SU1296793A1 - Heliothermostat - Google Patents

Abstract

The invention relates to solar technology i can be used to maintain and control set temperatures in thermostatic systems using low-grade heat from the solar reaction. The purpose of the invention is to stabilize the operation of the solar thermal bath. Heat exchange pipes (TT) 10 are installed on the fins 9 of the condensation zone (CG) 8 of the main TT 6 and are located in the heat storage material 4. Evaporating areas 12 TT 11 are placed in material 4 between TT 0, and their short 13 are working volume (PO) 2 of the case I. The PO 2 has a temperature sensor 14, made in the form of a cylinder filled with non-condensable gas and communicated with the short-circuit 13. The height of the inner surface of the short-circuit 13 is automatically adjusted by means of non-confined. dansiruyuschego gas. When the temperature in the PO 2 is lower than the set value, the gas in the cylinder of the sensor 14 is compressed and the interface in the SC 13 rises up, and the amount of heat given off by the fins 22 to the PO 2 increases. Torah. zp f-ly, I ill. (O ate yu co 05 co stock

Description

The invention relates to solar technology and is intended to maintain and regulate predetermined temperatures in thermostatic systems using low-grade heat of solar radiation.

The purpose of the invention is to stabilize the operation of the solar thermal bath.

The drawing shows heliothermostat, transverse section.

The solar thermostat includes a housing 1 with a reservoir 3 located in its working volume 2, filled with heat-storage material 4, placed outside the housing 1 solar collector 5, connected by means of a heat pipe 6 to a capacity 3, while the evaporation zone 7 of the heat pipe 6 is placed in a solar the collector 5, and the condensation zone 8 with the fins 9 are located at the bottom of the tank 3. The solar thermal thermostat contains additional finned heat pipes 10 and 11. The heat pipes 10 are installed on the fins 9 of the condensation zone 8 of the heat pipe 6 to heat The storage material 4. The evaporation zones of the 12 heat pipes 11 are placed in the heat storage material 4, and the condensation zones 13 of the heat pipes 11 are located in the working volume 2 of the housing 1.

Temperature sensor 14 and indicator 15 are installed in working volume 2 of housing 1. Sensor 14 is made in the form of a cylinder filled with non-condensing gas and communicated with condensation zone 13 of heat pipes 11.

The solar thermostat is mounted on the base 16 with the wheels 17, the housing 1 is bounded from the external environment by a thermal insulation layer 18. The fins 19 of the heat pipes 10 enter the spaces between the fins 20 of the heat pipes 11. The capacity 3 has a lid 21, the condensation fins of the zone 13 heat pipes 11 have the ribs 22. The solar collector 5 comprises a two-layer glazing 23, a heat-receiving plate 24, an insulation layer 25.

Heliothermostat works as follows.

The solar radiation energy, the passage through the glazing 23 of the solar collector 5, provides heating for the plate 24 and the heat pipe 6 located in the thermal contact of the evaporation zone 7. The agent in the evaporation zone 7 of the heat pipe 6 evaporates, moving into the condensation zone 8, located in the heat-accumulating material 4, where it is condensed, releasing heat to the fins 9 and the evaporation zones of the heat pipes 10 contacting with them, penetrating the entire thickness of the heat-accumulating material 4.

VNIIPY Order 593/39 Circulation 660 Subscription

Conduct.-polygraph. Pre-e, Uzhgorod, st. Project, 4

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The agent in the pipes 10 evaporates and rises to the top, condensing on the inner surface of the pipes 10 and further down the stack, the heat of condensation is released to the fins 19. In this case, the heat storage material melts. The agent in the pipes 11, under the action of heat coming from the molten material 4 through the fins 20, evaporates and rises to the top, where it condenses, giving off heat to the fins 22,

and then returns to the evaporating zone: 12 tubes 11. The height of the inner surface of the condensation zone 13 of the tubes 11 is automatically controlled with a non-condensing gas (for example, argon) contained in the sensor cylinder 14. When the temperature in the working volume 2 is lower than the specified one and recorded by the indicator 15, the gas in the cylinder of the sensor 14 is compressed and the interface in the condensation zones 13 of the pipes 11 rises upwards. At the same time, the amount of heat given up by the ribs 22 to the working volume 2 increases, and the temperature in the latter rises to a predetermined level. When the temperature is higher than the specified one, the reverse processes are observed accordingly.

Claims (2)

1. A solar thermal thermostat, comprising a case with a container located in its working volume, filled with heat-accumulating material, a solar collector placed outside the case, connected by means of a heat pipe to the container, while the evaporation zone of the heat pipe is placed C in the solar collector, and the finned condensation zone is located at the bottom of the tank in the heat storage material, characterized in that, in order to stabilize the solar thermostat, it contains additional finned heat pipes, the first of which are mounted on the edges of the condensation zone of the main heat pipe in the heat storage chamber the material, the evaporation zones of the second heat pipes are placed in the heat storage material between the first additional heat pipes, and the condensation zones are located in the working body volume. 2. Solar Thermostat according to claim 1, characterized in that in the working volume of the housing Q is fitted with a temperature sensor made in the form of a cylinder filled with non-condensable gas and communicated with the second additional heat pipes to the condensate well. five