RU205708U1 - Portable irradiator-recirculator - Google Patents

Abstract

The proposed utility model relates to devices for disinfection, sterilization of air and surfaces using ultraviolet radiation. The device contains a housing, openings for air flow, a fan, a UV-C emitter, a USB connector. The air intake holes and the blowing hole are used as the air flow holes. A turbine type fan is used as a fan. External UV-C LEDs and internal UV-C LEDs are used as UV-C emitters. A USB-C connector is used as a USB connector. Additionally, the device contains an operation mode switch, an operation mode indicator, a board, a switch, and a power supply. In this case, the board is located inside the case. The board contains external UV-C LEDs, a turbine-type fan, internal UV-C LEDs and a switch connected to external UV-C LEDs, with a mode switch, with an operating mode indicator, with a turbine-type fan, with internal UV-C LEDs ... The power supply is connected to the switch via the USB-C connector. External UV-C LEDs are installed on the bottom surface of the board, on the bottom surface of the case in the holes and are directed outward of the case, while the internal UV-C LEDs are installed on the top surface of the board and are directed towards the inside of the case. The technical result from the use of the proposed utility model is to increase efficiency. 8 p.p. f-ly, 3 dwg

Description

The proposed utility model relates to devices for disinfection, sterilization of air and surfaces using ultraviolet radiation.

The closest in technical essence and the achieved result to the proposed utility model is a portable bactericidal irradiator-recirculator, protected by a utility model patent RU 91287 U, class. A61L 9/20, publ. 02/10/2010, taken as the closest analogue (prototype).

The prototype portable germicidal irradiator-recirculator contains a housing, a C-band UV emitter, a power supply unit for a UV radiation source, a fan, an air duct system, and a USB connection cable. The specified irradiator-recirculator is mobile and individual, all the time can be near the user and provide air disinfection, for example, at his workplace it works from any device that has a USB port, using a minimum of elements.

However, the use of an ordinary fan inside the case contributes to the low efficiency of the prototype device.

The task of the utility model is to improve the portable irradiator-recirculator.

The technical result from the use of the proposed utility model is to increase efficiency.

The task is achieved by the fact that in a portable irradiator-recirculator containing a housing, holes for air flow, a fan, a UV-C emitter, a USB connector, holes for air intake and a blowing hole are used as holes for air flow. a turbine-type fan is used, external UV-C LEDs and internal UV-C LEDs are used as a UV-C emitter, a USB-C connector is used as a USB connector, an additional device contains an operating mode switch, an operating mode indicator, a board, a switch , a power supply, while the board is located inside the case, the board has external UV-C LEDs, a turbine-type fan, internal UV-C LEDs and a switch that is connected to external UV-C LEDs, with a mode switch, with an operating mode indicator, with turbine type fan, with internal UV-C LEDs, power supply connected to switch via USB-C connector, with external UV-C LEDs installed on the bottom surface of the board, on the bottom surface of the case in the holes and directed outward of the case, and internal UV-C LEDs are installed on the top surface of the board and directed towards the inside of the case; the body is split and consists of two parts - upper and lower, while one of the sides of the upper part of the body is rounded, legs are made on the lower part of the body; openings for air intake are made on the upper and lower parts of the body in the form of round grilles; the blowing hole is made on the upper rounded part of the body in the form of a lattice; the operating mode switch, USB-C connector and the operating mode indicator are made on one of the front sides of the case; UVC-3535 CREE LEDs or their analogs are used as external and internal UV-C LEDs; as an indicator of the operating mode, a double red-green LED SMD or an analogue is used; a centrifugal fan Panasonic UDQFZZH32DAS DC5V 0.32 A 9928T, or its analogue is used as a turbine type fan; A charger from a mobile phone with a USB-C port with a voltage of 5 V and a current strength of up to 2 A is used as a power source.

FIG. 1 shows a general view of a portable irradiator-recirculator.

FIG. 2 shows the board of a portable irradiator-recirculator.

FIG. 3 shows a functional diagram of a portable irradiator-recirculator.

Structurally, the portable irradiator-recirculator in Fig. 1-3 contains:

1 - case;

2 - openings for air intake;

3 - blow hole;

4 - external UV-C LEDs;

5 - switch of operating modes;

6 - USB-C connector;

7 - indicator of operating modes;

8 - board;

9 - turbine type fan;

10 - internal UV-C LEDs;

11 - switch;

12 - power supply.

The body 1 is split and consists of two parts - upper and lower. One of the sides of the upper part of the body 1 is rounded. Legs can be made on the lower surface of the housing 1.

Air intake openings 2 are made on the upper and lower parts of the housing 1 in the form of round grilles.

The blowing hole 3 is made on the upper rounded part of the housing 1 in the form of a lattice.

External UV-C LEDs 4 are made on the bottom surface of the housing 1.

The mode switch 5, USB-C connector 6 and the operating mode indicator 7 are made on one of the end sides of the case 1.

The board 8 is located inside the housing 1.

On board 8, external UV-C LEDs 4, a turbine-type fan 9, internal UV-C LEDs 10 and a switch 11 are installed. C LEDs 10 are installed on the top surface of the board and are directed towards the inside of the housing 1.

