SU1036966A1 - Jet-pipe frequency transducer - Google Patents

Abstract

JETTING FREQUENCY SENSOR containing a discrete jet amplifier, the supply channel xc of which is connected to the output of the sensitive: element, st the output is connected to the output channel of the jet frequency sensor, characterized in that. in order to simplify the design, the feed channel and the control channel of the discrete jet amplifier are interconnected via a delay element. (L with Oi with and O)

Description

This invention relates to an automechanical control and may be used in jet pneumatic automation systems.

A jet frequency sensor is known, consisting of three parallel branches, each of which contains jet amplifiers, chokes and capacitors (1).

The sensor is complicated in construction, contains a large number of jet elements. Combustion, chokes and capacitances, and therefore characterized by a low inflow. i

The closest to the invention according to the technical essence is an inkjet frequency sensor containing a discrete inkjet amplifier channel. the power supply of which is connected to the output of the sensitive element, and both its output channels are connected to the control channels of the discrete jet amplifier (2,

However, the known sensor is complicated in construction. The object of the invention is to simplify the construction.

The goal is achieved by the fact that in a jet frequency sensor containing a discrete jet amplification, the power supply channel of which is connected in the course of a sensitive element, and the output is connected to the input channel of the jet frequency sensor, the power supply channel and the control channel of the discrete jet amplifier are interconnected through the element, the delay.

The output signal of the frequency sensor is a frequency and pulse signal with a varying pulse duration depending on the frequency of the input signal. Such a signal is simply converted into amplitude using known pneumatic automation devices (for example, a series-connected choke and capacitor).

The drawing shows a diagram of the jet frequency sensor.

The jet frequency sensor consists of a sensing element 1, the output of which is connected to the power supply channel 2 and through the delay element 3, which is in series connected. droplet 4 and delay 5; with channel 6 control discrete jet amplifier 7. In the output channel-output 8 discrete jet. amplifier 7 produces an output pulse frequency signal. Jet frequency sensor operates as follows.

The signal from the sensing element 1, which is the input signal of the sensor, in the form of frequency-modulated pneumatic oscillations enters the power supply channel 2 and through the delay element 3 into the control control channel 6 of the discrete jet amplifier 7. At the positive half-wave of the signal (pressure) The bus enters from power supply channel 2 to output channel 8 and, weakening in amplitude on throttle 4 to the normal level of control signal and passage along delay line 5, to control channel 6, causing discrete jet switching cd) divisor 7. Thus, the output 8 Tr deleterious inkjet amplifier 7 is formed by a pulse signal whose duration depends mainly on the parameters of the delay line 5. With a negative half-wave of the input frequency signal (absence:

5, the pressure of the switching of the discrete jet amplifier 7 does not occur, since the signal in the power supply channel 2 disappears earlier than in the control power control channel 6. Therefore, during the period of the input frequency signal at output 8 of the discrete

 amplifier 7 forms a single pulse of a certain duration. When the frequency of an input signal changes, its period changes while maintaining the duration of the output pulse.

The proposed inkjet frequency sensor is characterized by simplicity of design due to the small number of parts. Sensor adjustment is accomplished by simply adjusting the delay element, which allows you to quickly debug the sensor when replacing

its elements. The output frequency-pulse signal of the variable duty cycle sensor is easily converted to amplitude for further processing, which simplifies the provisioning equipment.

Claims (1)

Inkjet frequency sensor containing a discrete inkjet amplifier, the power channel of which is connected to the output of the sensing element, and the output is connected to the output channel of the inkjet frequency sensor, characterized in that, in order to simplify the design, the power channel and the control channel of the discrete inkjet amplifier are interconnected via delay element. I036966