SU1645801A1 - Device for thermostatic control of a liquid - Google Patents

Abstract

The invention relates to refrigeration engineering, in particular, to the temperature control of a liquid. The aim of the invention is to intensify heat transfer. This is achieved in that the device contains a Bach-coolable medium circuit with a forced circulation system. The contour piping includes a multi-channel system of ejection channels 7 connected to the mixing chambers 8 of the collectors 9, covering the supply medium for the cooled medium and connected via radial holes to the pipeline 2 for supplying the cooling medium in each race. The collectors 9 are provided with reflectors 10, which overlap the mixing chambers 8 and are located with different angles of inclination to the surface of the collector 9 and the direction of bending opposite to that in the neighboring Rus. 3 il. B Chie e O Jb SP 00 about

Description

Fig.Z

The invention relates to refrigeration equipment, in particular, to the thermostatting of a liquid during direct contact of cooling and cooled media, and can be used in various areas of technology where cooling of liquid media is required.

The purpose of the invention is to intensify heat transfer.

FIG. 1 shows the proposed device, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one,

The device contains a volume of 1 with the medium to be cooled, a pipeline 2 for supplying a coolant with radial holes 3.

The device additionally contains a cooled medium circuit 4 with a forced circulation system carried out by a pump 5. Circuit pipeline 6 contains a multi-colored system of ejection channels 7 communicating with mixing chambers 8 of collectors 9, covering the cooled medium supply line 6 and connected through radial holes 3 with pipeline 2 coolant supply in each river. The collectors 9 are equipped with reflectors 10, which overlap the mixing chambers 8 and are located with a different angle of inclination to the outer surface of the collector 9, which is different within one Russ and from the Rus to Rus and opposite to the bending direction opposite to the neighboring Rus. Such a variation of the angle of inclination of the reflectors 10 permits the turbulization of the flow from the chambers and, consequently, to intensify the heat exchange process over the entire volume 1 by cooling of the medium.

The device works as follows.

At the same time, the coolant supply system is switched on via the pipeline 2 and the pump 5, which circulates the cooled medium over the circuit 4. The cooling medium from the pipeline 6 has flowed through the ejection channels

7 in each run, coolant is sucked through the openings 3 of pipe 2 into the mixing chambers 8 of the collectors 9, where active mixing of the components takes place, which leads to intensive heat exchange through the direct (direct) contact of the cooled and cooling media. Then the mixture of components with a high speed, meeting with the reflectors 10, changes its direction, acquiring rotational and axial movement in the volume to be filled 1, and reports the same movement to the surrounding mass of cooled liquid almost throughout the volume 1.

The use of the device makes it possible to intensify the heat exchange process in a relatively simple way — by ejecting a quenched medium and turbulizing it throughout the volume, due to the arbitrary orientation of the reflectors in space.

Claims (1)

 Invention Formula Device for thermostating fluid, including a volume with a cooled medium, as well as a pipeline for supplying a coolant with radial holes, characterized in that In order to intensify heat exchange, the device additionally contains a quenched medium circuit with a forced circulation system, including a pipeline immersed in the quenched volume, a cannon gauge system connected to the mixing chambers of the collectors that surround the pipeline circuit and connected through radial holes with the pipeline for supplying the cooling medium in each river, while the collectors are equipped with reflectors located at the outlet of the mixing chambers with different Gödel single tier by tier and to Rusu angle inclination to the outer surface of the collector and the opposite direction in the neighboring Rus, bending. / Aa Fy