SU737974A2 - Device for interrogation of pneumatic sensors - Google Patents

Description

one

The invention relates to devices for centrally monitoring technological parameters measured by sensors with a unified pneumatic output signal, and is an improvement of the known device.

According to the basic invention on author. St. No. 439840 The device contains one-membrane elements, deaf chambers which are connected to the output channels of the sensors, and flow-through chambers in which nozzles are installed are connected via valves to the indicator. 5 In addition to this, the device contains a setting device and a choke, an additional single-membrane element, the deaf chamber of which is connected to the setting device, and the flow-through camera is connected to the indicator and via a choke to the power supply channel. Continuous power is supplied only to the di-membrane element, while the pressure in the indicator lines between the parameter calls maintains a pressure corresponding to the maximum output signal. This design allows to simplify the switching system and significantly reduce the consumption of the power supply in the housing. thirty

A disadvantage of this device is that in the absence of parameter call signals, the indicator continuously indicates the maximum parameter value, which, in the presence of a large number of control devices operating in individual and group modes, leads to confusion and can be confusing for process operators.

This disadvantage limits the ability to use such switching devices in complex systems of centralized control.

The aim of the invention is to enhance the functionality and improve the usability of the device. This goal is achieved by the fact that in a device for interrogating pneumatic sensor sounds according to the author. St. 439840, an additional setpoint controller, an additional choke and a three-membrane switching relay were introduced, the bottom chamber and the nozzle of the upper flow chamber of which are connected to the common channel. The upper chamber is connected to an additional task: the nozzle, the nozzle of the lower flow chamber. Through the additional throttle is connected to the atmosphere, the upper and lower flow chamber are connected to the indicator.

The device diagram is shown in the drawing. The device contains single-membrane elements 1Л-1.П, valves 2.1-2п, DO 3 additional element 3, choke 4, sensor 5, additional setting device 6, three-membrane switching relay. 7f additional choke 8, indicator 9, common, channel 10., ::: .. Pneumatic output signals

: from the sensors of technological parameters enter the deaf one-membrane elements. Flow chambers of single-membrane elements

They are connected through, valves to the common Kana Lu 10 kb1S1 mutating signals, which are connected to the flow chamber of the additional element 3 and through the choke 4 with the power line, as well as

the bottom deaf camera and the external flow chamber of the three-membrane switching relay 7. To the top. . To the deaf chamber of the three-membrane switching relay 7, an additional sensor 6 is connected. The nozzle of the lower flow chamber through the additional

choke 8 is connected to the atmosphere. The upper and lower flow chambers element. And 7 are united by a common channel. and -connected to the input of the indicator 9 “The setting device 5. .., is connected to the deaf chamber of the single-membrane element 3.

The device works as follows. , -. . Unit 5 adjusts to a pressure greater than the maximum, r6 of the switching signals.

The additional setting point b is set to a pressure equal to the maximum of the switched signaling signals. . -.-.-- ..

When none of the flow chambers of the single-membrane elements 1.1-1, n is connected to the common channel 10, the additional element 3 responds to the platoon donation / and a pressure of 1.1 kgf / cm is set in the common channel 10. This pressure also flows into the lower chamber of the element 7 and is supplied to the nozzle of the upper flow chamber. .For eteperapad pressure at the bottom

and the upper deaf chambers of the element 7, the membrane unit is thrown into the upper position, closing the nozzle of the upper flow chamber and opening the nozzle of the lower one. At the same time, the input of the indicator 9 through the lower flow chamber of the element 7 and the additional choke 8 is in communication with the atmosphere and the indicator of the indicator 9 is set to zero. When polling a specific sensor, the corresponding valve 2 is triggered and connects the flow chamber of the corresponding single-membrane element 1 with the common channel 10 and through it with the flow chamber of the additional element 3. Since the input signal of the single-membrane element 1 does not exceed the maximum signal value, the pressure in channel 10 due to the discharge of air through the nozzle of the connected single-membrane element 1, it drops to a value equal to the input signal of the latter. The nozzle of the additional element 3 is closed. Due to the differential pressure in the upper and lower hollow chambers of the element 7, the membrane unit is thrown into the lower position, closing the nozzle of the lower flow chamber and opening the nozzle of the upper one.

In this case, the input of the indicator 9 is connected to the common channel 10 and starts on it, the value of the monitored parameter is displayed. When the next single-membrane element is connected, the membrane unit of the element 7 remains in the same position and the signal from the sensor of the monitored parameter enters the indicator 9.

If, after the termination, control using valves 2, to separate the flow chambers of all single-membrane elements 1.1-ln with a common channel 10, then a pressure of 1.1 kgf / cm is established in it, the membrane unit of the element 7 is again thrown into the upper position and connects the inlet indicator 9 with the atmosphere.

The additional choke 8 serves as l- ensuring the clarity of the operation of the element 7 (elimination of the influence of a short circuit at the moment of switching) ...

Claims (1)

Invention Formula ycTpoflcTBO for polling pneumatic sensors according to author. No. 439840, characterized in that, in order to expand the functional possibilities. In addition, an additional setpoint controller, an additional choke and a three-membrane switching relay are introduced into it, the lower chamber deaf and the nozzle of the upper flow chamber of which are connected to the common channel, the upper chamber deaf is connected to the additional unit, the lower flow chamber nozzle is connected to the atmosphere through the additional rosel, the upper and lower flow chambers are connected to the indicator. From SomvuxeS technological nopOMfmpoS