SU510739A2 - Device for transmitting pneumatic discrete signals - Google Patents

Description

one

This invention relates to devices for remotely transmitting pneumatic discrete signals.

A device for transmitting pneumatic discrete signals, protected by the main aut. St. 402043, comprising a reference pressure setting device, a transmitter, one input of which is connected to the power supply channel and the other to the atmosphere, a time switch and a communication line connected to the receiver. The time relay input is connected to the transmitter output, and the output to the control input of the switch. However, the application of the known device is limited due to the instability of the temporal characteristics of the signals. This leads to the fact that with a variable duty cycle ichiulys, in particular short zero parcels, the signal transmission process deviates from the optimal one.

The described device is a development of a known, protected main auth. St. 402043 and differs from it in that the time relay is made in the form of two pulsators, the outputs of which through the OR element are connected to the time relay output, the throttled cameras of the pulsers are connected to the input chambers of the dual valve, the normally closed nozzle of which is connected to the power supply channel, and a normally open sound valve with the atmosphere; the inputs of the pulsators and the control chamber of the valve are connected to the input of the time relay. The drawing shows a diagram of the device. It consists of Transmitter 1 connected via switch 2 and line 3 to receiver 4. As transmitter 1 in the drawing, a pneumatic relay is shown. The inputs of switch 2 are connected to the output of transmitter 1 and to the setpoint 5 of the reference pressure. The output of transmitter 1 is also connected via a time relay 6 to the control input of switch 2. Time relay 6 consists of two pulsers 7 and 8, the throttled chambers of which are connected to the supply channel and the atmosphere through a dual valve 9, the control input of which is connected to the output of transmitter 1 The outputs of pulsators 7 and 8 through the element OR 10 are fed to the output of time relay 6 connected to the control input of switch 2.

In the initial position, the output signal of the transmitter is 1 Pi 0. At the same time, the pressure in the throttled chambers of both pulsers is zero. From the output of the pulsator

Claims (1)

7 through the element “OR 10”, the control input of switch 2 receives the pressure of the ignition source. In this case, the communication line 3 is connected to the setpoint 5 of the reference pressure OP. When transmitting a single discrete ciir of Pcx. 1 from transmitter 1 to the inputs of switch 2 and time relay 6, supply pressure is applied. In time relay b, the double valve 9 and the pulser 7 are switched. The pressure at the control input of the Yau switch becomes 5 0, and the communication line 3 is connected to the output of the transmitter 1. On the communication line 3, a pneumatic signal is supplied equal to the supply pressure, which exceeds the pickup level of receiver 4. After some time, determined by the setting of the pulser 8 and sufficient to reach the pickup pressure of receiver 4 at the end of link 3, the switch 2 is switched, and to the input of link 3 to the station pressure 15 from setpoint 5, the value of which is lower than supply pressure, but more pressured by release of receiver 4. In this condition, the device remains until the single signal disappears at the output of transmitter 1. At one time, a single signal is input to the switch-switch; the operation of the pulser 7 by supplying a supply pressure to the throttled chamber, whereby the preparation for a new cycle of operation does not depend on the duration of a single parcel. When the signal changes, at the output of transmitter 1 from one to zero, there is an almost instantaneous release of pressure 30 at the output of time relay 6 due to the connection of the throttled chamber of the pulsator 8 to the atmosphere through valve 9. A pneumatic relay is used as a dual valve 9. The pressure release in the throttled chamber of the pulsator 8 returns it to its initial state and prepares for a new cycle of operation regardless of the duration of the previous zero signal. 40 Switch 2 returns to its original position, and the communication line is empty 10 25 35 through the atmospheric line of transmitter 1. After a time long enough for the end of the communication line 3 to reach the release pressure of the receiver 4 and determined by the setting of the pulser 7, the switch is switched off 2, and the reference pressure from the setter 5 again arrives at the input of the communication line 3. This state corresponds to the initial state. Due to the introduction of two pulsators 7 and 8 in the time relay, the throttled chambers of which with a double valve 9 are connected to the power supply channel by the atmosphere, the independence of the time of operation of the pulsers from the duration of the previous package is achieved. When each signal from transmitter 1 is applied, the pulsators 7 and 8 start, respectively, from the pressure "1 and" O in the throttled camera, and the duration of the feed to the input line of the "zero or" single signal is determined only by the settings of the pulsers. This allows optimizing the transmission process of a pneumatic discrete signal and expands the field of application of the device. The invention is a device for transmitting pneumatic discrete signals on the author. St. 402043, in order to expand the scope of application, the time relay is made in the form of two pulsators, the outputs of which through the element OR are connected to the output of the time relay, throttled cameras of the pulsers, are connected to the input chambers of the dual valve, the normally closed nozzle of which is connected with the supply channel, and a normally open nozzle with the atmosphere, the inputs of the pulsators and the control chamber of the valve are connected to the input of the time relay.