RU187150U1 - HOUSEHOLD UV STERILIZER - Google Patents

Abstract

The utility model relates to devices for sterilizing dishes for preserving foods and dishes for feeding children, in particular to devices for sterilizing and inactivating microorganisms using UV radiation, including sanitary-hygienic devices based on UV radiation for sterilizing dishes in household ( home) conditions. The technical result achieved by the claimed technical solution is to increase the safety of using a household ultraviolet sterilizer and the convenience of its operation. The technical result is achieved by the fact that the household ultraviolet sterilizer for sterilizing dishes for preserving food and dishes for feeding children contains a housing, the upper part of which acts as a support for sterilized containers, a UV source located in the center of the support so that when the container is installed on The UV radiation source is located inside the tank, a protective screen that protects the user from the harmful effects of UV radiation during operation of the sterilizer, and a control unit. In this case, the source of UV radiation is placed in a transparent protective shell that transmits UV radiation. The UV radiation source is additionally protected by a cover located on the upper part of the UV radiation source, and its lower part is fixed in the base and is installed in the cartridge through an opening in the housing. On the upper part of the casing, annular recesses are made for fixing sterilized containers with different neck diameters. A switching device is located on the side surface of the housing, which enables the sterilizer to be turned on and off without disconnecting the power cord from the mains. To protect the user from the harmful effects of UV radiation, the design of the household ultraviolet sterilizer is equipped with a mechanism that prevents the sterilizer from turning on without a protective screen.

Description

The invention relates to devices for sterilizing dishes for preserving food and dishes for feeding children, in particular to devices for sterilizing and inactivating microorganisms using optical ultraviolet radiation (hereinafter - UV radiation), including sanitary-hygienic devices based on UV radiation for sterilizing dishes in domestic (home) conditions.

One of the known methods of sterilizing dishes in everyday life is heat (steam) processing.

One of the ways to sterilize dishes in everyday life with steam is a method in which pre-washed cans are placed with their mouth down on the opening of a container of boiling water, for example, on the spout of a teapot or its neck (see A. Sivaev, G. Vasilchenko, E Tymoshenko We can preserve it ourselves. Publishing house "Relic", Belgorod, 1992, p. 23).

A device for steam sterilization of cans is also known, including a tunnel chamber with a sterilization zone, a conveying device passing through it with guides for rolling the cans, a heating device, a steam collector and an exhaust device (application for the grant of a patent for the invention of the Russian Federation No. 95119139, A61L 2/00, November 13, 1995). This device allows you to simultaneously process a large number of cans, it is relatively safe, but is intended for use in an industrial environment and cannot be used in the household.

Known household sterilizer (RF patent No. 2093186, A61L 2/06, 1997), made in the form of a flat support-cover for placement of sterilized containers, in which channels for supplying steam are made. A drainage channel is made along the perimeter of the lid on its outer surface, in communication with the cavities of the containers to be sterilized by means of drainage channels. The sterilized jar is held on the support lid by spring locks installed along its outer perimeter. Moreover, the placement of the drainage channel on the outer surface of the lid necessitates periodic discharge of liquid from it, leading to the need to add liquid to the vapor-forming container.

It should be noted that the use of sterilizing cans of boiling kettle or other containers with boiling water, has several disadvantages. So, the exact correspondence of the diameters of the neck of the can and the container with boiling water, ensuring reliable fixation of the can, is rare. Usually, either the can is in an unstable position from above, or, more often, the diameter of the can is much smaller than the diameter of the neck of the container and the bank enters the opening of the container. Sometimes it’s impossible to place the jar above the opening of the container, it completely fails inside. In this case, an intermediate part, for example, a colander, is used to install the cans. In addition, there is an irrational flow of steam due to a mismatch in the size of the neck of the can and capacity. A large amount of steam is wasted, having a negative impact on the microclimate of the room. Due to the large vaporization, condensation of steam occurs on the ceiling, metal devices located in the room. The ceiling is damp. Also, in the case of careless use of household appliances for steam sterilization of dishes, there is a high risk of thermal burns.

Autoclaves can be used to sterilize cans. For example, a pressure cooker may be used as an autoclave containing a fully-stamped case with a flat bottom and a hermetically sealed lid with a safety valve (RF patent No. 2087106, A 61 L 2/06, 03/10/1995). A perforated base plate is provided inside the housing, mounted above a cavity filled with boiling water. Cans are mounted on the perforated plate. The number of cans is determined by the volume of the pressure cooker.

Another well-known way to sterilize dishes in the home is to process the dishes using UV radiation or ultraviolet sterilization.

