UA134613U - THERMOELECTRIC REFRIGERATOR - Google Patents

Abstract

The thermoelectric refrigerator contains a housing made in the form of a bedside table with cupboards and shelves, a block of thermoelectric cooling and / or heating, which is made of sequentially located external heat dissipating radiator, Peltier modules and a thermostated bottle case, a unit of bottle temperature. The housing further includes temperature and heat flow sensors and a microcontroller with software.

Description

The useful model belongs to household thermoelectric refrigerators and can be used for cooling and heating containers with various liquids. It is intended for use as a thermostatic device in hospital, home and hotel conditions, transport and allows you to store various drinks, medicines and other things at specified temperatures.

Known devices of thermoelectric household stationary and portable refrigerators |1- 5| They consist of a body, cooling thermoelectric units based on modules

Peltier and heat-dissipating radiators are used both as independent devices and as part of furniture used, for example, in the kitchen or in the living room.

A known design of a household portable refrigerator |Z). It consists of a case in which a thermoelectric cooling unit with an external blowing system is located. It simultaneously cools two containers with the necessary liquid. Its disadvantages include excessive noise due to the operation of the fan.

A known design of a cooler for beverages |4Й consists of a body in the form of a cylindrical cup, insulation, a cup holder separated from the insulation of the body, a heat-conducting part located between the insulation and the cup holder, Peltier elements, a power supply unit, and a heat-dissipating radiator. Its disadvantages include slow cooling and the lack of the ability to automatically switch the operating modes of the elements

Peltier.

The closest analogue to the proposed useful model is the thermoelectric refrigerator I5). It consists of a body in the form of a bedside table with drawers and shelves, a thermoelectric cooling and/or heating unit, which is made of a serially arranged external heat dissipating radiator, Peltier modules (and a thermostatic case with bottles, a power supply unit with a temperature regulator. The disadvantage of this refrigerator is no possibility of autonomous adjustment of cooling or heating parameters.

The task of the proposed useful model is to create the possibility of autonomous regulation of cooling or heating parameters.

The task is solved by the fact that in a thermoelectric refrigerator, which contains a case made in the form of a bedside table with drawers and shelves, a block

From thermoelectric cooling and/or heating, which is made of serially arranged external heat dissipating radiator, Peltier modules and thermostated case with bottles, power supply unit with temperature regulator, according to the utility model, the case additionally contains temperature and heat flow sensors and a microcontroller with software.

The drawing shows a diagram of a thermoelectric refrigerator: 1 - a case made in the form of a bedside table with drawers and shelves, 2 - a heat-dissipating radiator, C - a Peltier element, 4 - a thermostatic case with bottles, 5 - a power supply unit with a temperature regulator, 6 - temperature sensors and heat flow, 7 - microcontroller with software.

The proposed scheme works as follows.

Peltier elements 2, fixed between the heat-dissipating radiator and the thermostatic case with bottles 3, 4, ensure the maintenance of the necessary level of heat flow (depending on the need - cooling or heating) to ensure the optimal temperature. The heat flow from the outside of the thermoelectric modules is diverted to the environment using a heat dissipating radiator 4. Our device is powered by the power supply unit 7, which is electrically connected to the microcontroller 5. Autonomous regulation of cooling or heating parameters is provided by temperature and heat flow sensors 5 and microcontroller 6 .

Theoretical and experimental evaluations showed that the use of temperature and heat flow sensors and a microcontroller will improve the autonomy and convenience of the thermoelectric refrigerator. In particular, it is promising to use the specified improvements in combination with the "smart house" technology.

List of used literature: 1. Anatichuk L.I. Thermoelectric and thermoelectric devices. - K.: Naukova dumka, 1979. - 769 p. 2. "Quartz-10" automobile portable refrigerator. Operation manual. -

Chernivtsi 1990. - 8 p.

Z. Zegdiu Riip. TeppoyeYIesigus2pe iggadayepia spiodpisge. IRRO MA5TA 2002. - 225 p. 4. Patent O5 Mo 5042258. OhipKipd sopiaipeg / "Znaat R. Zipapag; Ryb. Oaie: Atsa. 27, 1991.

5. Patent of Ukraine Mo 28678 OSH.

Thermoelectric refrigerator / Anatichuk Lukyan Ivanovich;

published 25.12.2007.

Claims (1)

USEFUL MODEL FORMULA A thermoelectric refrigerator containing a body made in the form of a bedside table with drawers and shelves, a thermoelectric cooling and/or heating unit, which is made of sequentially arranged external heat dissipating radiator, Peltier modules and a thermostatic case with bottles, a power supply unit with a temperature regulator, which is different the fact that the housing additionally contains temperature and heat flow sensors and a microcontroller with software.