RU1721U1 - PNEUMOSYSTEM - Google Patents

Abstract

PNEUMATIC SYSTEM, including a compressor and a heat exchanger connected by a discharge line to the compressor, an end cooler, an end moisture separator and an air dryer installation, successively installed after the heat exchanger, characterized in that after the air dryer is installed, the discharge line is connected to the second cavity of the heat exchanger, and then to the receiver, while the first cavity of the heat exchanger is connected by a bypass line parallel to the discharge line, with the compressor outlet pipe through valves installed one in front of the exchanger and another bypass line before the connection with an outlet of the compressor.

Description

5 M.K.L. F 04 C 21/00

PNEUMOSYSTEM

The invention relates to the field of engineering, and more particularly to pneumatic systems for producing compressed air.

A known pneumatic system including a compressor and a discharge line with receiver 1. The air heated in compression received in the receiver is somewhat cooled before it enters the actuators.

A pneumatic system is also known, including a compressor, a refrigerator, a dehumidifier and a compressed air dehumidifier 2. In combination with effective dehumidifier filters, a dehumidifier provides a dew point of compressed air at the outlet, which usually prevents moisture condensation in the pneumatic lines. This system has reserves for increasing compressor efficiency.

The present invention allows to increase the output of the working fluid of compressed air - ceteris paribus, the claimed pneumatic system and prototype, i.e. solves the problem of increasing compressor efficiency.

The invention consists in the following.

A heat exchanger is installed in the discharge line coming from the compressor, after which an end refrigerator, an end moisture separator and an air dryer are installed in series, after which the discharge line is connected again to the heat exchanger, and then to the receiver. From the receiver through the discharge line, air is supplied to the consumer. Parallel to the discharge line, the heat exchanger is connected by a bypass line to the compressor outlet pipe through valves installed before and after the heat exchanger.

The drawing shows a diagram of a pneumatic system.

The pneumatic system includes a compressor 1 connected by a discharge line 2 to a heat exchanger 3, to which an end cooler 5, an end moisture separator b, and an air dehumidifier 7 are connected in series via a discharge line 4. The outlet pipe of the air dehumidifier is connected to the second cavity of the heat exchanger 3, which, in turn, connected to the receiver 8, after which there is a discharge line 9, supplying air to the consumer. A valve 10 is installed in line 2, and a valve 12 is installed in a bypass line 11 connecting discharge lines 2 and 4.

The device operates as follows.

The air after compression in the compressor 1 with a discharge temperature of 150-200 C through line 2 enters the heat exchanger 3, where it is cooled to a temperature of 100-120 C and through the discharge line 4 it enters the end cooler 5, after which it is cooled in summer to a temperature of 25-40 C in winter - 15-25 ° C. After that, in the end dehumidifier 6, water and oil particles are separated. Then the compressed air is directed to the air drying unit 7, from where, cooled to, it enters the heat exchanger 3 (into its second cavity), where it is heated to a temperature of 40-100 C due to heat exchange with compressed air coming from the compressor 1 through the first cavity of the heat exchanger 3 . After the heat exchanger, air enters the receiver 8 and then through the discharge line 9 is supplied to the consumer.

line 11 valve 12 are designed to control the temperature of the air heating, i.e. if necessary, reduce the temperature of the air heating valve 12 opens partially or completely.

The heating temperature is selected depending on the distance to the consumer, by calculation or by practical means, based on the fact that 40-50 C is considered to be the permissible temperature for powering conventional pneumatic actuators containing devices with elastic seals. by 40%, and the air consumption for nozzle operation and leakage will be reduced by 25%.

The heating of the compressed air supplied to the pneumatic equipment due to the utilization of the compression heat in the heat exchanger 3, in addition to saving air, significantly improves the operation of the pneumatic equipment, as as air expands, moisture content decreases.

Utilization of compression heat due to the heating of the exhaust compressed air also significantly improves the operating conditions of the terminal refrigerator and increases its service life. Sources of information: 1. US patent N 3925984, 1975 2. Autosvid. USSR USSR N 1566102, cl. F 15 APPLICANTS: v On 11/12, 1988 - prototype N. M. Raginov I. B. Kalugin

SUBJECT OF THE PATENT

A pneumatic system including a compressor and a heat exchanger connected by a discharge line to the compressor, an end cooler, an end moisture separator and an air dryer installation, installed in series after the heat exchanger, characterized in that after the air dryer is installed, the discharge line is connected to the second cavity of the heat exchanger and then to the receiver, while the first cavity of the heat exchanger is connected by a bypass line parallel to the discharge line, with the compressor outlet pipe through valves installed one in front of the exchanger and another bypass line before the connection with an outlet of the compressor. APPLICATION: -JTm - N.M. Ratinov I.B.Kalugyn

Claims (1)

PNEUMATIC SYSTEM, including a compressor and a heat exchanger connected by a discharge line to the compressor, an end cooler, an end moisture separator and an air dryer installation, successively installed after the heat exchanger, characterized in that after the air dryer is installed, the discharge line is connected to the second cavity of the heat exchanger, and then to the receiver, while the first cavity of the heat exchanger is connected by a bypass line parallel to the discharge line, with the compressor outlet pipe through valves installed one in front of the exchanger and another bypass line before the connection with an outlet of the compressor.