RU203362U1 - Individual device, ultraviolet, LED, bactericidal - Google Patents

Abstract

The device is individual, ultraviolet, LED, bactericidal, refers to medical equipment, can be used as a protective and prophylactic device against surrounding pathogenic microorganisms, bacteria and viruses, to protect medical personnel and citizens, both in the open outdoors and in a closed space in The disinfecting effect is based on the property of ultraviolet waves of a short range (180-280 nm) to penetrate into the structure of the DNA of microorganisms, destroy it and prevent further cell division and reproduction. The need to develop this technical solution arose in connection with the outbreak of a viral pandemic in the world, which is cardinally changes for the worse the regulations of each person and state, with the ensuing lethal and economic consequences. The technical result of the developed solution is to create and expand the technical and technological capabilities of the design of an individual, mobile, technological, compact and era a gonomic UV device, where a bactericidal UV LED strip is used as a source of ultraviolet radiation, which increases the degree of disinfection of the ambient air and increases the degree of disinfection of surfaces of objects from pathogenic microorganisms, bacteria and viruses (in particular, disinfection up to 99.9%) and at the same time, the UV design the device must exclude the adverse effects of UV rays on human health, in accordance with the standards of the manual R.3.5.1904 - 04. The device is individual, ultraviolet, LED, bactericidal, consisting of a housing with at least one source of ultraviolet radiation installed in it and an electrical circuit with a power supply connected to the radiation source and made with a hole on the front side, and with the possibility of installing a removable plate, while the device body is made in the form of a headgear with a groove along the outer perimeter, in which at least one row of led one tape of the ultraviolet irradiator, repeating the contour of the groove of the outer perimeter of the device body and deepened in the groove in such a way that the opaque surfaces of the groove are made with the possibility of blocking ultraviolet rays in three directions, and in the fourth direction, the rays can freely propagate in space, disinfecting the atmospheric air around the head and the human body from pathogenic microorganisms, bacteria and viruses; the groove repeating the outer perimeter of the device body is made closed on the fourth side from the bottom with a quick-detachable opaque plate attached to it, with the creation of a closed space inside the groove where the LED strip of the ultraviolet irradiator is located; on the surface of the plate are made, at least two holes, as far as possible from each other, through which it is possible to suck in, when breathing, ambient atmospheric air into a closed space, in the area of the UV LED strip irradiator, enveloping and passing along the entire perimeter of the LED strip, disinfected air, with the possibility of entering through the cutout of the inner wall of the groove, into the sealed space created around the human head; a removable transparent front protective shield is introduced, repeating the contour of the outer perimeter of the device body and fixed on the surface along the inner perimeter of the groove of the device body; an exhalation valve is introduced, which is fixed on a transparent front protective shield, with the possibility of exhausting exhaled air into the atmosphere; a collar is introduced, made with the possibility of creating an airtight space around a person's head, attached to a removable transparent front protective shield and, at the same time, to the body of the device, and the lower part is made with the possibility of flowing around the neck of a person and made of polymer-viscose fabric having water-repellent properties; the fan and air ducts connected to the fan are made with the possibility of suction atmospheric air flow into a closed space in the area of placement of the LED strip of the ultraviolet irradiator and the ingress of purified air into the hermetic space around the human head through a cutout on the inner wall of the groove; a fan with air ducts are fixed on the upper part of the device body from the outside and are made with the possibility of functioning from the same DC power supply as the LED strip; introduced a removable handle on the device body; introduced a DC power supply in the form of rechargeable batteries with a switch and battery charge indicator; introduced a headgear tightening in the form of a chin strap that fixes the device body

Description

The utility model relates to medical equipment, namely to individual devices, ultraviolet, LED, bactericidal, protective and prophylactic irradiators that disinfect the surrounding air and surfaces of objects from microorganisms, bacteria and viruses, and can be used as an individual protective and prophylactic device against surrounding pathogenic microorganisms, bacteria and viruses of medical personnel and citizens, both in open and closed spaces.