The switch 11 is connected to external UV-C LEDs 4, with a mode switch 5, with an operating mode indicator 7, with a turbine type fan 9, with internal UV-C LEDs 10.

Power supply 12 is connected to switch 11 via USB-C connector 6.

As external 4 and internal UV-C LEDs 10 are used, for example, UVC-3535 CREE LEDs, or their analog.

As an indicator of the operating mode 7, for example, a double red-green SMD LED, or its analogue, is used.

As a turbine type fan 9, for example, a Panasonic UDQFZZH32DAS DC5V 0.32 A 9928T centrifugal fan, or its analogue, is used.

As a power source 12, for example, a mobile phone charger with a USB-C port with a voltage of 5 V and a current strength of up to 2 A is used.

The proposed portable irradiator-recirculator works as follows.

The portable irradiator-recirculator can operate in two modes: either in the surface irradiation mode or in the air recirculator mode. Switching between operating modes of the device is carried out using the operating mode switch 5. Signaling of the operating modes of the device is carried out using the operating modes indicator 7. In this case, if the mode is the surface irradiator, then the operating mode indicator 7 glows red, and if the operating mode is selected, the recirculator air, then - green.

The principle of operation of the device is based on the bactericidal action of ultraviolet C-wavelengths 270 nM on pathogenic bacteria and viruses.

A portable irradiator-recirculator is connected to a power source 12 via USB-C connector 6.

If the mode is selected - surface irradiation, then external UV-C LEDs 4 begin to glow at an angle of 120 degrees, disinfecting the surface over which they are located. In this case, with the help of the energy exposure of the radiation source to the surface, the radiation dose is accumulated on the surface (J / min). The principle of contact of the disinfection surface with UV-C radiation at a distance of 5-20 cm is used - the maximum effective distance to the surface.

If the operating mode is selected as an air recirculator, then through the air intake holes 2, the air is sucked in by the turbine type fan 9, passes by the internal UV-C LEDs 10, is disinfected and exits through the blowing hole 3. At the same time, at a short distance, the energy illumination reaches high values up to 0.5 cm - 5 W / m ² . The principle of contact of the emitter with air and disinfection is used due to the high radiation power at a short distance.

The use of two air intake vents located on the top and bottom of the chassis ensures the highest possible intake of airflow. The special structure of the blow-out air outlet ensures maximum air flow to the outside with minimum speed losses.

The efficiency of the turbine-type fan is much higher than that of the standard (axial) type fans of similar dimensions and provides a throughput of 0.085 m3 / min. The use of this fan is also due to its design relative to the mounting plane (wide air flow of low height), which makes it possible to use the high radiation power of UV-C LEDs at a short distance of up to 10 mm most efficiently.

The presence of external and internal UV-C LEDs 10 provide the ability to disinfect both surfaces outside the device and the air inside it.

Claims (9)

1. Portable irradiator-recirculator containing a housing, openings for air flow, a fan, UV-C emitter, USB connector, characterized in that air intake openings are used as openings for air flow and a blow-out opening is used as a fan. a turbine-type fan is used, external UV-C LEDs and internal UV-C LEDs are used as a UV-C emitter, a USB-C connector is used as a USB connector, an additional device contains an operation mode switch, an operation mode indicator, a board, a switch, power supply, while the board is located inside the case, the board contains external UV-C LEDs, a turbine-type fan, internal UV-C LEDs and a switch that is connected to external UV-C LEDs, with a mode switch, with an operating mode indicator, with turbine type fan, with internal UV-C LEDs, power supply connected to the switch via USB-C connector, with external UV-C LEDs installed on the bottom surface of the board, on the bottom surface of the case in the holes and directed outward of the case, and internal UV-C LEDs are installed on the top surface of the board and directed towards the inside of the case. 2. Portable irradiator-recirculator according to claim 1, characterized in that the body is split and consists of two parts - upper and lower, with one of the sides of the upper part of the body being rounded, legs are made on the lower part of the body. 3. The portable irradiator-recirculator according to claim 1, characterized in that the openings for air intake are made on the upper and lower parts of the housing in the form of round gratings. 4. Portable irradiator-recirculator according to claim 1, characterized in that the blowing hole is made on the upper rounded part of the body in the form of a lattice. 5. Portable irradiator-recirculator according to claim 1, characterized in that the operating mode switch, USB-C connector and operating mode indicator are made on one of the end sides of the body. 6. Portable irradiator-recirculator according to claim 1, characterized in that UVC-3535 CREE LEDs or their analogs are used as external and internal UV-C LEDs. 7. Portable irradiator-recirculator according to claim 1, characterized in that a double red-green SMD LED or an analogue is used as an indicator of the operating mode. 8. Portable irradiator-recirculator according to claim 1, characterized in that a centrifugal fan Panasonic UDQFZZH32DAS DC5V 0.32 A 9928T or its analogue is used as a turbine type fan. 9. Portable irradiator-recirculator according to claim 1, characterized in that a mobile phone charger with a USB-C port with a voltage of 5 V and a current strength of up to 2 A is used as a power source.

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