SU1366846A1 - Heat-exchanger - Google Patents

Abstract

Invention m. used to stabilize the parameters of heat exchanging media, as well as to recover heat from energy aggregates. The purpose of the invention is to expand the range of regulation, to increase the level of stabilization 3 aiuiH and to set the heat exchange temperature settings from media using gas-controlled heat pipes (TT). Along the ends of the CT 5, fixed in the holes of the coupling tube (TP) 3, in contact with them are installed movable guide walls 7, which form cavities 8 and 9 of variable volume with the walls of the chambers (K) I and 2. Mjjxa- axis of the axial movement of the TT 5 is made in the form of screws 10, hermetically installed in the end walls of K I and 2. The screws rest against the partition elements through the spring elements 7. The holes in TP 3 are made conical. TP 3 from side K 1 and 2 m. provided with a thermal insulation layer 12. A change in the temperature of the medium entering nozzle 16 causes a change in vapor pressure in TT 5, which moves the gas front and changes the surface of the condensation zone to K 1, which leads to a change in the intensity of the cooling medium n K 2. Insulation 12 eliminates the possibility of unregulated heat exchange between media and contributes to an increase in the accuracy of stabilization of the output parameters. 1 z.p, f-ly. 3 il. (€ cl with CJ5 O) 00 4; 05

Description

The image “1P e is designed for heat engineering and can be ISPSH1: U1) when designing power, heating, tap and technological systems, which are advantageous for stabilizing the parameters of heat exchange media, as well as for utilizing the heat of power units,

Another aspect of the invention is to expand the range of regulation, increasing the level of stabilization and the accuracy of setting the temperatures of heat exchanging media when using gas controllable heat pipes. , Fig, I shows the heat exchanger, the cut; in fig. 2 - mounting unit of one of the gas / shashi pipes in detachable grids; in fig. 3 - heat exchanger assembly with a mechanism for moving awning tubes and a movable guide partition.

The heat exchanger contains chambers I and 2 DO1L of heat-transfer and heat-sensitive media separated by a detachable tube grid 3 with variable cross-section holes A, reversed to one another, and heat pipes 5 fixed in the holes with transverse partitions 6, along the ends of the pipes 5 in contact with them are installed iodvigilant partition walls 7, which form stegs (chambers i and 2 have cavities 8 and 9 of variable volume :, the movement mechanism is made in the form of screws 10, hermetically installed in the end walls of chambers i and 2 and The baffles 7p, which are mounted through the spring elements} 1 in this case, are made conical in the openings 4 in the separable grids. The tube grids on the side of the chambers are equipped with a heat insulating layer 2,

On heat pipes 5, annular sleeves 13 of elastic material are placed for sealing. The chambers contain nozzles 14, J5, 16, and 7 for the entry and exit of the coolant. In the end walls under the screws the fittings 18.

The device works as follows,

1, chambers I and 2 are supplied via nozzles 14 and 16, respectively, to a cooling medium and a cooling medium with defined initial parameters. At. ma, h1111 and temperature difference medium, ripoxojx4 nnn through transverse

campuses 6, heats one zone of gas regus rum 1.1.1X heat pipes 5 and cools another, which transfer heat from one medium to another. A change in the temperature of the medium entering the nozzle 16 (for example, its increase) causes an increase in the vapor pressure in the pipes, which moves the gas front and increases the surface of the condensation zone in the upper chamber, which leads to more intensive cooling of the medium in the lower chamber and stabilization of the medium temperature, entering through pipe 17,

When replacing the cooling medium, it may be that the regulating capabilities of the pipes are insufficient. To readjust the heat exchanger under the new conditions, the heat pipes 5 move in one direction or the other with the help of a displacement mechanism.

To improve the accuracy of adjusting the medium on the split grids 3, heat insulation 12 is fixed from the sides of chambers I and 2, which eliminates the possibility of unregulated heat exchange between the media and contributes to an increase in the accuracy of stabilizing the output parameters.

Form of the invention

1, A heat exchanger containing chambers for heat-generating and heat-receiving media separated by a separable tube grille with variable cross-section openings facing bogs and diameters to each other, and heat pipes with transverse partitions mounted in the holes, equipped with their axial mechanism movement, characterized in that in order to expand the range of regulation, increase the level of stabilization and the accuracy of setting the temperatures of heat exchanging media when using gas-controlled tag pipes, ortsam pipes in contact with

50 they have movable partitions, which form a wall with alternating volume chamber chambers, and the displacement mechanism is designed as S screws, which are hermetically mounted in the end walls of the chambers, and abutting through the spherical elements into the movable partitions, while the holes in separable grids make HbF conical,

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Claims (2)

Claim 1. A heat exchanger containing chambers for heat-transferring and heat-receiving media, separated by a detachable tube sheet with holes of variable cross section facing large diameters to each other, and heat pipes with transverse walls fixed in the holes, equipped with an axial movement mechanism, characterized in that , in order to expand the range of regulation, increase the level of stabilization and the accuracy of setting the temperatures of heat-exchanging media when using heat-regulating heat pipes, at the end m pipes in contact with 50 installed movable guide partitions, which form cavities of variable volume with the chamber walls, and the movement mechanism is made in the form of screws that are tightly installed in the end walls of the chambers and abutting through the spring elements into the movable partitions, while the holes in the split gratings are made conical. s 1366846 · ⁴ 2. Heat exchanger according to π; I, the branch gratings from the side of the chambers kicking by the fact that they are not equipped with a thermoelectric element for increasing the accuracy of regulation, eat. fie. 2