SU521447A1 - Heat transfer device - Google Patents

Description

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Inventors are related to "heat pipes and may be used in heating engineering.

Heat transfer devices are known that contain an adjustable heat pipe, and an inert gas tank is connected to a hot zone.

The purpose of the invention is to expand the temperature of the atur potential of the 1 st heat of the heat and ensure the use of | Ba and heat flow as an adjustable parameter.

In the device described, this is achieved by connecting an additional heat pipe to the condensation pipe: a zona pipe connected to the pipeline using its kodepsiozion zone, and a single cavity of both pipes ziOLIENI with heat carriers with distinct and thermal characteristics. At the same time, the dololite (Tp) i6a is outside covered with thermal insulation and has a volume exceeding the volume of the UNO pipe. In addition, to the block consisting of the main and additional pipes, through the heat pipe of the “e1H” connection, ino-extreme measure, another one is the same. HYDCHEN BLOCK.

On the fit. 1 shows the additional and main heat pipes connected one to another; in fig. 2 - heat pipes, in which the regulating parameter is heat flux; “And FIG. 3 - complement

a pipe with a volume exceeding the volume of the main pipe; FIG. 4 - cascade connection of two tubes olok. Additional pipe 1 and base pipe

2 (see Fig. 1) are filled with heat transfer media 3 and 4 having different thermodynamic characteristics.

When heat is supplied, the boiling point of heat carrier 3 can be significantly lower than the temperature of the cyoenium of heat carrier 4, which also broadens the temperature potential of the waste heat. In this case, the heat flux can remain constant, since the inert gas reduces the plateau-like

surface 2. When heat is supplied to an additional pipe 1 (see Fig. 2), an inert gas in the main pipe, which has half-branches 5 and 6, in one OF them (in l-light 5) reduces the surface of heat loss, and in the other ( in the half-branches 6) - increases, while the displaced inert gas is collected in the reservoir 7. As a result, the heat flux increases with increasing temperature of the discharged heat.

A small change in the volume of inert gas-O in the additional pipe 1 (see FIG. 3) causes a significant decrease in the o-volume in the main pipe 2 and a strong decrease in the heat-retaining surface, which significantly increases the temperature potential of the waste heat.

Block 8 of the main and additional pipes (see Fig. 4) is connected in cascade through the heat pipe 9 with auxiliary block 10, which makes it possible to significantly expand the temperature Potential of the waste heat and its quantity.

Claims (4)

1. A T-heat suppressor device, containing its adjustable heat pipe, to the condensation zone which is connected to a container with an inert gas, characterized in that, with an expansion slot of the temperature potential: to reduce heat and to allow heat to flow. as an adjustable parameter, an additional heat pipe is connected to the condensation zone of the pipe by means of a pipeline with its condensation zone, and the innermost cavities of both pipes are required: heat transfer fluids with different thermodynamic characteristics. 2. A device according to claim 1, characterized in that the supplementary pipe is outside thermally insulated. 3. A device according to claim 1, characterized in that the additional pipe has a volume greater than the volume of the new pipe. 4. Device Under item 1, characterized in that K block consisting of the main and additional pipes, 1kadskadno through teplP | ro waters connected, to a measure, another similar block .. Gas flQft nl j Ld Hut l