RU2415660C2 - Thermostat for storage and transportation of biological substances - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment, in particular to constructions of portable medical thermostats. Thermostat for storage and transportation of biological substances contains case with lid and brought into heat contact with thermoelectric battery working chamber of compression refrigeration unit in which placed are detachable thermo-containers with single-stage and two-stage thermoelectric battery. Withdrawal of heat from hot soldered joints of thermoelectric battery in stationary conditions is carried out by compression machine evaporator. During transportation of biological substances thermo-container is placed into a special external case, withdrawal of heat from hot soldered joints of thermoelectric battery being carried out by means of heat tubes installed in external case frame, power feeding of thermoelectric battery with electric energy is performed by detachable accumulator source of constant current installed into external case frame.

EFFECT: improvement of technical and economical indices and increase of thermal stabilisation during storage and transportation of biological substances.

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Description

The invention relates to medical equipment, in particular to the design of portable medical thermostats.

The prototype of the invention is the thermostat described in [1].

The thermostat contains a thermally insulated plastic case with a lid, inside which there is a working chamber made of corrosion-resistant metal, a Peltier thermoelectric module, the heating element of which, a radiator and a fan are located under the bottom of the working chamber. A foam insulation is installed between the case and the camera. On top of the thermostat has a lid with a hatch, equipped with a gramophone type lock. On the thermostat housing there is a connector for supplying voltage and a control panel with a toggle-switch for switching on the supply voltage, an automation unit, a protection fuse for the automation unit and LEDs for monitoring the protection of the thermostat. The automation unit contains a temperature sensor mounted on the camera, and a temperature sensor included in the measuring bridge mounted on a thermal battery, a measuring bridge, an amplifier and a comparison circuit connected in series, as well as a pulse-width modulator, a direct current generator, and a control thermistor unit. In the upper part of the thermostat housing mounted handles for transferring the thermostat, made rotary relative to horizontal hinges. The thermostat housing also has ventilation windows closed by grilles to prevent foreign objects from entering the air channel of the thermostat, and supports are attached to the lower part of the body to fix the thermostat in the vehicle on the supporting platform.

The disadvantage of the thermostat is the complexity of its design and high energy costs.

The aim of the invention is to improve the technical and economic indicators of a thermoelectric thermostat and increase thermal stabilization during storage and transportation of biological substances.

This goal is achieved due to the fact that the thermostat contains a compression refrigeration unit 1, in which removable thermal containers 2, 3 are located. The thermal container 2 is a chamber, the housing of which is made of special polypropylene. The housing is equipped with a cover 4, a handle 5, a temperature sensor 6, a two-stage thermoelectric battery 7, the base of the chamber is made of a copper plate equipped with a contact connector (not shown in Fig. 1).

Thermal container 3 is a chamber, the housing of which is made of special polypropylene. The housing is equipped with a cover 8, a handle 9, a temperature sensor 10, a single-stage thermoelectric battery 11, the base of the chamber is made of a copper plate equipped with a contact connector (not shown in Fig. 1).

Figure 2 shows a case for transporting thermal containers 2, 3. The case consists of a thermally insulated body 12 provided with a cover 13. Heat pipes 14 are installed in the body 12, the evaporation zones of which are located at the base of the case, and the condensation zones are displayed on the side wall of the case. In the housing 12 there are 220 V and 12 V network connectors, a direct current battery, indicators of the state of charge of the battery, a temperature control unit (not shown in FIG. 2).

The process of storage and transportation of biological substances in a thermostat is as follows.

After placing biological substances in the appropriate thermal containers 2, 3, they are placed in the working chamber of the compression refrigeration unit 1, the corresponding temperature for storing biological substances is set, while the two-stage thermoelectric battery 7 and the single-stage thermoelectric battery 11 operate in the maximum cooling coefficient mode. Heat from the hot junctions of the thermopile is removed by the evaporator of the compression machine. To transport biological substances, thermal containers 2, 3 are placed in a special heat-insulated case 12, while the thermopiles work in the maximum cooling capacity. The thermoelectric batteries 7 and 11 are powered by a removable direct current battery built into the housing 12; heat is removed from the hot junctions of the thermoelectric battery by heat pipes.

The design of the thermoelectric thermostat is easy to use, reliable and can be used both for storing biological substances in stationary conditions and for their transportation.

Literature

1. Patent No. 2054608 "Portable thermostat for transportation and storage of biological substances" according to class. F25D 3/14, claimed 02.17.93, publ. 02/20/96.

Claims (1)

A thermostat for storing and transporting biological substances, comprising a housing with a lid and a working chamber brought into thermal contact with a thermoelectric battery, characterized in that the working chamber is a compression refrigeration unit, in which removable thermal containers with a single-stage and two-stage thermoelectric battery are placed, heat removal from hot junctions of the thermoelectric battery in stationary conditions is carried out by the evaporator of the compression machine during the transportation of biological substances by by means of heat pipes installed in the case body, while the thermoelectric battery is supplied with electric energy during the transportation of biological substances by a removable DC battery mounted in the case.