RU2721691C1 - Solar sterilizer - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to sterilization and can be used for heat treatment of tools, articles and materials. Solar sterilizer for thermal treatment of tools, articles, materials and food products includes a housing, a vacuum flask consisting of two tubes made from heat-resistant glass, placed one into another and hermetically sealed to each other, wherein inner tube of glass bulb is coated with heat-absorbing layer, and in space between glass tubes bulb is created, working chamber and cover with sealing ring and clamps, hermetically closing working chamber. Working chamber is located inside the vacuum bulb, the body has a support for installation of the sterilizer at right angle to solar beams and an opening panel for access of sun rays, and solar energy is used as a heating source.

EFFECT: invention provides the possibility of sterilization in the absence of heating elements and power sources.

1 cl, 1 dwg

Description

The invention relates to the field of sterilization and can be used for heat treatment of tools, products and materials. Sterilizers for treating instruments with saturated steam under pressure are widely known; sterilization in dry heat cabinets is also known. The disadvantages of these sterilizers are the need to have an energy source and a heating element to create an operating temperature at which sterilization occurs.

In the patent and scientific and technical literature we have not found analogues of the claimed invention. Closer in technical essence to the claimed invention is the invention according to patent RU 2542447 C1, referred to as mobile autonomous sterilizers. This invention allows the processing of instruments with saturated steam under pressure, however, requires the presence of electric heating elements, in addition, a source of electricity is required.

The objective of the claimed invention is to remedy these disadvantages, namely obtaining a technical result, which consists in the absence of need for heating elements and power sources. Additionally, it becomes possible to use the sterilizer in the field in emergency situations and in combat conditions. The use of a sterilizer in the field will reduce the need for stocks of sterilized materials.

To solve these problems and obtain the specified technical result, the sterilizer is shown, as shown in FIG. 1. The main element of the sterilizer is a vacuum flask 1, which is essentially a heat exchanger, consisting of two tubes made of heat-resistant glass, placed one into another and hermetically sealed together. To enhance the absorption of solar energy, a heat-absorbing layer, an adsorber made of a multilayer coating, is placed in the inner space of the glass bulb. Also, air was pumped out of the inner space of the glass bulb, thereby creating a vacuum that has the best performance, in comparison with air, in terms of thermal conductivity and ability to retain heat. Solar energy is used as a heat source. As a working chamber, a casing 2 is used installed in the inner cavity of the vacuum bulb. The outer casing 3 is designed to protect the vacuum flask from accidental damage and has an opening panel 4 and a hinged stop 5. For sealing the working cavity there is a cover 6 with a sealing ring 7 and clamps 8. For convenience, the sterilizer can also be equipped with a safety valve, pressure gauge, temperature sensor and a timer. When carrying out the sterilization by the dry heat method, it is necessary, using the hinge stop 5, to install the sterilizer at right angles to the sun's rays, put the instruments requiring sterilization into the casing 2, lower the casing into the inner cavity of the flask and close the lid 6. Then open panel 4 to allow access to sunlight to the vacuum flask. The glass surface absorbs the maximum of solar energy thanks to a special highly selective coating, the energy of the sun heats the working cavity, and the vacuum layer eliminates heat loss, as a result, the temperature in the flask can reach 300 ° C, which is enough to meet sterilization requirements. The claimed sterilizer allows sterilization in a solution of distilled water with the addition of chemicals in accordance with the material to be sterilized, while the solution is poured into the cavity of the flask before installing the casing, otherwise the sequence of work is similar to the dry heat method. The sterilizer allows the processing of tools and materials also with saturated steam under pressure, while the safety valve is set to a pressure of 2 kg / cm ² . The sterilizer can be used for boiling water, cooking, and with the panel 4 closed, and as a thermos for storing pre-chilled materials and medicines at low temperatures.

Claims (1)

Solar sterilizer for heat treatment of tools, products, materials and food products, containing a housing, a vacuum flask, consisting of two tubes made of heat-resistant glass, placed one into another and hermetically sealed together, while a heat-absorbing layer is applied to the inner tube of the glass bulb and in the space between the glass tubes of the flask a vacuum has been created, a working chamber and a lid with a sealing ring and clamps, hermetically closing the working chamber, characterized in that the working chamber is located inside the vacuum flask, there is an emphasis on the body for installing the sterilizer at right angles to the sun's rays and an opening panel to provide access to sunlight, and solar energy is used as a heat source.

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