SU641245A1 - Vortex refrigeration plant - Google Patents

Description

one

The invention relates to refrigeration engineering, and more specifically to refrigeration vortex installations, and is intended for cooling air or other gas, for example, in process air conditioning installations, in life support systems, etc.

Vortex tubes are known, comprising a nozzle inlet, an energy separation chamber and hot and cooled streams 1 connected to the inlet 4y nozzle. : These vortex tubes are characterized by simplicity of design and high operational reliability.

A vortex refrigeration unit is also known, which contains an inlet and a housing, and the nozzle inlets of at least three vortex tubes are marked out, each of KOTOJ “X has a power separation chamber and hot and cooled streams {2.

In a known installation, cooling tubes with insufficiently high thermodynamic efficiency are used. They are paired with a |) allele, due to which the thermodynamic efficiency of the entire installation is kept low.

The aim of the invention is to increase the thermodynamic efficiency of the installation.

Delivered c. B1b is achieved by the fact that the nozzle inlet of one vortex tube is located in the center of the body and connected to the inlet nozzle, and the remaining nozzle inlets are placed at equal distance from the central and connected to the channels made in the body. Peripheral vortex tubes are provided with liners covering the chambers of energy separation and having slots opposite the central vortex tube to allow hot flows.

On fng. 1 shows a longitudinal section of the vortex refrigeration unit in FIG. 2 is a transverse section AA.

Claims (2)

The vortex refrigeration unit contains an inlet 1 and a housing 2 in which the nozzle inlets 3 of the vortex tubes 4 are placed. Each vortex tube has an energy separation chamber 5, a cooled flow outlet 6 and a hot flow outlet 7. In the center of the housing 2 there is a nozzle inlet 3 of one of the vortex tubes, connected 36 with the inlet nozzle 1. The other nozzles 3 are located at equal distance from the central circumference at an equal distance from each other and connected to it by channels 8, made in the case 2. Peripherals, "their vortexes. Pipes 4 are provided with a sleeve, my ° 9, which covers the chambers 5 of the energy separation section,. B. The sleeves 9 opposite the central vortex tube are provided with slots 10 for the withdrawal of hot streams. The chamber 5 of energy separation of the central vortex tube is equipped with fins 11 for cooling its walls. The terminals 7 of the hot flows of the tubular tubes 4 have chokes 12. The installation works as follows. Compressed air is introduced through the nozzle 1 into the body 2 and is fed through a jet nozzle 3 into the vortex tube 4, where it acquires the whirling nature of the movement. The heated peripheral layers of the vortex flow are removed from the central chamber 5 of energy separation through the throttle 12 to the atmosphere, and the cooled near-axial layers of the vortex flow are directed to the channels 8 at a pressure lower than the initial one at the terminals 6 Preliminary cooled in the first stage, the flow from the channels 8 through the nozzle inlets 3 enters the peripheral vortex tubes 4 and the energy separation chambers 5, where it again acquires the vortex nature of motion and undergoes long-range yshee energy division. At the same time, the hole flows are outputted to the consumer, the aggro - through the throttles 12 get into the sleeves 9 and through the slits 10 are sent to the fin 11, cooling it. The application of the invention allows to increase the thermodynamic efficiency of the refrigeration unit for. due to the fact that it provides utilization of hot streams discharged from the second-stage vortex tubes to cool the first-stage vortex tubes. In addition, the implementation of the vortex refrigeration unit according to the invention allows; place a few vortex tubes in a minimum volume so that all their regulators are on one side of the plant, and all cold-flow terminals on the other, which prevents the plant to reduce the length of the second-stage vortex tube by splitting it into several smaller vortex tubes, same type with a vortex tube of the first stage, which reduces the size of the installation; receive several streams of cooled air, with the temperature and flow rate of each MorsT stream being controlled independently of the others. Claims of the Invention A vortex refrigeration unit comprising an inlet pipe and a housing in which nozzle inlets of at least three vortex tubes are placed, each of which has an energy separation chamber and hot and cooled streams, in order to increase the thermodynamic efficiency, the nozzle inlet of one vortex tube is located in the center of the body and is connected to the inlet pipe and the rest; the corresponding inputs are placed at equal distance from the central one and connected to it in the body In the case of channels, the peripheral vortex tubes are provided with sleeves that enclose the chambers of energy separation and have a slit opposite to the central vortex tube for outputting hot flows. Sources of information taken into account in the examination; 1. USSR Author's Certificate No. 204342, cl. T 25 V 11/00, 1966. 2, Japan Patent No. 50-36497, cl. 68 B 11, 1975,