Bactericidal LED ultraviolet (UV) radiation is an effective prophylactic, sanitary and anti-epidemic agent. It prevents the spread of massive infectious diseases, destroys almost all known pathogenic microorganisms.

The physical principle of operation of an ultraviolet LED is based on the ability of a semiconductor junction to emit light when a direct current passes through it. The LEDs of the ultraviolet irradiator are made of a semiconductor crystal, a lens and a contact wire, while the crystal is made of semiconductors with the ability to convert the flow of electrons into a luminous flux, and the LED strip of the ultraviolet irradiator is made of a flexible mounting base, on which LEDs are installed in series by surface mounting and limiting them current resistors. A self-adhesive layer is applied to the underside.

To create just ultraviolet radiation, additives are used, for example, gallium aluminum arsenide, gallium nitride, aluminum nitride, etc. The result is LEDs with a radiation spectrum ranging from 100 to 400 nm (near UV). In this case, the intensity of the radiation changes due to the regulation of the passing current.

The disinfecting effect is based on the property of ultraviolet waves of a short range of 180-280 nm to penetrate the structure of the DNA of microorganisms, destroy it and prevent further cell division and reproduction. For example, the maximum decontamination effect is achieved with a wavelength of 265 nm and 253.7 nm by a UV source from the emitter.

Subject to safety rules, individual LED ultraviolet germicidal devices are safe for human health.

From the existing level of technology, a solution is known according to patent No. 84713 dated 20.07.2009, IPC A61N 5/08, RU.

A universal medical device for ultraviolet irradiation, comprising a housing with a front protruding part having an oval-shaped hole in the center, an ultraviolet irradiation lamp with an electrical circuit located in the housing, a means for supporting the housing and means for supplying an electrical circuit, and the device is equipped with a removable damper, according to the configuration repeating the protruding part of the body and installed with the ability to slide along the protruding part, in the center of the shutter there is an opening in which a convex flange with stiffening ribs is installed, having rectangular grooves on the outer surface, and the shutter on one of the lateral sides is made with a curved edge upward.

The disadvantages are the stationary placement of the device only on flat surfaces, the functional limitation of use with the help of replaceable elements for intracavitary irradiation in the treatment of a number of diseases and the limitation of the possibility of air disinfection in the room by the recirculation method, the degree of protection from mechanical damage to the ultraviolet radiation source when it is used openly is reduced.

Known solution for patent No. 154461 from 07.04. 2015, IPC A61N 5/06, RU.

An ultraviolet irradiator, consisting of a housing with a UV source installed in it and an electrical circuit with a power supply connected to the radiation source, while the housing is equipped with a support means and is made with an opening for directional action of ultraviolet radiation, and a circuit of series-connected panels is introduced into the electrical circuit control panel, controller and digital indicator, while the control panel and the controller are connected to the power supply unit, including the operating time sensor unit, the unit of the total operating time of the radiation source and the turn-on delay unit, and the support means and the housing are hingedly connected to each other with the possibility of fixing them at an angle to each other.

The disadvantage of the device design is the stationary placement of the device only on flat surfaces, a decrease in the degree of protection against mechanical damage to the ultraviolet radiation source.

The closest to the claimed technical solution is the design according to patent No. 174614 dated 23.10.2017, IPC A61N 5/06, RU.

An ultraviolet irradiator, consisting of a housing with at least one UV source installed in it and an electrical circuit with a power supply connected to the radiation source and made with a hole on the front side for directed action of UV radiation, and with the possibility of installing a removable shutter with a hole for placing a tube in it, while the body is equipped with a support means, and additional replaceable tubes are introduced, at least two of which are made with outlet holes of different diameters, and the specified tube has a beveled cut of the outlet opening and is installed in a removable flap with the possibility of fixed fixation in certain positions , while the body in the support means is pivotally fixed with the possibility of rotation in a vertical plane relative to the latter and fixation in different positions.

