RU200217U1 - Self-contained automatic surface disinfection device - Google Patents

Abstract

The utility model relates to devices for fine aerosol spraying of liquid (liquid solutions) and can be used for aerosol disinfectant treatment and disinfection of various surfaces with highly dispersed solutions of disinfectants, for example, cars (inside and outside), ATM machines, carts to supermarkets, etc.

Description

The utility model relates to devices for fine aerosol spraying of liquid (liquid solutions) and can be used for aerosol disinfectant treatment and disinfection of various surfaces with highly dispersed solutions of disinfectants, for example, cars (inside and outside), ATM machines, carts to supermarkets, etc.

Disinfection of rooms and surfaces should be carried out regularly. In conditions of increased epidemiological danger, the treatment of surfaces to which a person touches should take place after each contact. Disinfection of surfaces should be carried out in medical institutions, public premises, in everyday life, in places with high traffic of people, as well as in the field of veterinary medicine. Regular disinfection of various surfaces will help prevent the spread of bacterial, viral and fungal infections.

To date, stations for disinfection of working surfaces look like this: there is a high-pressure pump (noisy, requires connection to electricity), for example, it is very difficult to install such a device inside a car. The pump pumps in the disinfectant and supplies it to the nozzles, after which the agent is sprayed onto the surface.

Known technical solution RU 185 062, Application: 2018123282, Date of application: 27.06.2018, Published: 20.11.2018 Byull. No. 32, IPC B05B 17/00 (2006.01) A device for aerosol spraying of a liquid, A device for aerosol spraying of a liquid containing a container with a liquid installed in a housing and at least one pneumatic nozzle, the air line of which is connected to a compressed air supply system, including air a filter and a compressor, and the liquid pipeline is connected to a container with a liquid, characterized in that it is additionally equipped with an air duct with a fan installed in the housing, the axis of which is not parallel to the axis of the nozzle of the nozzle.

Known technical solution RU 171 434, Application: 2016126563, Date of application: 04.07.2016, Published: 31.05.2017 Bul. No. 16, IPC A61L 2/08 (2006.01), A61L 9/18 (2006.01), H05B 37/02 (2006.01), POWER SUPPLY AND CONTROL DEVICE FOR DISINFECTION DEVICE, Power supply and control device for disinfection device, containing: power supply unit, time counter , connected to the network connection unit, a control gear, an analyzer of the number of network connections, a power disconnection unit connected to the network connection block, a control gear and an analyzer of the number of network connections, characterized in that it additionally contains a control unit connected to an operating time meter and a control gear ...

The closest is the technical solution RU 2 296 625, application: 2005129435, date of commencement of the patent validity: 09.21.2005, published 04.10.2007 Bill. No. 10, IPC B05B 9/04 (2006.01), A62C 35/02 (2006.01), AUTONOMOUS SPRAY DEVICE, Self-contained spraying device containing a cylindrical body with trays and a neck, a lid, a high pressure cavity, a filling and drainage pipe, shut-off valves and a nozzle, characterized in that on the side surface of the cover there is a handle-nozzle, the nozzle is equipped with a docking sleeve, an arcuate support is mounted on the upper bottom, a bell is made at the free end of the filling and drainage tube, into the end of which a mesh filter with a diameter of at least 1.4 is mounted the diameter of the tube, while the length of the handle-branch pipe, the distance between the filling and drainage tube and the longitudinal axis, the arcuate support and the longitudinal axis and the diameter of the neck are chosen to be respectively equal to 0.2-0.3; 0.13-0.2; not less than 0.36; 0.4 body diameter.

The technical task of the presented device consists in expanding the functionality of the disinfection device control and timely signaling of the housing replacement.

The technical result, which the utility model is aimed at, is to increase the efficiency of disinfecting aerosol surface treatment with finely dispersed liquid spraying by providing an automatic control mode.

An autonomous automatic device for disinfecting surfaces containing a body, a high-pressure cavity, a filling and drainage pipe, a nozzle, characterized in that the body contains a membrane separating the disinfectant liquid and a high-pressure cavity, a float for controlling the level of disinfectant liquid, connected by a wire to the level sensor of the disinfectant liquid, a valve for injecting air and venting it, a valve for injecting a disinfectant liquid connected to a filling and drainage pipe located inside the body and a liquid pipeline connected to the body with a disinfectant liquid, connected to a low pressure nozzle spraying disinfectant liquid, while the body is connected to a control unit containing control unit for disinfecting liquid level control system, battery supplying control unit, presence sensors, server with automatic notification function. The body contains a low pressure cavity not less than 15 atmospheres. The control unit contains motion sensors. The control unit contains a start relay. The control unit contains a solenoid valve. The housing contains a pressure gauge.

The essence of the proposed technical solution is illustrated by a drawing:

FIG. 1 - General view Autonomous automatic device for surface disinfection.

