mechanism; one end of the disinfectant spraying pipe is connected with the liquid spraying end of the drawing and spraying mechanism, and the other end of the disinfectant spraying pipe is provided with an atomizing nozzle.

3. An induction hand sanitizer according to claim 2, wherein: the liquid absorbing and spraying mechanism comprises a micro motor, a pump body and a control unit, the micro motor is installed on the pump body, the micro motor and the control unit are electrically connected to form a series circuit, and the control unit is used for controlling the rotating speed and the working time of the micro motor to achieve the amount of absorbing the disinfectant.

4. An induction hand sanitizer according to claim 3, wherein: the disinfectant liquid suction pipe is a hose, and a tracking heavy hammer is arranged at one end extending into the disinfectant liquid storage container, so that disinfectant liquid can be sucked at any time according to different disinfectant liquid positions of the disinfectant liquid storage container.

5. An induction hand sanitizer according to claim 4, wherein: remain fog collection assembly including remaining fog circulation passageway, fan, filter screen and collection box, remain fog circulation passageway and include entry end and exit end, the entry end setting is placed the district in the hand, the fan is installed in remaining fog circulation passageway, the filter screen is installed in remaining fog circulation passageway and is located between entry end and the fan, rotate through the fan and make entry end formation negative pressure will remain fog and inhale from the entry end, will remain the antiseptic solution droplet absorption in the fog at the filter screen through the filter screen again and will be in, fan and power electric connection.

6. An induction hand sanitizer according to claim 5, wherein: the opening of the residual liquid recovery box is provided with a filter grid.

7. An induction hand sanitizer according to claim 6, wherein: the shell comprises a front shell and a rear shell, the rear shell is provided with a plurality of thread gluing which can be adhered to the wall of the public entrance so as to be convenient for the public to use.

8. An induction hand sanitizer according to claim 7, wherein: the induction type hand disinfection device further comprises a support frame, the induction type hand disinfection device can be placed at a required position for public use, the support frame comprises a support seat and a support rod, the lower end of the support rod is installed on the support seat, and the upper end of the support rod is provided with a shell.

9. An induction hand sanitizer according to claim 8, wherein: the procapsid sets up antiseptic solution save area, remains fog collecting region, controller installing area and power supply installation district, remains the below that the fog collecting region is located antiseptic solution save area, remains fog collecting region lower lateral wall and sets up a plurality of trompils, and controller installing region and power supply installation district are located antiseptic solution save area around, and back casing lower extreme extends to form the hand and places the district, and the hand is placed the below that the district is located the procapsid, antiseptic solution storage container installs in antiseptic solution save area, but the front end of casing sets up switching door in the front, is convenient for change antiseptic solution storage container or for adding the antiseptic solution in the antiseptic solution storage container, it installs in remaining fog collecting assembly, the controller is installed in above-mentioned controller installing area, the power is installed in above-mentioned power supply installation district.

10. An induction hand sanitizer according to claim 9, wherein: the two sides of the hand placing area are respectively provided with a baffle made of transparent material, the baffles on the two sides can prevent disinfectant from being sprayed outside the hand placing area, and are convenient for a residual fog collecting component to collect residual fog, the supporting seat is provided with a disinfectant standby storage cavity for storing more disinfectant for public use, the upper end surface of the disinfectant standby storage cavity is provided with a disinfectant adding port, a micropump is connected between the disinfectant standby storage cavity and a disinfectant storage container, the input end of the micropump is arranged in the disinfectant standby storage cavity, the output end of the micropump is arranged at the inlet of the disinfectant storage container, the micropump is electrically communicated with the controller, the bottom of the disinfectant storage container is provided with a liquid level sensor, the liquid level sensor is electrically communicated with the controller, when the liquid level sensor detects the liquid level of the disinfectant in the disinfectant storage container, the liquid level sensor transmits an electrical signal to the controller, the controller controls the micro pump to work to add the disinfectant in the disinfectant standby storage cavity into the disinfectant storage container.

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