RU140768U1 - DEVICE FOR DISINFECTION AND STERILIZATION OF OBJECTS - Google Patents

Abstract

1. A device for disinfection and sterilization of objects, containing a camera with a lid, with a source of ultraviolet radiation located at the bottom of the camera, and means for placing processed objects, characterized in that the lid has a source of ultraviolet radiation, while the bottom of the camera with a source of ultraviolet radiation it is covered by an element transparent to ultraviolet radiation, and the sources of ultraviolet radiation are equipped with reflectors. 2. A device for disinfecting and sterilizing objects according to claim 1, characterized in that the lid is connected to the camera via a swivel. A device for disinfecting and sterilizing objects according to claim 1, characterized in that the chamber and lid are made with reflective internal surfaces. A device for disinfection and sterilization of objects according to claim 1, characterized in that the means for placing the processed objects is removable. A device for disinfection and sterilization of objects according to claims 1 and 4, characterized in that the means for accommodating the processed objects is made in the form of a stainless steel wire mesh. 6. A device for disinfection and sterilization of objects according to claim 1, characterized in that the source of ultraviolet radiation is made in the form of a bactericidal lamp of ultraviolet short-wave radiation, equipped with an internal coating that absorbs the ozone spectrum. A device for disinfecting and sterilizing objects according to claim 1, characterized in that the reflector is installed between the bottom of the chamber and the source of ultraviolet radiation. A device for disinfection and sterilization of objects according to claim 1, characterized in that the reflect

Description

The utility model relates to the field of medicine, namely to devices for sterilization and disinfection of various objects using ultraviolet radiation, in particular, is used to disinfect removable dentures.

The prior art devices for the sterilization of toothbrushes, dentures and medical instruments using ultraviolet radiation.

A device for sterilizing medical instruments is known (RU 2071785, IPC A61L 2/10, publ. 01/20/1997), containing a chamber with a hole for placing medical instruments, a lid, a UV source and means for placing sterilized instruments are placed inside the chamber, having the form of a flat quartz glass, the plane of which passes through the lower focal axis of the camera. The inner side surface of the camera is cylindrical, the end surfaces of the camera are ellipses, the source of ultraviolet radiation is installed along the upper focal axis of the camera. To ensure free convective air transport in the walls of the chamber there are holes.

The device is difficult to manufacture as a result of the need to perform a cylindrical-ellipsoid chamber and placing the radiation source at a certain distance from the chamber walls.

In addition, the location of the hole for loading the processed tools on the side of the camera makes it difficult to place and remove tools from the camera and visually control the placement of tools in the camera.

A device for disinfecting "Microcid" is known (RU 2127126, IPC A61L 2/08, A61L 2/10, publ. 03/10/1999), comprising a housing made of plastic having antistatic properties, in which a camera with a hinged lid is installed made of material with a specularly reflective surface. The camera has two sources of ultraviolet radiation, placed on two opposite walls of the camera, and a means for accommodating the processed objects. The casing is equipped with a breaker to turn off the source of ultraviolet radiation when opening the lid. An electronic control unit is located on the right side of the case. In the chamber, the base, upper and end parts are made flat, and the lateral surfaces from the side of the location of the ultraviolet radiation source are made with an inclination at an angle of at least 25 ° with the possibility of focusing the radiation on the treated surface.

The device is also difficult to manufacture due to the need to perform the side surfaces of the camera from the location of the sources of ultraviolet radiation inclined.

The use of two sources of ultraviolet radiation leads to a significant increase in the temperature of the treated objects, and as a result of additional exposure of the ozone generated during sterilization to the objects, the objects are gradually damaged and destroyed, and their service life is reduced.

The device for disinfection, storage and transportation of Nina instruments and equipment (RU 10573, IPC A61L 2/10, publ. 08.16.1999), containing a case in the form of a working chamber with a hermetically hinged lid, was chosen as the closest analogue the inner surfaces of the chamber, including the lid, are concave and made of polished material; UV radiation sources are located at the bottom of the chamber, over which a removable tool shelf is located. The device is equipped with a timer to control exposure. The shelf for the location of the tools is made in the form of a coarse mesh or quartz glass.

The execution of the inner surfaces of the chamber, including the cover, concave complicates the manufacturing process of this device.

The use of several sources of ultraviolet radiation also leads to an increase in the temperature of the processed objects, which negatively affects the material of the processed objects.

In all of these devices, the design features of the camera are provided to provide more complete irradiation of the entire surface of the objects. However, when sterilizing objects in known structures, shaded areas of the surface of objects are observed that are not exposed to ultraviolet radiation, and therefore they are not sterilized. Thus, a common disadvantage of the known devices is the low efficiency of using sources of ultraviolet radiation.