The advantage of the solution is the increase in the efficiency of treatment with the irradiator and the convenience of its use.

The disadvantages are stationary placement of the device only on flat surfaces, functional limitation of use by means of replaceable elements.

The task of the proposed utility model is the need for a high degree of disinfection of the inhaled air around the human head from pathogenic microorganisms, bacteria and viruses, including from the coronavirus COVID-19, as well as the need for improved disinfection of the surfaces of objects.

The technical result of the developed solution consists in creating and expanding the technical and technological capabilities of the design of an individual, mobile, technological, compact and ergonomic UV device, where a bactericidal UV LED strip is used as a source of ultraviolet radiation, which increases the degree of disinfection of the ambient air and increases the degree of disinfection of surfaces of objects from pathogenic microorganisms, bacteria and viruses (in particular, air disinfection up to 99.9%) and at the same time the design of the UV device must exclude the adverse effects of UV rays on human health, in accordance with the standards of the manual R.3.5.1904 - 04.

For example, it is known from the prior art that bactericidal ultraviolet tapes with LEDs synthesizing UV rays with a high result of air disinfection and disinfection of object surfaces are provided (up to 99.9%) at a wavelength of 253.7 nm or 265 nm. Thus, the device can be used both for the safe work of medical personnel with patients, and for the safe movement of citizens by public transport, the safe stay of citizens in the workplace and in public places with a high degree of protection against pathogenic microorganisms, bacteria and viruses.

This goal is achieved in the following way.

The device is individual, ultraviolet, LED, bactericidal, consisting of a housing with at least one ultraviolet radiation source installed in it and an electrical circuit with a power supply connected to the radiation source and made with a hole on the front side, and with the possibility of installing a removable plate, when In this case, the device body is made in the form of a headgear with a groove along the outer perimeter, in which at least one row of LED strip of the ultraviolet irradiator is placed and fixed, repeating the contour of the groove in the outer perimeter of the device body and deepened in the groove in such a way that the opaque surfaces of the groove are made with the ability to block ultraviolet rays in three directions, and in the fourth direction, the rays can freely spread in space, disinfecting the atmospheric air around the head and body of a person from pathogenic microorganisms, bacteria and viruses;

the groove repeating the outer perimeter of the device body is made closed on the fourth side from the bottom with a quick-detachable opaque plate attached to it, creating a closed space inside the groove where the LED strip of the ultraviolet irradiator is located;

on the surface of the plate, at least two holes are made, as far as possible from each other, through which it is possible to suck, when breathing, ambient atmospheric air into a closed space, in the area of the LED strip of the ultraviolet irradiator, enveloping and passing along the entire perimeter of the LED strip , disinfected air, with the possibility of entering through the cutout of the inner wall of the groove, into the sealed space created around the human head;

a removable transparent front protective shield is introduced, repeating the contour of the outer perimeter of the device body and fixed to the surface along the inner perimeter of the groove in the device body;

an exhalation valve is introduced, which is fixed on a transparent front protective shield, with the possibility of exhausting exhaled air into the atmosphere;

a collar is introduced, made with the possibility of creating a hermetic space around the head of a person, attached to a removable transparent front protective shield, and, at the same time, to the body of the device, and the lower part made with the possibility of flowing around the neck of a person, and made of polymer-viscose fabric having water-repellent properties ,

the fan and air ducts connected to the fan are made with the possibility of sucking atmospheric air into a closed space in the area of placing the LED strip of the ultraviolet irradiator and getting the purified air into the hermetic space around the human head through a cutout on the inner wall of the groove;

a fan with air ducts are fixed on the upper part of the device body from the outside and are made capable of functioning from the same DC power supply unit as the LED strip;

a removable handle has been introduced on the body of the device;

a DC power supply unit was introduced in the form of rechargeable batteries with a switch and an indicator of the battery charge;

a headgear tightening in the form of a chin strap was introduced, fixing the body of the device on the person's head;

a textile velcro fastener is introduced, attached with one part to the connecting wire, and the other part to the device body with the ability to prevent the wiring from falling out from the base of the ultraviolet tube;