Known, selected as a prototype, a household ultraviolet sterilizer (patent for the invention of the Russian Federation No. 2026084, A61L2 / 010, 01/09/1995) mainly for the sterilization of glass jars in home preservation conditions, containing a UV radiation source with a power supply, a case with a lid , support for placement of the processed jar. In this case, the UV radiation source is made in the form of a V-shaped pulsed gas discharge lamp, the support for the can is located on the housing, and the UV radiation source is in the center of the support so that when the can is installed on the support, the gas discharge lamp cylinder is located inside the can, the lid is shielded by UV radiation, and the support is equipped with an element for sealing the cans.

The disadvantage of this ultraviolet sterilizer is the low level of user safety during operation of the device, as well as low ergonomics when using the device. In the presented ultraviolet sterilizer, the element for sealing the jar does not provide reliable fixation of the sterilized dishes on the body of the ultraviolet sterilizer, which, when using this ultraviolet sterilizer, can lead to the displacement of the can relative to the source of UV radiation, and, as a result, damage and failure. In addition, in order to install the can on the ultraviolet sterilizer, the user needs to open the lid and place the sterilized dishes so that when the can is mounted on a support, the discharge lamp is located inside the can. With such an installation, there is a chance of mechanical contact between the sterilized dishes and the UV radiation source, while the UV radiation source in this device does not have any protective shell that could ensure its safety.

Given the lack of reliable fixation of the sterilized glass container on the case, as well as the absence of any protective shell at the source of UV radiation in this device, unintentional mechanical contact with the sterilized dishes with high probability can lead to failure of the UV radiation source. In addition, the absence of a protective shell at the source of UV radiation, if it is broken, entails the release of mercury into the surrounding space and the spread of its fragments in the room, leading with a high probability to the user getting cuts in his hands when performing the procedure for removing glass fragments from this household ultraviolet sterilizer.

In addition, in the presented technical solution there is no mechanism preventing the device from turning on without a protective cover. Since the user is able to turn on this ultraviolet sterilizer without a protective cover shielding the UV radiation of the discharge lamp during operation of this device, there is a high probability of the harmful effect of the UV radiation of the discharge lamp on the user of this UV sterilizer.

Also, in the presented domestic ultraviolet sterilizer, there is no switching device on the housing that allows the user to control the on and off of the device without disconnecting the power cord from the mains. So, for example, if the user needs to suspend the operation of the device, for example, to replace the sterilized dishes, then he must necessarily disconnect the power cord of this ultraviolet sterilizer from the mains and only then carry out further actions, including actions to replacing sterilized dishes.

The technical result achieved by the claimed technical solution is to increase the safety of using a household ultraviolet sterilizer and the convenience of its operation.

The technical result is achieved by the fact that a household ultraviolet sterilizer for sterilizing dishes when preserving food and dishes for feeding children (hereinafter referred to as the UV sterilizer) contains a housing, the upper part of which acts as a support for sterilized containers, a UV source located in the center of the support so that when installing the container on a support, the UV radiation source is located inside the container, a protective screen that protects the user from the harmful effects of UV radiation during operation ora, and the control unit. In this case, the source of UV radiation is placed in a transparent protective shell that transmits UV radiation. The UV radiation source is additionally protected by a cover located on the upper part of the UV radiation source, and its lower part is fixed in the base and is installed in the cartridge through an opening in the housing. On the upper part of the casing, annular recesses are made for fixing sterilized containers with different neck diameters. A switching device is located on the side surface of the housing, which enables turning on and off the UV sterilizer without disconnecting the power cord from the mains. To protect the user from the harmful effects of UV radiation, the design of the UV sterilizer is equipped with a mechanism that prevents the UV sterilizer from turning on without a protective screen.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 shows a General view of the UV-sterilizer (with a protective screen), where: 1 -case; 2 - a protective screen that protects the user from the harmful effects of UV radiation during operation of the UV sterilizer; 3 - switching device.

In FIG. 2 shows a General view of the UV sterilizer (without a protective screen), where: 1 - the case; 3 - switching device; 4 - annular recesses for fixing sterilized containers; 5 - an annular recess for fixing the protective screen; 6 - source of UV radiation; 7 - a protective cover of a source of UV radiation; 8 - base of the source of UV radiation.

In FIG. 3 is a top view of a UV sterilizer (without a protective shield), where: 1 is a housing; 3 - switching device; 4 - annular recesses for fixing sterilized containers; 5 - an annular recess for fixing the protective screen; 7 - a protective cover of a source of UV radiation; 8 - base of the source of UV radiation.

In FIG. 4 is a front view of a UV sterilizer (with a protective shield), where: 1 is a housing; 2 - a protective screen that protects the user from the harmful effects of UV radiation during operation of the UV sterilizer.

In FIG. 5 shows a view of AA UV-sterilizer, where: 1 - body; 2 - a protective screen that protects the user from the harmful effects of UV radiation during operation of the UV sterilizer; 3 - switching device; 4 - annular recesses for fixing sterilized containers; 6 - a source of UV radiation; 7 - a protective cover of a source of UV radiation; 8 - the base of the source of UV radiation; 9 - a transparent protective shell that transmits UV radiation; 10 - cartridge; 11 - control unit of the source of UV radiation; 12 - a mechanism preventing the inclusion of a UV sterilizer without a protective screen (reed switch or other); 13 - magnet.