The problem, which the real utility model is aimed at, is to increase the efficiency of disinfection and sterilization of objects using a source of ultraviolet radiation.

The solution of the problem in the device for disinfection and sterilization of objects containing a camera with a lid, with an ultraviolet radiation source located at the bottom of the camera, and means for placing the objects to be processed, is achieved by the fact that an ultraviolet radiation source is installed in the lid, while the bottom of the camera is with a source ultraviolet radiation is closed by an element transparent to ultraviolet radiation, and sources of ultraviolet radiation are equipped with reflectors.

The lid is connected to the camera through a swivel.

The camera and the cover are made with reflective internal surfaces.

Reflectors are installed between the bottom of the camera and the source of ultraviolet radiation and, accordingly, the lid and the source of ultraviolet radiation.

The reflector is made in the form of a concave plate.

Means for placement of processed objects made removable.

Means for placement of processed objects is made in the form of a stainless steel wire mesh.

A transparent element for ultraviolet radiation is made in the form of a plate of organic glass.

A transparent element for ultraviolet radiation is hermetically connected to the camera.

The source of ultraviolet radiation is made in the form of a bactericidal lamp of ultraviolet short-wave radiation, equipped with an internal coating that absorbs the ozone spectrum.

The reflector is made aluminized.

The device is equipped with two control units, each of which is connected to a source of ultraviolet radiation.

The cover is made with the possibility of fixing in the open position, for example, using magnetic clips.

Due to the use in the design of the proposed device of two sources of ultraviolet radiation located on opposite sides of the processed objects, as well as the supply of ultraviolet radiation sources with reflectors that focus the radiation on the processed objects, shadowless irradiation of the entire surface of the processed objects is ensured, and as a result, the efficiency of ultraviolet radiation is increased .

However, the presence of two sources of ultraviolet radiation leads to overheating of the processed material and, as a consequence, to its gradual destruction, therefore, during sterilization, water or an antiseptic solution, which serves as an additional means of sterilization, is poured into the chamber. The use of water or another solution ensures that the heating temperature of the material to be sterilized is maintained.

The use of ultraviolet short-wave radiation bactericidal lamps with an internal coating absorbing the ozone spectrum as sources of ultraviolet radiation does not destroy the material of the processed objects and the internal elements of the chamber, increasing their service life and the reliability of the device.

The proposed device does not contain complex elements and expensive materials, is characterized by simplicity of design and economical in production and operation.

The implementation of the cover with the possibility of its fixed fixation in the open (vertical) position provides the convenience of working with the device when placing, removing the processed objects and when draining the liquid from the chamber.

The following is one embodiment of the present utility model. This example is provided primarily for illustrative purposes and should not be construed as limiting the scope of claims.

The essence of the utility model is illustrated by drawings: in FIG. 1 is a general view of the device with the lid closed, in FIG. 2 is a front view of the device with the cover open and closed; FIG. 3 is a side view of the device with the lid closed (cross section).

The device for disinfecting and sterilizing objects comprises a housing 1, in which a chamber 2 is mounted, made in the form of a rectangular horizontally oriented parallelepiped, to which the cover 3 is pivotally attached. The housing 1 of the device can be equipped with supporting elements 4. The chamber 2 and the cover 3 are made of stainless steel medical devices with reflective ultraviolet radiation internal surfaces.

Inside the chamber 2 there are two sources of ultraviolet radiation 5, which are bactericidal lamps of ultraviolet short-wave radiation, equipped with an internal coating that absorbs the ozone spectrum.

Bactericidal lamps 5 are placed on opposite sides of the chamber 2: one is installed on the inner surface of the cover 3 of the chamber 2, the second - at the bottom of the chamber 2.

As a bactericidal lamp 5, a Philips TUV PL-S 2 pin 11 W low-pressure mercury discharge lamp with a power of 11 W and a power of ultraviolet radiation of 3.6 W can be used, producing short-wave ultraviolet radiation with a peak value at a wavelength of 253.7 nm, which provides the most complete disinfection.

Each bactericidal lamp 5 is equipped with an aluminized reflector 6, which is a plate with a reflective surface of ultraviolet radiation of a small thickness of a concave shape.

An aluminized reflector 6 is installed between the cover 3 of the chamber 2 and the upper bactericidal lamp 5 and, respectively, between the bottom of the chamber 2 and the lower bactericidal lamp 5. The aluminized reflectors 6 are installed in such a way that they completely cover the bottom and the base of the cover 3 of the chamber 2.

The aluminized reflector 6 redirects the ultraviolet radiation flux from the bactericidal lamp 5, which is emitted in the direction opposite to the sterilization area, directing it to the object being treated, thereby increasing the sterilization efficiency.

