SU641264A1 - Gas-adjustable heating pipe - Google Patents

Description

one

The invention relates to devices for heat transfer and temperature stabilization of an object and can be used in heat and power engineering, electronics and electrical engineering, as well as in nuclear and cryogenic engineering as stand-alone compact and reliable thermostats, which are easy to manufacture and maintain.

Known are heat regulating heat pipes containing a housing filled with a heat carrier with a wick on the inner surface, connected to a cylinder with non-condensable gas, and a condenser equipped with a fin} iI.

A disadvantage of the known gas-controlled heat pipe is a small degree of temperature stabilization due to the fact that the rib must be made (on the basis of high efficiency) of a highly heat-conducting material (for example, copper, aluminum Al), which in turn leads to a high unregulated heat flux transmitted in the axial direction along the edge in the steam-gas front region.

The aim of the invention is to increase the degree of temperature stabilization during heat removal by radiation or convection from a fin of a condenser.

The goal is achieved by the fact that in the fin perpendicular to the tube axis there are slots adjacent to the body.

FIG. 1 shows the described heat pipe; in fig. 2 - section A-A of FIG. I.

The gas-regulated heat pipe comprises a housing 1 with a capillary wick 2 inside, a cold end 3 connected to a gas volume 4, a condenser 5 made in the form of an edge with transverse slots 6 and a heater 7.

Gas regulated heat pipe works as follows.

Claims (1)

When heat is supplied from the heater, the coolant evaporates the wick 2 knots and condenses in the heat pipe condenser 5. When condensation is released, the heat of the phase transition is transmitted through the walls of the housing 1 to the rib and is further removed by radiation or convection. The CRR of a certain heat flux between steam and gas forms a rather sharp interface, the position of which is determined by the boundary conditions and the geometry of the heat pipe. Due to the fact that the execution of holes in the edge led to a decrease in the axial heat flux along the high-heat conducting edge, the steepness of the temperature field in the vapor-gas front region will increase. This will lead to an increase in the thermal stabilization properties of the gas-controlled heat pipe. Claims An inventive gas heat pipe containing a heat-filled body 6 4 with a wick on the inner surface, connected to a cylinder with non-condensable gas, and a condenser equipped with a fin, characterized in slots adjacent to the body. Sources of information taken into account in the examination: 1 .. Edward, Marcus. Heat and mass transfer in the vapor-gas front region in a gas-filled heat pipe. “Heat Transfer, Series C, No. 2, 1972, p. 32, fig. 2 Vuf.i Ll " t t w ////// / yr inf .g