The self-contained automatic device for surface disinfection contains:

1) Housing;

2) Manometer;

3) Membrane separating the disinfectant liquid and the high pressure cavity;

4) A cavity with a disinfectant liquid;

5) High pressure compressed air cavity;

6) Valve for air injection and air release;

7) Refueling and drainage tube;

8) Valve for pumping disinfectant liquid;

9) Low pressure nozzles spraying disinfectant liquid;

10) Liquid pipeline connected to the body with disinfectant liquid;

11) Float to control the level of disinfectant liquid;

12) Wire between the float and the level sensor of the disinfectant liquid;

13) Liquid level sensor;

14) Control unit;

15) Control unit for the disinfectant liquid level control system;

16) Battery supplying the control unit;

17) Server with automatic notification function;

18) Motion sensors.

The device is implemented as follows:

An autonomous automatic device for disinfecting surfaces contains a body (1), for example, made of stainless steel, which is a welded structure, for example, cylindrical and rectangular, capable of holding a pressure of 60-70 bar and to ensure an operating pressure of at least 15 atmospheres inside the body cavity ( 1), while the case is capable of withstanding up to 25 atmospheres. To control the compressed air supply, the housing is equipped with a monometer (2). The body is divided in the horizontal plane by a membrane (3) into two cavities, one of which is filled with a disinfectant liquid (4) to a predetermined volume, and high-pressure compressed air (5) is pumped into the second cavity. The line of the external source of compressed air is connected through the valve for pumping (6) or, if necessary, for bleeding air. Upon reaching the specified pressure, the supply of compressed air is stopped and the line of the external source is disconnected from the valve (6). The membrane (3) is affected by a pressure equal to the pressure difference on the discharge line of the high-pressure cavity (5) and the cavity with the disinfecting liquid (4), which ensures the effectiveness of disinfecting aerosol surface treatment with finely dispersed liquid spraying. When an autonomous automatic device for disinfecting surfaces is operating, compressed air from the high-pressure cavity (5) displaces the disinfectant liquid through the filling and drainage pipe (7) mounted in the valve for pumping the disinfectant liquid (8), and through the nozzle (9) or the nozzle system located at the end of the liquid pipeline (10), the disinfectant liquid is supplied to the surface to be treated.

In the cavity with the disinfectant liquid (4) there is a float to control the level of the disinfectant liquid (11), connected by a wire (12) to the level sensor of the disinfectant liquid (13), which transmits information to the control unit (14) about the need to replace and refill the housing (1 ) disinfectant liquid. The control unit (14) contains a control unit for the disinfecting liquid level control system (15), powered by a battery (16) feeding the control unit (15), and a server with an automatic notification function (17), for example, by means of a cloud solution of the software execution of the device or SMS, which provides an expansion of the functionality of the disinfection device control and timely signaling of the housing replacement due to the automatic control mode.

Motion detectors (18) and / or, for example, presence detectors and / or a start relay and / or a solenoid valve, provide a disinfectant spray that is safe for humans.

A self-contained automatic surface disinfection device sprays disinfectant liquid when a person leaves the area where disinfection takes place due to the fact that the device is equipped with a presence sensor. The disinfectant liquid has a composition with an alcohol content of at least 80% and with an QAC content (quaternary ammonium compounds), so that when sprayed, water does not get onto the electronic components of ATMs and a car. Quaternary ammonium compounds are an active agent in the fight against pathogenic organisms. The disinfectant liquid has an absolute practicality, does not have a corrosive effect on all treated surfaces and has minimal toxicity. Disinfecting aerosol surface treatment with finely dispersed liquid spraying allows you to process household items, medical instruments, surfaces in public places and medical institutions for disinfecting activities. This type of surface disinfection is harmless and does not have a destructive effect on the treated surfaces.

Claims (5)

1. An autonomous automatic device for disinfecting surfaces, containing a body, a high-pressure cavity, a filling and drainage tube, a nozzle, characterized in that the body contains a membrane separating the disinfectant liquid and a high-pressure cavity, a float for controlling the level of the disinfectant liquid, connected by a wire to the level sensor of the disinfectant liquid, a valve for pumping air and venting it, a pressure gauge, a valve for pumping a disinfectant liquid connected to the filling and drainage tube, located inside the body, and a liquid pipeline connected to the body with a disinfectant liquid, connected to a low-pressure nozzle spraying disinfectant liquid, while the body is connected to a control unit containing a control unit for a disinfecting liquid level control system, a battery that feeds the control unit, presence sensors , while the control unit is designed to interact with the server with an automatic notification function. 2. Autonomous automatic device for disinfection of surfaces according to claim 1, characterized in that the control unit contains motion sensors. 3. Autonomous automatic device for surface disinfection according to claim 1, characterized in that the control unit contains a start relay. 4. Autonomous automatic device for disinfection of surfaces according to claim 1, characterized in that the control unit contains an electromagnetic valve. 5. Autonomous automatic device for disinfection of surfaces according to claim 1, characterized in that the housing contains a manometer.

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