DE743253C - Amplifier for control and signaling purposes - Google Patents

Description

Amplifier for control and signal purposes. B. of temperatures Sensitive measuring instruments must be used electrically. The adjustment forces of the display devices in these measurements are so small that they are not suitable for the direct actuation of contacts or valves for control and signaling purposes can be used. One uses, for example, for temperature control a thermocouple and a galvanometer, drop stirrups must be used, who periodically press the timer and. thereby initiating the control process.

Devices have become known in which the cooling Blaswi.rkazng voneng (limited air currents used on an electrical conductor will. The pointer of the measuring device covers the air nozzles and thus a temperature-sensitive electrical or mechanical arrangement influenced, which in turn is used to trigger the relay effect.

In other devices, air currents are moved by the measuring device Slits or cutting deflected and thereby pneumatically any secondary Follow-up process caused. To generate the air flows z. B. a swinging one Telephone membrane using the sound, nozzle principle used. When swinging such membranes create air movements that are necessary to carry out the reinforcing effects to be used.

In contrast to these known devices, the subject matter of the invention a mechanical system, e.g. B. a membrane through a sound source and mediation the pointer movement to be amplified, set in motion. The relay effect becomes: So not by the different thicknesses of covering air nozzles, but @durdh Change in the sound transmission generated by the tone generator to the membrane. For forwarding The sound waves can be in the simplest possible way a trumpet-like tube, as it is for the control of the air flow in relays is known, can be used. Besides that, you can also electrical means for forwarding or transmitting the sound waves can be used.

The change: the sound effect on a membrane - only stressed very low adjustment forces; this is an essential one improvement of the previous facilities. Because when staining air currents. like them at known facilities is necessary, there are always reaction forces that one Distract the weak pulse generator. The adjustment forces of an electric In any case, temperature measuring instruments are not sufficient. to air nozzles with the necessary Compatible with the ability to influence.

For signal corner it would be sufficient if through the oscillation process the membrane an electrical contact is interrupted or closed, for control purposes it is necessary, however, to change the excitation of the membrane, depending on the Meter pointer is approaching or moving away from the nominal value. The change in the membrane vibration intensity the gain must be proportional. The easiest way to do this is to use a pendulum or a spring is achieved by the pendulum or the spring, depending on the diaphragm excitation is more or less repelled.

In the drawing is an example of a device for implementation of the inventive concept shown schematically. The measuring device is a galvanometer provided with frame i, whose pointer: 2 with a trumpet-like tube 3 in known Way is equipped. A ball source 4 is arranged below the pipe 3, which is shown in the scheme as a simple reed whistle. If that trumpet-like Pipe 3 v411 is above the sound source 4, the greatest transmission strength is the Sound waves given. , the more the tube 3 in the pointer plane moves away from the sound source 4 is removed, the weaker the intensity of the transmitted sound vibrations.

To `make usable; the SGhali shaft is used by a clamped in the housing 5 Diaphragm 6. The housing 5 is provided with an opening which the sound source 4 facing. The intensity of the sound transmission to the membrane 6 changes with: the position of the pipe 3. If the vibrations of the sound source 4 are at pitch, so is: clearly the rise and fall of the sound transmission depending on the Position of the pipe 3 can be heard.

When the membrane 6 is excited, the pendulum 7, which is loose on the membrane rests, thrown off more or less strongly. Due to the inertia of the Pendulum in relation to the membrane the pendulum assumes an intermediate position, the depends solely on the strength of the membrane excitation. These pendulum movements are now used for the control operations by the pendulum; either contacts interrupts or closes or in per se: generates a dynamic pressure in a known manner. For this purpose, for example, the nozzle 9, from which any pressure medium flows out, and the cover plate B. The nozzle 9 stands in a known manner with a standing cylinder or a minebrang housing. Which depends on the position of the Cover plate 8 occurring pressure fluctuations cause the movement of an adjusting cylinder in a manner known per se.

The choice of the shape of the pipe 3 depends on the type of sound source away. It is also possible to use electrical transmission instead of acoustic transmission Select. In such a case, below the membrane 6: a telephone magnet be attached: which is excited by an AC power source. The telephone circuit is closed by a capacitor, the capacitor effect by a on the pointer 2 attached sheet metal flag, which between two opposing capacitor plates plays, is changed.

Claims (1)

PATENT CLAIM: Device for the transmission and amplification of the control forces of the pointer of a measuring device for regulating and signaling purposes. characterized in that a vibratory mechanical system, such as a membrane, is used to trigger control processes, which, depending on the position of the pointer of a measuring device, for example a temperature measuring device, more or less responds to sound vibrations and thereby acts on a pendulum or spring system which affects contacts, hydraulic or pneumatic valves. To distinguish the subject of the application from the state of the art, the following publications were considered in the granting procedure: German patents .... No. 262 040, 262 05 1, 278 858, 567 913, 604 472, 618 8o8; Austrian Patent No. 143 602; "Journal for Technical Physics" 1932, issue 7, p. 320 ff; "Archive for El: elitrotechnik" 1935, issue 9, p. 577 ff.