DE2325591A1 - DEVICE FOR CONVERTING VIBRATIONS INTO PNEUMATIC SIGNALS - Google Patents

Description

Device for converting vibrations into pneumatic signals For MeR, but also for control and regulation purposes, it is sometimes necessary in Dependence of the state of a vibrating body, e.g. B. whether in rest position or in oscillation state, to receive a signal. If electrical measuring and transmission equipment, e.g. B.

may not be used for safety reasons or if you simply want to avoid electrical intermediate links, it would be advantageous to to be able to derive a pneumatic signal from the vibrations.

The invention is therefore based on the object of providing a device for Conversion of mechanical vibrations of a body to create pneumatic signals. Furthermore, the aim is largely to use commercially available pneumatic components to be able to fall back. This object is achieved by the invention specified in claim 1 solved. If the oscillating body is in the rest position and leaves it, for example the air jet in the LuiR; barrier undisturbed, a pressure builds up in the control line to the actuator of the control valve. This is z. B. in passage position switched, so that the signal receiver is then pressurized from the signal line will. If, on the other hand, the oscillating body carries out oscillating movements, it causes a periodic one Disturbance of the air jet of the air barrier. With that falls in the same rhythm the pressure in the control line to the actuator of the control valve. As a result of this If the pressure drops, the control valve switches back to its initial position. Thereupon the signal receiver is no longer pressurized, which it evaluates as a signal.

If the control valve is also designed according to claim 2, it is not able to switch over and back in the rhythm of the pressure changes in the control line, but remains constantly switched back while the oscillating body is oscillating.

A signal that remains during the entire oscillation time is thus achieved.

Claim 3 also specifies an embodiment in which the Oscillating body directly influences the air jet of the barrier and in the state of oscillation causes a disturbance of the beam.

In contrast, claim 4 indicates an embodiment variant which the air jet of the barrier is only indirectly influenced by the vibrating body and the air jet is disturbed when the vibrating body is at rest.

Finally, the characteristics are used to measure the frequency of an oscillation of claims 5 and 6.

In the drawing is an embodiment of the invention Device shown.

Fig. 1 shows the device shown schematically and Fig. 2 the device in section A - B.

A resonance vibrating body 2 is attached to a vibration generator 1, which in turn has a nose 3. Below the vibrating body 2 is an air barrier 4 and arranged on the inflow side via part 5 of a compressed air control line connected to a compressed air source 6. Part 7 of the control line leads from Downstream connection of the air barrier 4 to the actuator 8 of a control valve 9. The control valve 9 is in one of the compressed air source 6 to a signal receiver 10 leading signal line 11 switched on.

When the oscillating body 2 is at rest, its nose 3 is located, as in FIG Drawing shown, outside of the free air jet 12 of the air barrier 4. Compressed air can therefore reach the actuator 8 via the control line 5, 7 and the latter switch the control valve 9 to passage, as shown. Via the signal line 11 can then in turn compressed air from the source 6 to the signal receiver 10, for. B. the actuator of a control or regulating valve, reach and pressurize.

But if the vibrator 1 has the resonance frequency of the vibrating body 2 generated, this begins to oscillate perpendicular to the air jet 12. The nose 3 of the Oscillating body 2 then periodically interrupts the air jet 12. In the same rhythm The pressure collapses in the control line 7 - so that the control valve 9 switches back to its rest position. The compressed air flow to the signal receiver 10 is thereby interrupted and this is now relieved of pressure. The control valve 9 or its actuator 8 are also designed such responsive that the Control valve 9 does not correspond to the oscillation frequency of oscillating body 2 to able to switch. As a result, the control valve 9 remains during the entire period of oscillation switched back in the rest position, so that a constant signal is then given.

In the drawing, the air barrier 4 is shown as a free-jet version, with a jet nozzle fed by the compressed air source 6 and one with an axial one Distance opposite collecting nozzle.

Likewise, the air barrier 4 can also be designed as a counter-jet version be designed in which a second jet nozzle is used instead of the collecting nozzle finds. Both versions are available as commercially available pneumatic components, likewise the control valve 9.

Claims (6)

Claims ;) Device for converting mechanical vibrations into pneumatic ones Signals, characterized in that in the area of influence of the oscillating body (2) one l.uftschranke (4) is arranged, which is connected to the actuator (8) of a control valve (9) leading compressed air control line (5, 7) is switched on while the control valve (9) in turn in front of a signal receiver (10) in a compressed air signal line (11) is switched on, wherein the oscillating body (2) the air jet (12) in the barrier (4) disturbs or leaves undisturbed depending on his state of excitement. 2. Apparatus according to claim 1, characterized in that the control valve (9) or its actuator (8) are designed to respond so that the possible Switching frequency of the control valve (9) is lower than the oscillation frequency of the oscillating body (2). 3. Apparatus according to claim 1 and 2, characterized in that the air barrier (4) and the oscillating body (2) are assigned to one another in such a way that that the oscillating body (2) or a part connected to it (3) is in the closed state periodically interrupts the air jet (12) of the barrier (4) while he / it is at rest outside of the air jet (12). 4. Apparatus according to claim 1 and 2, characterized in that A disturbing nozzle is arranged perpendicular to the air jet (12) of the barrier (4) and the oscillating body (2) interrupting the air jet of the disturbing nozzle in the oscillating state is provided. 5. Apparatus according to claim 1 to 4, characterized in that a d u r c h g e k e n n z e i c h -net that the oscillating body (2) is designed as a resonance oscillator is. 6. Apparatus according to claim 1 to 5, characterized in that several such devices are connected in parallel, the oscillating body (2) have different resonance frequencies.