In FIG. 6 shows a source of UV radiation from a household UV sterilizer, where: 6 is a source of UV radiation; 7 - a protective cover of a source of UV radiation; 8 - base; 9 - transparent protective shell that transmits UV radiation.

In FIG. 7 is a schematic diagram of a UV sterilizer.

The UV sterilizer comprises a housing 1, the upper part of which acts as a support for the containers to be sterilized, a UV radiation source 6 located in the center of the support so that when the container is mounted on the support, the UV radiation source is located inside the container, a protective screen 2, providing protecting the user from the harmful effects of UV radiation during operation of the UV sterilizer, and the control unit 11.

The UV radiation source 6 is placed in a transparent protective sheath 9, transmitting UV radiation. The UV radiation source is additionally protected by a cover 7 located on the upper part of the UV radiation source, and its lower part is fixed in the cap 8, and is installed in the cartridge 10 through an opening in the UV sterilizer body. In one embodiment, as a transparent protective sheath 9, transmitting UV radiation, can be used shrink film brand FEP Lay-Flat.

On the upper part of the housing 1, annular recesses are made for fixing the sterilized containers 4 with different neck diameters, as well as an annular recess for fixing the protective shield 5. A switching device 3 is placed on the side surface of the housing, which enables turning on and off the UV sterilizer without disconnecting the power cord from the power supply network.

To protect the user from the harmful effects of UV radiation, the design of the UV sterilizer is equipped with a mechanism that prevents the inclusion of the UV sterilizer without a protective screen 12. In one embodiment, the UV sterilizer, as a mechanism that prevents the inclusion of the UV sterilizer without a protective screen 12, can be used reed switch KEM-6. At the same time, for the operation of the reed switch, in the lower part of the protective shield 2, which protects the user from the harmful effects of UV radiation during operation of the UV sterilizer, a magnet 13 is installed.

In the UV sterilizer according to the invention, the annular recesses for fixing the sterilized containers 4 ensure reliable fixation of the sterilized dishes on the UV sterilizer body 1 and exclude the displacement of containers, for example, cans, relative to the UV radiation source 6. In addition, the UV radiation source 6 is coated with a transparent protective shell 9 and the installation of a protective cover 7 located on the upper part of the UV radiation source 6, as well as reliable fixation of the lower part of the UV radiation source 6 in the base 8, ensure the safety of the UV radiation source exercises 6 during operation and protect the source of UV radiation 6 from damage due to mechanical contact with sterilized dishes. If the UV sterilizer is broken, glass fragments and mercury will remain directly inside the protective coating of the UV radiation source 6. Thus, the propagation of glass fragments and the release of mercury from the UV radiation source 6 into the surrounding space are excluded. The procedure for removing glass fragments from a given UV sterilizer is also excluded and, as a result, the likelihood of a user getting hand cuts of the UV sterilizer is excluded.

In addition, the presence in the presented UV sterilizer on the housing 1 of the switching device 3 allows the user to control the on and off of the UV sterilizer without disconnecting the power cord from the mains. For example, if the user needs to replace the sterilized dishes, while eliminating the direct exposure to UV radiation.

At the same time, the presence of a mechanism 12 in the present UV-sterilizer that prevents the UV-sterilizer from turning on without a protective screen makes it impossible to turn on this UV-sterilizer without a protective screen 2, which shields the radiation of the UV radiation source, thereby preventing the possibility of harmful effects of UV radiation per user UV sterilizer.

Thus, the essential features of this technical solution can improve the safety of the use of the UV sterilizer, as well as improve the usability of the UV sterilizer, which ensures the achievement of the claimed technical result.

Claims (2)

1. A household ultraviolet sterilizer for sterilizing dishes for preserving foods and dishes for feeding children, comprising a housing, the upper part of which acts as a support for sterilized containers, a UV radiation source located in the center of the support so that when the glass container is mounted on the support, the source UV radiation is located inside the tank, a protective screen that protects the user from the harmful effects of ultraviolet radiation during operation of the device, a control unit, characterized in then the UV radiation source is placed in a transparent protective shell that transmits UV radiation, the upper part of which is fixed by a cover located on the upper part of the UV radiation source, and the lower part is fixed in the base of the UV radiation source, while ring-shaped on the upper part of the housing recesses for fixing glass containers with different neck diameters, while on the side surface of the housing there is a switching device that enables switching the device on and off without disconnecting the power cord Nia from the mains. 2. A household ultraviolet sterilizer according to claim 1, characterized in that it is equipped with a mechanism that prevents the inclusion of an ultraviolet sterilizer without a protective screen.

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