LEDs of the ultraviolet irradiator are made of a semiconductor crystal, a lens and a contact wire, while the crystal is made of semiconductors with the ability to convert the flow of electrons into a luminous flux, and the LED strip of the ultraviolet irradiator is made of a flexible mounting base, on which LEDs are installed in series by surface mounting and limiting them current resistors;

a self-adhesive layer is applied to the underside;

on the surfaces of the body of the device, on the surface of the transparent front protective shield, on the chin strap, holes and cutouts are made to accommodate fastening and connecting elements;

inside the body of the device is placed and fixed internal equipment with adjustment, with the possibility of fixing the body of the device on the head of a person.

In addition, there are specific options for the implementation of the utility model, according to which:

- the DC power supply unit and the switch of the LED strip of the ultraviolet irradiator are fixed in the upper part of the device body in the dome from the inside, with the possibility of replacing the rechargeable batteries when discharging;

- the body of the device is made of fabric material;

- the transparent face shield is made of transparent polycarbonate elastic sheet;

- the device contains at least two exhalation valves;

- the mounting base of the ultraviolet tape is made in the form of a board.

In the presented drawings:

FIG. 1 - General view of the device, where:

1 - Device case.

2 - Handle on the device body.

3 - Electric wire connecting the base of the ultraviolet irradiator with the DC power supply.

4 - DC power supply.

5 - Power supply switch.

6 - Indicator.

7 - Transparent protective front shield.

FIG. 2 - Projection views of the device, where:

1 - Device case.

2 - Handle on the device body.

3 - Electric wire connecting the base of the UV irradiator unit with the DC power supply.

4 - DC power supply.

5 - Power supply switch.

6 - Indicator.

7 - Transparent protective front shield.

8 - LED strip of ultraviolet irradiator.

9 - Tightening the device body.

FIG. 3 - View of the LED strip of the ultraviolet irradiator with a connecting wire and a DC power supply, where:

3 - Electric wire connecting the base of the UV irradiator unit with the DC power supply.

4 - DC power supply.

5 - Power supply switch.

8 - LED strip of ultraviolet irradiator.

10 - Base of the LED strip of the ultraviolet irradiator.

11 - Holder for connecting wire - textile fastener - Velcro.

FIG. 4 - Section of the device, where:

1 - Device case.

1-1 - A groove along the outer perimeter in the device body.

2 - Handle on the device body.

8 - LED strip of ultraviolet irradiator.

10 - Base of the LED strip of the ultraviolet irradiator.

11 - Connecting wire holder - Velcro textile fastener.

FIG. 5 - General view of a closed-type recirculator, where:

1 - Device case.

2 - Handle on the device body.

3 - Electrical wire connecting the LED strip of the ultraviolet irradiator with the DC power supply.

5 - Power supply switch.

7 - Transparent protective front shield.

12 - The plate is opaque.

13 - Exhalation valve.

14 - Fan.

17 - Collar.

FIG. 6 - Projection views of a closed-type recirculator, where:

1 - Device case.

2 - Handle on the device body.

7 - Transparent protective front shield.

8 - LED strip of ultraviolet irradiator.

12 - The plate is opaque.

13 - Exhalation valve.

14 - Fan.

17- Collar.

19 - Fan compartment cover.

FIG. 7 - Sectional view of a closed-type recirculator, where:

1 - Device case.

7 - Transparent protective front shield.

8 - LED strip of ultraviolet irradiator.

10 - LED strip base.

12 - The plate is opaque.

13 - Exhalation valve.

14 - Fan.

15 - Air duct.

16 - Air duct.

17 - Collar.

20 - Holes on the plate.

The assembly is carried out as follows.

