DE362455C - Automatic switch for compressed air systems - Google Patents

Description

The present invention relates to automatic ones

Switch that drives an electric motor that drives the air pump of a compressed air system, switch off at a maximum pressure and switch on again at a minimum pressure.

In the Fig. Ι is an embodiment of the invention shown schematically. Fig. 2 shows a detail.

The compressed air system is connected to the switch through channel 4. Exceeds the Air pressure is the limit at which it keeps the pressure of the spring 6 in equilibrium, then the piston valve 5 is pushed up to the stop 7. The movement of the piston valve 5 is a rapid one, since the cross section exposed to the air pressure when closed (lowest position) is smaller than when open (raised position), in which the entire valve cross-section corresponds to

Exposed to air pressure. By acting as a piston valve 8 trained valve rod, the channels 9 and 10 are completed as soon as the piston valve 5 is lifted and has released the channels 11, 14.

Through the opened valve 5, the compressed air flows through the channel 11 into the cylinder 3 and lifts the piston 2 up quickly by overcoming the pressure of the spring 12. The upper position of the piston 2 is shown in dotted lines. He lies down on the Sealing edge 13 and thus closes the inside of the cylinder airtight. Channels 10 and 18 are now under air pressure; but there the piston valve 8 closes the channels 10 and 9, there is no further flow of air possible.

At the same time, in the air in the cylinder 3 flows, compressed air also flows through channel 14 and lifts the piston valve 15 by the counter pressure of the spring 16 is overcome. It will be for the same reasons as at valve 5 quickly pushed into the top position on seat 17, and closes airtight against the spring side off.

The piston valve 5 either has a small channel 19 through which a slowly Pressure equalization can take place, or- it is easily fitted into its cylinder, so that air can slowly pass through the sides. As a result, compressed air slowly reaches the = opposite side of the piston valve, and the spring 6 becomes the piston valve S with piston valve 8 slowly push back into the lower position. It's in your hand, through Change in the cross-section of the canal by 19 to influence the rate of decline. When the valve 5 is closed again, the cylinder 3 receives compressed air through the very narrow channel 20 to avoid any Replace any air leakage. The piston valve 8 is now the Channels 9 and 10 free and compressed air reaches part of the upper piston valve surface 15th

The part 1 of the electrical connected to the piston rod also went with the piston 2 Switch up rapidly, interrupting the electrical circuit and the one driving the air pump Electric motor came to a standstill.

If the air pressure falls below the limit at which it will reduce the pressure of the spring 16

If the equilibrium is maintained, the piston valve 15 will initially lift slightly from the seat 17. As a result, compressed air flows through the channel 9 behind the valve 15. The opening 21 in the cylinder of 15 is of small. Cross-section, so that compressed air can escape, but after 15 there is an increase in air pressure, since the amount of air flowing through 9 is much larger than the one escaping through 21. As a result of this pressure equalization On both sides of the valve, the spring 16 is the .Ventil 15 quickly closed in the lower Move location.

The cross-sections of the channels 20 and 21 are matched so that through the very narrow channel 20 cannot flow in as much as escapes through 21. This will gradually decrease the pressure in the cylinder 3, and the spring 12 pushes piston 2 slowly downwards. Has the piston passes the inlet opening of channel 10, then the compressed air suddenly flows under the piston 2 through channel 11, 18, passes the open slide 8, passes through Channel 10 into the cylinder 3 via the piston 2 and through the opening 22 quickly to the outside. The pressure of the spring 12 suddenly moves the piston 2 downwards and with it the switch part 1, whereby the electric motor is switched on quickly will. The air pump resets sigh Movement, the air pressure rises again, and the game begins again.

It is not necessary for the channels to be guided exactly as shown in FIG will. So you could z. B. connect channel 11 directly to channel 14, this would save the second drilling of the cylinder from 5. Valve 15 must be similar to 5 be provided with a small hole (indicated by dotted lines) so that in the case of Leakage of the valve seat can leak the penetrating air.

Piston 2 closes channel 20 in the lower position. Any penetrating air escapes through channel 11, 18, 10, 22 or 9, 21 into the open. But you can also close the channel 20 with a special valve in the piston 2, as indicated in Fig. 2. In the piston 2 sits a valve 23, which is from a spring 24 is pressed downward. Through the screwed-in plate 26 the valve protected from falling out. The channel "20 is provided with a valve seat 25: its passage cross-section can also be changed with the screw 27. • The springs) 6 and 16 are adjustable, so that the switch-off pressure and the switch-on pressure can be set completely independently of one another, namely the switch-on pressure is set by spring 16 and by Spring 6 regulates the cut-out pressure.

The piston valves can have a leather seal or a conical seat with metal have on metal or be designed in some other way.

Instead of using a piston valve, you can also use another valve or Arrange valves, which then also have to be moved by valve 5. The piston valve does not need to fit absolutely airtight, it can easily be made to fit.

The space behind the valve 5 is advantageously dimensioned so that when you open the Valve the rear air is so strongly compressed that a hard impact on it the rear system is prevented. Instead of the compression springs, tension springs can also be used or other springs can be used. In the air ducts, where it is advantageous, Throttle screws are provided.

Claims (3)

Patent Claims: i. Automatic switch for pressure ventilation systems, at a maximum pressure an electric pump driving the compressed air pump • engine switches off and with one! Minimum pressures turns on, and its main piston is controlled by two valves, characterized in that lead closed Shut-off valve (5) through slide or valves (8) through the shut-off valve (5) are actuated, the upper part of a cylinder (3) with its lower Partly connected by channels (11, 18, 10) is, while 'when the shut-off valve is open this connection by slide or valves (8). is more or less tightly closed. 2. Automatic switch according to claim i, characterized in that through the slide pder valves (8) when the valve (5) is closed from the cylinder (3) to the rear of the on / off valve (15) is made while when the valve (5) is open, this connection is interrupted or severely • is throttling. 3. Automatic switch; τ ¹ according to claim ¹ and 2, characterized in, "no that the valve opens quickly (5), while it closes more slowly. 1 sheet of drawings.