The bottom of the chamber 2 with a bactericidal lamp 5 is hermetically closed by a flat element 7, transparent to ultraviolet radiation, by a plate, about 3 mm thick, made, for example, of transparent organic glass.

The bactericidal lamp 5, mounted in the lid 3, is also covered by a flat element transparent to ultraviolet radiation.

Above the plate 7, a removable means for accommodating the processed objects (shelf) 8 is installed, made in the form of a coarse mesh of stainless steel for medical purposes.

The electrical circuit of the device contains two interconnected control units 9, in which are cartridges for installing bactericidal ultraviolet lamps 5. The control units 9 are located on the right side of the housing 1, one control unit 9 communicates with the cover 3, and the second with the bottom of the housing 1.

The electrical circuit of the device contains a choke 10 with a power of 23 W, which ensures the inclusion and operability of ultraviolet lamps 5, made in one housing with an electric plug.

The processing mode switch 11 is located in the upper control unit 9. The lower and upper control units 9 are equipped with a set of magnetic lock 12 to make the lid 3 stationary in the open position.

The device is powered from a public utility network 220 V.

As the calculations and tests showed, the optimal dimensions of the device, providing ease of manufacture, assembly and operation, are: total length 330 mm, width 120 mm and the total height of the housing 1, including supporting elements 4, 150 mm, while the size of the chamber 2: length 220 mm, width 120 mm, height 130 mm.

A device for disinfection and sterilization of objects works as follows.

Removable dentures are placed on the mesh shelf 8, flowing water, or any antiseptic solution in a volume of 500 ml, is poured into the chamber 2. Cover 3 is closed. The device is connected to the power supply, the switch 11 of the upper control unit 9 is placed in the on position. The sterilization process begins. Sterilization time is about 15 minutes.

After the sterilization process is completed, the switch 11 is turned into the off position, the device cover 3 is opened, which is fixed with the magnetic lock 12 of the control units 9 in the open position, removable dentures are removed. Water or solution is drained. The lid 3 is closed by a hand force.

This device is used mainly for individual use at home for sterilization and disinfection of removable dentures, it is characterized by simplicity, ease of use and reliability.

The device can be manufactured in domestic industry, using well-known processes and standard equipment.

Claims (16)

1. A device for disinfection and sterilization of objects, containing a camera with a lid, with a source of ultraviolet radiation located at the bottom of the camera, and means for placing processed objects, characterized in that the lid has a source of ultraviolet radiation, while the bottom of the camera with a source of ultraviolet radiation closed by a transparent element for ultraviolet radiation, and the sources of ultraviolet radiation are equipped with reflectors. 2. The device for disinfection and sterilization of objects according to claim 1, characterized in that the lid is connected to the camera through a swivel. 3. The device for disinfection and sterilization of objects according to claim 1, characterized in that the chamber and the lid are made with reflective internal surfaces. 4. The device for disinfection and sterilization of objects according to claim 1, characterized in that the means for placing the processed objects is removable. 5. A device for disinfection and sterilization of objects according to claims 1 and 4, characterized in that the means for placing the processed objects is made in the form of a stainless steel wire mesh. 6. The device for disinfection and sterilization of objects according to claim 1, characterized in that the source of ultraviolet radiation is made in the form of a bactericidal lamp of ultraviolet short-wave radiation, equipped with an internal coating that absorbs the ozone spectrum. 7. The device for disinfection and sterilization of objects according to claim 1, characterized in that the reflector is installed between the bottom of the chamber and the source of ultraviolet radiation. 8. The device for disinfection and sterilization of objects according to claim 1, characterized in that the reflector is installed between the lid and the source of ultraviolet radiation. 9. A device for disinfection and sterilization of objects according to claims 1, 7 and 8, characterized in that the reflector is made in the form of a concave shape plate. 10. A device for disinfection and sterilization of objects according to claims 1, 7, 8 and 9, characterized in that the reflector is made aluminized. 11. The device for disinfection and sterilization of objects according to claim 1, characterized in that the element transparent to ultraviolet radiation is made in the form of a plate. 12. The device for disinfection and sterilization of objects according to claim 1, characterized in that the element transparent to ultraviolet radiation is made of organic glass. 13. The device for disinfection and sterilization of objects according to claim 1, characterized in that the element transparent to ultraviolet radiation is hermetically connected to the camera. 14. The device for disinfection and sterilization of objects according to claim 1, characterized in that it is equipped with two control units, each of which is connected to a source of ultraviolet radiation. 15. The device for disinfection and sterilization of objects according to claim 1, characterized in that the cover is made with the possibility of fixing in the open position. 16. The device for disinfection and sterilization of objects according to clause 15, characterized in that the cover is made with the possibility of fixing in the open position using magnetic clips.

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