SU1615490A1 - Method of operating an air-conditioning unit - Google Patents

Abstract

The invention relates to air conditioning systems comprising parallel-connected from a common source of compressed gas a vortex tube. Increased efficiency is achieved by the fact that the vortex tubes 1 are put into operation by sequentially changing the flow rate of their hot stream, but leaving constant (and equal to the flow rate from the first vortex tube) the flow rate of the cold stream at a given temperature by changing the position of the valves 6 and the valves 5. 1 silt

Description

The invention relates to air conditioning and can be applied in installations using vortex tubes, for example in the energy sector.

The purpose of the invention is improving efficiency.

The drawing schematically shows the proposed installation.

The installation contains parallel connected vortex tubes 1 connected to a collector 2 for supplying compressed air, a collector 3 for hot air, a collector 4 for cold air. In the communication lines between collectors 2–4, switching elements (valves) are provided 5. On the outlet of the hot air collector 3, a control valve 6 is installed;

The method of regulating the operation of the installation for air conditioning includes the following techniques.

With an increase in the heat load, the position of the control valve 6 is correspondingly changed and parallel-connected pipes are introduced in series 4 to work, increasing the supply of compressed air to the installation, and when the heat load is reduced, the parallel-connected vortex pipes are subsequently taken out of operation while changing the position of the control valve to reduce the compressed air to the installation in conditions of constant air flow to the consumer.

The method of regulating the operation of the installation is as follows.

In the absence of heat load, air is supplied to the consumer with a temperature equal to the ambient temperature. In this case, one vortex tube 1 operates with the control valve 6 fully closed. Air in a predetermined quantity enters the consumer from the collector 4 of the cold air stream.

With an increase in heat load, it becomes necessary to lower the temperature of the air supplied to the consumer. In this case, the position of the control valve 6 is changed (opened) and the next parallel connected vortex tube 1 is put into operation by opening the corresponding switching elements 5. At the same time, the compressed air supply 5 to the installation increases at a constant flow rate to the consumer (which ensures the parameters of the connected (second ) vortex tube 1). Then, if necessary, connect other vortex tubes 1 and regulate (opening) the valve 6 so that the air flow to the consumer remains unchanged, providing the necessary lowering of its temperature. Thus, the amount of compressed air supplied to the installation is determined by the required degree of cooling of the conditioned air to the consumer, i.e., the heat load.

With a decrease in heat load, there is a need to increase the temperature of the air supplied to the consumer. In this case, the control valve 6 is closed, the corresponding switching elements 5 are closed, sequentially disconnecting the row of vortex tubes 1, thereby reducing the consumption of compressed air 25 at a constant air flow to the consumer.

Claims (1)

' Claim The method of operation of an air conditioning unit with vortex tubes parallel connected from a common source of compressed gas by controlling the temperature and flow rate of a cold stream by changing the hot flow rate, characterized in that, in order to increase 35 economy, vortex tubes are put into operation in series, the total flow rate the cold flow is maintained constant and equal to the flow rate of the first pipe, and the change in the magnitude of the hot flow is carried out 40 after turning on each pipe and upon reaching the specified temperature perature inclusion cold flow vortex tube is stopped and if the temperature is lowered to this disconnection produce vortex tubes in the reverse order of 45 while maintaining the same constant flow of cold flow. Compiled by Y. Martinchik Editor G. Gerber Order 3977 Tehred A. Kravchuk Proofreader M. Sharoshi Circulation 456 Subscription VNIIIPI Gostinnostno. '?, S 113035 M <> ₍ Industrial and /, s s. N> s . > 'hi ci according to the inventions; and discoveries at the State Committee for Science and Technology of the USSR • ki-i. A 33, Raushskaya nab., D. 4/5 sin! to> ό> .it is "I laiτιπ". Uzhhorod, st. Gagarin. 10i