SU746348A1 - Thermostated table - Google Patents

Description

(54) THERMOSTATIZED TABLE

Claims (2)

The invention relates to the production of photovoltaic cells, in particular, to devices for controlling electrical parameters, for example, the efficiency of photovoltaic cells. One of the known devices contains a table and a thermostat l. The closest technical solution to this invention is a device containing a table with a cavity for heat transfer fluid and a thermostat 2. A disadvantage of the known device is the low reliability of thermostating and high energy and water consumption. The purpose of the invention is to increase the reliability of thermostating while saving energy and water. This goal is solved in that the known thermostatic table is equipped with a cooling radiator and a gas reservoir connected through a cooling radiator to a cavity for a tractor equipped with a capillary structure, the capillary structure being located on the upper wall of the table cavity and containing capillary columns that are opposite to each other. steaks. Fig, 1 shows a thermostatic table; FIG. 2 shows a general view of a device for controlling the efficiency of photoconverters with a thermostatic table. The table 1 in the inner cavity has a capillary structure 2 with capillary columns 3. The capillary structure of round 2 is located on the upper wall of the table 1 k soaked with coolant 4, the excess of which is collected at the bottom of the cavity. The cavity of the table 1 is connected to the gas reservoir 5 by means of the tube 6. In the heat-discharging portion of the tube, cooling fins are fitted, forming a cooling radiator 7. For filling the system with coolant and gas, shtengel 8 serves. Screw 9 is used to change the volume of gas reservoir 5, made in the form of a bellows, when adjusting the regulator to a predetermined temperature. Gagzo: closed tank with a cap. For installation of the reference thermometer 11, a nest 12. is made. When using a table without an illuminator, an electric heater 13 with heat insulation is attached to its case. When using the table in a photoconverter efficiency monitor, install a specular lamp 15 under the case 16, water filter 17, holder 18, a phototransducer 19. The operation of the thermostatic table is as follows. - A coolant (acetone, argon, air) is introduced through the pin 8. Under the action of the luminous flux of the lamp 15, the upper wall of the table heats up and evaporates the coolant from the capillary structure 2. The coolant vapor enters the tube 6, displacing gas in front of it. Having reached the heat-saving area, the tetra carrier condenses and flows back into the cavity of table 1. An interface forms between the gas and moves along the section with radius 7 depending on the heat flux transmitted by vapor through tube 6. As the flow increases, the vapor-gas interface rises, increasing the tagglo-discharging surface of the condensation zone, and decreases as the flow decreases. However, in all cases, the gas pressure, due to the large volume of the gas tank 5, remains constant and keeps the vapor pressure, and hence the o-temperature, constant. The coolant is absorbed through the capillary columns by the capillary structure and is evenly distributed over the entire surface of the heated wall. This device increases the reliability of temperature control, reduces the paci stroke of electricity and water, and greatly simplifies maintenance. The thermostatted table can also be used as an independent device (without an illuminator) in laboratory practice for work that requires the thermostatting of the objects of investigation. Claim 1. Thermostatted table for monitoring the efficiency of photovoltaic cells, including a table with a cavity for a heat carrier and a thermostat, characterized in that, in order to increase the reliability of thermostating while saving energy and water, it is equipped with a cooling radiator and a gas tank connected through cavity for heat carrier equipped with a capillary structure. 2. The table according to p. 1, which is the case and the fact that the capillary structure is located on the upper wall of the cavity of the table and contains capillary columns touching the opposite wall. Sources of information taken into account during the examination 1. USSR author's certificate No. 517095, cl. G 01 R 31/26, 1976. 2. Technical conditions FSHO.709.001 TU Photo-converters type FKPD from monocrystalline silicon, VNIIT, 1973 (prototype).