SU1268937A2 - Controllable heat pipe - Google Patents

Abstract

The invention relates to the field of heat engineering and is an improvement of the invention in a. with. No. 1236304. The purpose of the invention is to extend the functionality while simplifying the design by relieving thermal stresses on the case. The housing 1 is made in the form of a single-cavity hyperboloid with a corrugation, which serves as an elastic element of the drive. The corrugations are arranged along straight lines of the hyperboloid. From the inside, the capillary structure (CS) 2 is pressed against the walls of the housing 1 by means of the spacer spring 3, which is installed to form a spiral artery. The spring 3 is installed along the entire length of the housing 1, repeats its shape and is coupled to the CS 2. In the evaporation zone 7, the fixed disk 5 is fixed, and in the connection zone 8 - a rotary disk 6. Both discs have slots and form a steam valve. When working with a predetermined temperature of the heat supply source, the slots coincide, ensuring normal circulation of the coolant, which, evaporated in zone 7, moves to zone 8, where O is condensed in CS 2 and artery 4 returns to zone 7. (L As the the temperature in zone 7, the movable end of housing I, which serves as an elastic element of the actuator, rotates, causing rotation of the disk 6, overlapping of the slots and reducing the flow area of the steam valve. 2 ill. to O5 00 o from 1 N5

Description

The invention relates to heat engineering, is an improvement on the author. St. No. 1236304 and can be used in heat pipes, as well as for determining the magnitude of the transferred heat flux.

The purpose of the invention is the expansion of functionality while simplifying the design.

Figure 1 presents the proposed heat pipe, General view; figure 2 - <0 section a — a in figure 1.

The adjustable heat pipe contains a housing 1 made in the form of a single-cavity hyperboloid with corrugations located along its rectilinear generatrix, and serving simultaneously as an elastic drive element. The housing 1 is equipped with a capillary structure 2 inside, pressed against its walls with a spacer spring 3, which is installed along the entire length of the housing, with the repetition of its shape, mating along the perimeter with the capillary structure 2 and serves simultaneously as a transmission device. In this case, the capillary structure 2 is installed in the housing 1 with the formation of a spiral artery 4. Inside the housing 1 there is a valve made in the form of a fixed 5 and repeated 6 discs, mounted respectively in the evaporation zones 7 and condensation 8 and provided with slots 9. The end face of the housing 1 in the zone condensation can be connected with the heat consumer ₃ θ la using a flexible heat conduit 10 or using a threaded connection, and the disks 5 and 6 are fixed in zones 7 and 8 using spring tabs that compensate for the axial stroke of the housing 1.

The proposed pipe works as follows ³⁵ .

When working with a given temperature of the heat supply source, the slots 9 of the disks 5 and 6 coincide, providing normal circulation of the coolant. The coolant evaporates in the evaporation zone 7, moves to zone 8, where it condenses through the capillary structure 2 and arteries 4, which can be filled with porous material, returns to zone 7. With increasing temperature in the evaporation zone 7, the moving end of the housing rotates (with side of condensation zone 8) along a helix.

The above causes a rotation along the helix of the rotary disk 6. There is an overlap of the slots 9 and a decrease in the passage section of the steam channel.

The steam speed decreases, causing an increase in the temperature difference between zones 7 and 8. With a significant increase in the temperature of the heat source, the rotary disk 6 rotates by a limiting angle, causing a complete overlap of the passage section of the steam channel.

By the angle of rotation of the moving end of the housing 1, one can judge the amount of heat input. The rotation angle can be converted to any signal.

Thus, the invention allows to increase the service life by removing thermal stresses on the housing, simplify the design, increase the heat transfer capacity of the heat pipe, and also use the heat pipe to measure the magnitude of the heat flux and its changes.

Claims (1)

Claim Adjustable heat pipe by ed. St. No. 1236304, characterized in that, in order to expand functionality while simplifying the design, a pipe body serving as an elastic drive element is made in the form of a single-band hyperboloid, and the spring is installed along the entire length of the body with the repetition of its shape and is mated along the perimeter with capillary structure, while the fixed and rotary disks are fixed respectively in the zones of evaporation and condensation. Ah Phil. 2.