Device housing 1 FIG. 1, fig. 2, FIG. 4 is made in the form of a headgear with a groove 1-1 along the outer perimeter, in which at least one row of the LED strip of the ultraviolet irradiator 8 is placed and fixed, repeating the contour of the groove 1-1 of the outer perimeter of the device body and placed and fixed in the groove 1 -1 in such a way that the opaque surfaces of the groove 1-1 block the propagation of ultraviolet rays in three directions, and in the fourth direction the rays freely spread in space, disinfecting the atmospheric air around the head and body of a person from pathogenic microorganisms, bacteria and viruses.

A groove 1-1 repeating the outer perimeter of the device body 1, FIG. 5, Fig. 6 is closed on the fourth side from the bottom with a quick-detachable opaque plate 12 and attached to it, creating a closed space inside the groove 1-1, where the LED strip of the ultraviolet irradiator is placed and fixed 8. The LED strip of the ultraviolet irradiator 8 is fixed using a self-adhesive layer applied on the reverse side of the tape with the possibility of replacing the tape. On the plate 12, at least two holes 20 are made, which are as distant as possible from each other, through which, with a sigh, the surrounding atmospheric air is sucked into the closed space, in the area of the LED strip of the ultraviolet irradiator 8, enveloping and passing along the entire perimeter of the LED tape 8, the disinfected air enters through the cutout in the inner wall of the groove 1-1, into the sealed space created around the human head.

Removable transparent front protective shield 7, repeating the contour of the outer perimeter of the device body 1, is fixed on the surface along the inner perimeter of the groove 1-1 of the device body 1.

The exhalation valve 13, at least two, which removes the exhaled air into the atmosphere, is fixed on the transparent front protective shield 7.

The collar 17, creating a sealed space around the head of the person, is attached to the removable transparent front protective shield 7 and, at the same time, to the body of the device 1, with the lower part around the neck of the person. The collar is made of polymer-viscose fabric with water-repellent properties, or from dense cotton fabrics.

The suction of atmospheric air into the closed space in the area of the LED strip of the ultraviolet irradiator 8, and the ingress of purified air into the hermetic space around the human head, through the cutout on the inner wall of the groove 1-1, is carried out using the fan 14 and air ducts 15, 16 connected to it. The fan 14 with air ducts 15, 16 is fixed on the upper part of the housing of the device 1 from the outside, and it operates from the same DC power supply 4 as the LED strip 8.

The removable handle 2 is fixed on the body of the device 1. With its help, the body of the device 1 is brought to the surface of the objects in such a way that the ultraviolet rays from the source hit the surface of the objects, disinfect them from microorganisms, bacteria and viruses.

An electric wire 3 is connected to a DC power supply 4 in the form of rechargeable batteries with a switch 5 and a battery charge indicator 6, and the other end of the wire 3 is connected to the base 10 of the LED strip of the ultraviolet irradiator 8.

The tightening 9 of the headgear 1 in the form of a chin strap is fixed in the body of the device 1 from the inside to fix the body 1 on the head of a person.

Textile Velcro 11 is attached in one part to the connecting wire 3, and the other part to the body of the device 1, in order to prevent the wiring from falling out of the base 10 of the LED strip of the ultraviolet irradiator 8.

On the surfaces of the body of the device 1, on the surface of the transparent front protective shield 7, on the chin strap 9, holes and cutouts are made to accommodate the fastening and connecting elements.

The body of the device 1 is made of a fabric material and on it, along the outer perimeter, a groove 1-1 is made, repeating the outer contour of the perimeter of the body of the device 1.

The DC power supply 4 and the switch 5 of the LED strip of the ultraviolet irradiator 8 are fixed in the upper part of the device body 1 in the dome from the inside, with the possibility of replacing the rechargeable batteries 4 during discharge.

Inside the body of the device 1, the internal equipment is placed and fixed with an adjustment for fixing the body of the device on the head of a person.

The claimed device is compact and ergonomic in use, manufacturability of the constituent elements of the structure and the necessary functionality. In addition, if necessary, the device can be rebuilt in a short time from a closed (recirculator type) to an open one and vice versa.

