SU1745310A1 - Compressed air drier - Google Patents

Abstract

This invention relates to vehicles using compressed air pneumatic systems. The aim of the invention is to increase the efficiency of compressed air drying. In a plant for the production of dry air, the inlet of the distributor 2 communicates with the outlet of the dryer 3 via the throttle device 4, designed as a retaining valve, and the distributor 2 is designed as a two-way two-way distributor with solenoid control, for which the installation is equipped with an adjustable time relay 12, controlled one-contact pressure switch 13, the control cavity of which is connected to the output of the dryer 3, and the input of the regulator 9 pressure is connected ene to the system 5 cooling dehumidifier 3. 1 Il.

Description

The invention relates to transport engineering and can be used for the production of compressed air in the brake systems of vehicles. A known automobile pneumatic system comprising a compressor, an adsorption dryer, a cylinder for regenerating a dryer with a return flow of purge air, a receiver and an air pressure regulator in front of the receiver, controlling a purge air and air discharge valve that is installed on the discharge line, are sequentially installed on its discharge line between the compressor and the dryer. .

There is also known an installation for the production of dried compressed air, mainly in the brake system of a vehicle, containing a series-connected compressor, an air flow distributor integrated in a dehumidifier, a dehumidifier consisting of a compressed air cooling system, a cartridge with adsorbent and filters located at the inlet and outlet cartridge, pressure regulator, control purge air exhaust valve and receiver.

The disadvantage of this installation is the incomplete restoration of the moisture-absorbing ability of the adsorbent and, as a consequence, the insufficient efficiency of air drying.

The aim of the invention is to increase the drying efficiency of compressed air.

The positive effect is to increase the efficiency of drying compressed air by providing a deeper recovery of the adsorbent, to reduce energy consumption for the recovery of the adsorbent, in the possibility of using the installation when changing the total volume of the receiver and increasing the operational reliability of the installation.

This goal is achieved by the fact that in the installation for the production of dried compressed air containing a series-connected compressor, switchgear, dryer, consisting of series-connected compressed air cooling systems, a cartridge with adsorbent and filters at the inlet and outlet of the cartridge, a check valve, a receiver and a regulator pressure, there is a throttle device, a time switch and a pressure switch, while the dryer output is connected via a throttle device to the input of the switchgear and pravlyayuschym input of the pressure switch, the output of which through a time relay is electrically connected to the control input of the dispenser, and a second output 5 of the cooling system is connected to atmosphere via a pressure regulator.

The drawing shows a pneumatic circuit diagram of a plant for the production of dried compressed air.

The installation comprises a compressor 1, the output of which is connected through a switchgear 2, made in the form of a shut-off valve with electromagnetic control, to the input of the dryer 3 and 15 through the throttle device 4 - to the output of the dryer 3, consisting of a cooling system 5, a cartridge with adsorbent 6 and filters 7 and 8 at the inlet and outlet of the cartridge 6, a pressure regulator 9 containing an outlet valve 20 connected to the second output of the cooling system 5, and a receiver 10 connected to the output of the dryer 3 through a check valve 11. For controlling the electric Agnita switchgear installation ustroyst25 va 2 is provided with an adjustable time relay 12, which is made single ended start relay 13 pressure with electric output, a control input which communicates with the outlet 3 of desiccant.

Installation works as follows.

Atmospheric air is sucked in by compressor 1 and pumped through switchgear 2, dryer 5 35 cooling system 3, filter 7, cartridge with adsorbent 6. filter 8. check valve 11, and, drained, enters the receiver 10. When the receiver reaches the preset pressure 10 the pressure regulator 9 is activated 40 to unload the compressor 1 due to the connection of the control cavity of the pressure regulator 9 with the receiver 10, reporting the second output of the cooling system 5, where moisture can accumulate, with the atmosphere. In this case, the pressure 45 in the control input of the pressure switch 13, in communication with the output of the dryer 3, drops to a pressure close to atmospheric, and the electrical contacts of the pressure switch 13 are closed, which leads to the start of the relay 12 for a period of 50, which, in turn, for a predetermined time supplies voltage to the control input of the switchgear 2.

Air from compressor 1 is reduced by 55 throttle for 4 s. pressure close to the upper limit of regulating the regulator to a pressure close to atmospheric, as a result of which there is a sharp decrease in the moisture content of air, it enters the outlet of the dryer 3. purges the filter 7 and, bypassing the cooling system 5, is discharged into the atmosphere through the pressure regulator 9. This mode of operation of the installation is short and lasts for a period sufficient to restore the adsorbent, after which the time relay 12 opens the electrical connection with the control · input of the switchgear 2 and the message of the compressor 1 with the input of the dryer 3 is resumed. With the exhaust valve of the pressure regulator 9 open, the air from the compressor 1 enters the atmosphere — the compressor is unloaded. When the air pressure in the receiver 10 drops to a predetermined lower limit, the exhaust valve of the pressure regulator 9 closes and the unit again enters the air discharge and drying mode.

In the event of a change in the capacity of the installation pneumatic system (for example, in a vehicle when the trailer receiver is connected), it is sufficient to increase the time switch 12 for turning on the electromagnet of switchgear 2 to supply air from compressor 1 to regenerate the adsorbent in the compressor unloading half-cycle.

Claims (1)

Claim Installation for the production of dried compressed air, comprising a series-connected compressor, switchgear, dryer, consisting of a series-connected cooling system of compressed air, a cartridge with an adsorbent and filters at the inlet and outlet of the cartridge, a check valve, a receiver and a pressure regulator, characterized in that, in order to increase the efficiency of drying compressed air, a throttle device, a time relay and a pressure switch were introduced into its composition, while the dryer output is connected through a throttle device A property with the input of the switchgear and the control input of the pressure switch, the output of which is electrically connected through the time relay to the control input of the switchgear, and the second output of the cooling system is connected to the atmosphere through the pressure regulator.