SU1304825A1 - Vacuum system for fire engine - Google Patents

Abstract

The invention relates to fire fighting equipment, in particular, to vacuum systems of fire fighting vehicles designed to fill their centrifugal pumps with water before start-up, and allows for improved usability. When the toggle switch 10 is turned on, the electropneumatic distributor 9 is activated, and the compressed air enters the pneumatic cylinder 5. At the same time, the flap 3 turns and directs the gases to the ejector, and a vacuum is formed in the chamber 2. At the same time, the pneumatic actuator opens the valve of the vacuum seal 12, and the cavity of the pump 8 communicates with the dilution chamber 2 of the ejector 1. Air is sucked out and the water is filled from the water pump. 2 Il. 00 o N 00 you ate figl

Description

The invention relates to fire fighting equipment, in particular, to vacuum systems of fire fighting vehicles designated to fill their centrifugal pumps with water before starting.

The aim of the invention is to improve ease of use.

1 shows a diagram of a vacuum system; figure 2 - the vacuum shutter, the necropsy section.

The vacuum system consists of a gas ejector 1 with a vacuum chamber 2 and a rotary valve 3 installed in the pipeline 4 of the engine exhaust system. The valve 3 is kinematically connected to the neurocylinder 5. The pressure indicator 6 is located on the pressure cavity 7 of the centrifugal water pump 8 and electrically connected to the electron distributor 9, and through the toggle switch 10 to the current source 11. The vacuum shutter 12 contains a spring-loaded valve 3, kinematically connected with the pneumatic actuator 14. The pre-vacuum vacuum shutter chamber 15 communicates with the suction cavity 16 of the pump 8, and the valve chamber 17 is connected with the vacuum chamber 2 of the ejector. Channel 18 of the electropneumatic distributor 9 is connected to the cavity 19 of the pneumatic cylinder 5 and the line 20 of the compressed air supply, and channel 21 - with the floor 22 of the pneumatic cylinder 5 and the pneumatic valve 14 of the vacuum shutter 12.

The system works as follows.

In the off position of the system, the toggle switch 10 is turned off, the pressure contacts of the compressor 6 are closed, and the current does not flow into the neutralizer 9. The cavity 19 of the pneumatic cylinder 5 through the channel 18 of the electropneumatic distribution, the titel communicates with the line 20 of the compressed air supply, so that the valve 3 does not prevent the passage of gases and the pipeline 4.

When the toggle switch is turned on, 10 electric distributor 9 orrek. It seems that the pneumatic cylinder 19 has a cavity through channel 18 with the atmosphere, and cavity 22 and a mono drive 14 through channel 21 with a line 20 of compressed air supply. Under the action of the pneumatic cylinder, the flap 3 turns and closes the exhaust pipe, directs the gases to the ejector 1, in which case a vacuum is formed in the chamber 2. At the same time, the pneumatic actuator 14 raises the single valve 1) end valve 13, with the result that the suction side 1 and the cavity 16 of the water centrifugal pump 8 through the vacuum seal 12 communicates with the chamber 2

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no ejector, and air will be sucked from the water pump.

At the end of the pouring and pressure cavity 7, an overpressure occurs, under the action of which contacts 6 are opened in the detector 6, electropneumatic distributor 9 switches and communicates cavity 19 of pneumatic cylinder 5 through channel 18 with compressed air supply line 20, and cavity 22 of pneumatic cylinder and pneumatic actuator 14 through channel 21 with atmosphere. As a result, the valve 3 is rotated by the action of the pneumatic cylinder and directs the exhaust gases to the exhaust pipe 4, and the valve 13 of the gas-tight valve 12 is closed by the action of the spring. The ejector 1 is automatically switched off, and the suction cavity 16 of the pump 8 is sealed at the same time.

In the event of a pressure breakdown in the water pump, the overpressure in the pressure cavity disappears, the contacts of the detector 6 close, and the vacuum system automatically switches on.

At the end of the pump operation, the toggle switch 10 turns off the current supply to the electronic neva-distributor 9. The system thus moves to the non-operating position.

Claims (1)

Invention Formula The vacuum system of a fire engine containing a gas ejector installed in the first line of its exhaust path with a new butterfly valve, an actuator, a centrifugal water pump with a suction and pressure cavity, and a vacuum valve connected to the pump, including a pre-valve and a valve. , characterized in that, in order to increase the ease of use, it is provided with an electrical source connected current source, an electropneumatic distributor mounted on the pressure cavity of the pump electrocontact signaling device m, and a pneumatic distributor installed on the pressure cavity of the pump by an electrocontact pressure indicator, and a pneumatic actuator of the vacuum shutter valve, and the rotary valve actuator is made in the form of a pneumatic cylinder, the pre-valve chamber of the vacuum shutter communicating with the suction cavity of the water pump, the valve is closed a gas ejector, and an electropneumatic distributor with a pneumatic actuator of the vacuum gate and a pneumatic cylinder. 2