The claimed technical solution does not present any difficulties for the current level of production. Design documentation has been developed and industrial production has been mastered. The design is collapsible, which increases the convenience of assembly, transportation and operation of the product. The structure is made at the request of the customer with various design solutions and a different set of equipment, various devices and fixtures.

Claims (22)

1. The device is individual, ultraviolet, LED, bactericidal, consisting of a housing with at least one ultraviolet radiation source installed in it and an electrical circuit with a power supply connected to the radiation source and made with a hole on the front side, and with the possibility of installation removable plate, characterized in that the device body is made in the form of a headgear with a groove along the outer perimeter, in which at least one row of LED strip of the ultraviolet irradiator is placed and fixed, repeating the contour of the groove in the outer perimeter of the device body and deepened in the groove so that the opaque surfaces of the groove are made with the ability to block ultraviolet rays in three directions, and in the fourth direction, the rays can freely spread in space, disinfecting the atmospheric air; the groove repeating the outer perimeter of the device body is made closed on the fourth side from the bottom with a quick-detachable opaque plate attached to it, creating a closed space inside the groove where the LED strip of the ultraviolet irradiator is located; on the surface of the plate, at least two holes are made, as far as possible from each other, through which it is possible to suck, when breathing, ambient atmospheric air into a closed space, in the area of the LED strip of the ultraviolet irradiator, enveloping and passing along the entire perimeter of the LED strip , disinfected air, with the possibility of entering through the cutout of the inner wall of the groove, into the sealed space created around the human head; a removable transparent front protective shield is introduced, repeating the contour of the outer perimeter of the device body and fixed to the surface along the inner perimeter of the groove in the device body; an exhalation valve is introduced, which is fixed on a transparent front protective shield, with the possibility of exhausting exhaled air into the atmosphere; a collar is introduced, made with the possibility of creating a hermetic space around the head of a person, attached to a removable transparent front protective shield and, at the same time, to the body of the device, and the lower part made with the possibility of flowing around the neck of a person, and made of polymer-viscose fabric having water-repellent properties; the fan and air ducts connected to the fan are made with the possibility of sucking in atmospheric air into a closed space in the area of placing the LED strip of the ultraviolet irradiator and getting the purified air into the hermetic space around the human head through a cutout on the inner wall of the groove; a fan with air ducts are fixed on the upper part of the device body from the outside and are made capable of functioning from the same DC power supply unit as the LED strip; a removable handle has been introduced on the body of the device; a DC power supply unit was introduced in the form of rechargeable batteries with a switch and an indicator of the battery charge; a headgear tightening in the form of a chin strap was introduced, fixing the body of the device on the person's head; a textile velcro fastener is introduced, attached with one part to the connecting wire, and the other part to the device body with the ability to prevent the wiring from falling out from the base of the ultraviolet tube; LEDs of the ultraviolet irradiator are made of a semiconductor crystal, a lens and a contact wire, while the crystal is made of semiconductors with the ability to convert the flow of electrons into a luminous flux, and the LED strip of the ultraviolet irradiator is made of a flexible mounting base, on which LEDs are installed in series by surface mounting and limiting them current resistors, a self-adhesive layer is applied to the underside; on the surfaces of the body of the device, on the surface of the transparent front protective shield, on the chin strap, holes and cutouts are made to accommodate fastening and connecting elements; inside the body of the device is placed and fixed internal equipment with adjustment, with the possibility of fixing the body of the device on the head of a person. 2. The device according to claim 1, characterized in that the DC power supply unit and the switch of the LED strip of the ultraviolet irradiator are fixed in the upper part of the device body in the dome from the inside, with the possibility of replacing the rechargeable batteries during discharge. 3. The device according to claim. 1, characterized in that the body of the device is made of fabric material. 4. The device according to claim 1, characterized in that the transparent face shield is made of a polycarbonate transparent elastic sheet. 5. The device according to claim 1, characterized in that it contains at least two exhalation valves. 6. The device according to claim 1, characterized in that the mounting base is made in the form of a board.

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