RU169988U1 - MOBILE THERMOSTAT INSTALLATION - Google Patents

Abstract

This utility model relates to medical equipment, in particular to the field of storage and transportation of biological products. The technical result is achieved due to the fact that the proposed installation includes a thermal container, inside which there is a cooling chamber of the installation, which is a heat exchanger for cooling the biological product as a result of passage through the cooling chamber of the chilled air installation, Rank-Hillsch vortex tube, the input of which is connected to the compressor, and the output is connected to the cooling input giving the installation chamber using a hose, and metal termogranuly filling the space between the cold boxes and the cooling unit chamber.

Description

This utility model relates to medical equipment, in particular to the field of storage and transportation of biological products.

A thermal container is known from the prior art (patent RU 2495340. A thermal container for storing and transporting biological products. MTK F25D 3/14, F25D 11/00, application .: 2011126804/13 from 06/29/2011, publ.: 01/10/2013). This device allows you to maintain in the thermal container the optimum temperature for storing biological products at a higher ambient temperature. This effect is achieved by the fact that the inner chamber with thermal insulation has a lid and a seal, the inner chamber is made with the possibility of alternating air exchange with the environment or the cavity between the walls of the housing and the inner chamber through air ducts with integrated valves connected to the temperature sensor by a bellows or a bimetallic spring placed in inner chamber.

The disadvantages of this technical solution are:

- design complexity;

- use of a container for storing only a certain type of biological products.

A portable thermostat is also known (patent RU 2054608. A portable thermostat for transporting and storing biological substances. MPK F25D 3/14, application .: 93009154/13 of 02.17.1993, publ.: 02.20.1996), which contains a thermally insulated case with a cover and a working chamber, a thermoelectric module, an automatic control unit with a remote control, a radiator, a fan and a ventilation window in a housing with a safety grill. The chamber is made of corrosion-resistant metal, the radiator and fan are located under the bottom of the working chamber, and the lower part of the thermostat housing is equipped with a device that includes supports for mounting it on the vehicle with a gap to allow air to enter the ventilation window, and the thermostat cover is equipped with a block, including a hatch for connection with drainage means of life support of donor organs.

Disadvantages of the thermostat:

- design complexity;

- the need for an external power source;

- cannot be used for transportation of both physiological solutions and donor organs intended for transplantation.

Closest to the proposed technical solution is the Intellitherm ™ reusable transport container (http://www.prweb.com/releases/2012/l/prweb9135014.htm), which uses the original temperature control system in combination with the VIP action (vacuum insulation of the panels) and polyurethane panels. It is also equipped with a data logger for recording internal and external temperature fluctuations.

The disadvantage of a reusable transport container is a narrow range of operating temperatures (2 ÷ 8 ° C).

The technical result of the proposed utility model is simplicity of design, as well as providing a wide range of operating temperatures from -40 to 50 ° C.

The specified technical result is achieved due to the fact that the proposed installation includes a thermal container, inside which there is a cooling chamber of the installation, which is a heat exchanger for cooling the biological product as a result of passage of cooled air through the cooling chamber, a Rank-Hills vortex tube, the input of which is connected to the compressor, and the output is connected to the inlet of the cooling chamber of the installation using a hose, and metal thermogranules filling the space but etru thermal containers between the cooling unit and the camera.

The Rank-Hills vortex effect is used to maintain the temperature of the working chamber space from -40 ° C to 50 ° C (the vortex effect (Rank-Hills effect) is the effect of dividing a gas or liquid into two fractions when twisted in a cylindrical or conical chamber (vortex working chamber Rank-Hillsch tubes. A swirling flow with a high temperature (up to 50 ° С, and in the center a chilled flow (temperature up to minus 40 ° С, swirling in the opposite direction), as well as the use of metal thermogranules with a high temperature loemkostyu and added directly into the processing chamber that enables the prolonged maintenance of predetermined working chamber temperature.

The essence of the utility model is illustrated by the schematic diagram of the installation (Figure 1), the location of the cooling chamber of the installation and metal thermogranules 5 is shown in Figure 2, the Rank-Hills vortex tube 2 shown in Figure 3 is a smooth cylindrical pipe 11, equipped with a tangential nozzle 8, cochlea 9, aperture 10 and throttle 12.

When the gas passes through the nozzle 8, an intense circular flow is formed, the axial layers of which are noticeably cooled and diverted through the axial hole of the diaphragm 10 in the form of a cold stream, and in the peripheral layers the gas temperature increases and the gas flows through the throttle 12 in the form of a hot stream.

The temperature and air flow in the hot and cold stream are regulated by the throttle 12.

The device operates as follows: in a pre-cooled thermal container 3 (for example, a TM-20 thermal container manufactured by Thermo-Kont MK, www.termokont.ru), in which a cooling chamber of installation 4 is installed (for example, a cooling chamber "Snaig" , manufacturer: Lithuania, http://www.snaige.lt) and along the perimeter between the thermocontainer 3 and the cooling chamber of installation 4, thermogranules 5 are placed (LabArmor, http://www.bioline.ru/catalog/116/), placed in working volume of the thermocontainer 6 biological product. The outlet of the Rank-Hills vortex tube 2 (Pmax = 17 Bar, manufacturer USA, http://www.exair.com/en-us/Pages/default.aspx) is attached to the inlet of the cooling chamber of installation 4. At the inlet of the Rank-Hilsch vortex tube 2, air is supplied from compressor 1 (for example, the FiacHP 2.0 compressor manufactured by FIACAircompressorsS.r.A., Italy, http://www.fiak.ru/) using a flexible spiral polyurethane hose for a pneumatic tool 7 dnar = 8 mm on a quick-detachable fitting and a coupling (for example, a spiral hose for a pneumatic tool manufactured by Kraton, http://www.kraton.ru/). Then the cold stream from the vortex tube 2 enters the cooling chamber of the installation 4, passes along its circuit, thereby providing the required cooling of the thermogranules 5.

Claims (1)

A mobile temperature control unit, including a thermal container, inside which there is a cooling chamber of the installation and metal thermogranules are placed around the perimeter between the thermal container and the cooling chamber of the installation, the Rank-Hills vortex tube, the inlet of which is connected to the compressor with a flexible polyurethane hose, and the output is connected to the inlet by the cooling chamber installation.

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