SU1714625A1 - Pneumatic device of direct anticipation - Google Patents

Description

The invention relates to instrumentation, namely to pneumatic devices of direct preliminary. The aim of the invention is to improve the accuracy of the device. The drawing shows a diagram of the proposed device. . The device contains a pressure amplifier 1, a variable choke 2, a capacitance 3, a first single-membrane repeater 4 with a positive shift Db and a single-membrane repeater 5 without a shift - pneumatic diodes, the first and second 7 constant chokes (; 0.18 mm) and the second single-membrane repeater 8 of the input channel RVH non-negative shift Dn. As a repeater 5 without shift, you can use a single-membrane repeater with a shift equal to zero, or a repeater without shift with a sealed nozzle-flap assembly. The input channel Pwx is associated with the positive pressure amplifier chamber 1 and the deaf (control) cameras of the first 4 and second 8 repeaters with shifts. The output of amplifier 1 is connected to the output channel of the FIRST device and through a variable choke 2 to the tank 3, the negative camera of the amplifier 1, the nozzle of the first repeater 4 directly and through the second constant choke 7 to the nozzle repeat (terminal 5, the flow chamber of which is connected to the output of the second repeater 8 with a shift. Deafness (control; a) camera repeater 5 is connected to the output channel of the device and through the first constant choke 6 with the flow chamber of the first repeater 4 with a shift. the first single-membrane repeater 4 sets a positive shift equal to AB, and the second repeater 8 sets a negative shift equal to AH.G using the first single-membrane repeater 4 with positive shift AB, the output pressure Pbyx is obviously bounded above at the level (Pcx + AB). the pressure of the ROUT in the flow chamber is greater than the total pressure of the PBX and the spring in the deaf chamber of the first repeater 4, then the nozzle of this repeater opens. The pressure in the tank 3 begins to increase, and at the output of the amplifier 1 decreases, as a result, the effect on the derivative of the input signal P out is not above the value of A, i.e. (Rvyh - RVH) Ah. With the help of repeater 5 without a shift and the second single-membrane repeater 8 with a negative shift AH, the output pressure PWPH is bounded below (RVH-AN). Indeed, the repeater nozzle 5 opens if the output of the second repeater 8 in the flow chamber of the repeater 5 is greater than the output signal FIRM in its deaf chamber or FIR PbH - AN. Thus, if PBOH PwH-AN (the pressure Pwc in the positive chamber of the amplifier 1 is slightly less than the pressure in the minus chamber of the amplifier and in the tank 3, i.e. the pressure in the latter is greater than the output pressure of the repeater 8, which is reduced by AH), the TQ opens the repeater nozzle 5, the pressure in the tank 3 begins to decrease, and the output of the amplifier 1 increases. As a result, the absolute value of the effect on the derivative of the input signal Pvc does not exceed the value of AH, i.e. (Rvyh - RVH) - AN. Constant chokes 6 and 7, installed on the side of greater pressure in the nozzle-flap nodes of the repeaters with a shift, provide the desired dynamics of the output pressure limiting process. It is enough to use chokes with a bore diameter of 0.18 M (i |. Thus, The device implements a two-sided limitation of the effect on the derivative of the input signal, i.e. - AH: (FIRED - PXX) AIIL The device implements a two-sided limitation of the output signal at levels distant from the input signal level the value of the AB is up and by a predetermined value of the AN down, i.e., PBX-AN 2P1x5PwCh-A.A. In this case, unlike the known devices, the output limiting circuit is suitable for any type of pressure amplifier, and the output pressure is not limited by itself. relative to the input signal, which is supposed to introduce a limited effect on the derivative of the input signal, the accuracy and stability of the levels of the limitation are determined only by the accuracy of the single-membrane repeaters. This increases the accuracy of the prediction device. The process of limiting the effect of the pr derivative occurs without auto-oscillations, since all the elements of the circuit, including repeaters with a shift, operate in a continuous mode.

The technical and economic effect of using the proposed device is to improve the quality of adjusting technological parameters, where it is necessary to introduce a limited effect on the derivative of these or other related parameters in the chemical, petrochemical, oil refining and other industries.

Claims (1)

Invention Pneumatic device of direct preliminary, containing pressure amplifier, the plus chamber of which is connected to the inlet channel, and the output is connected to the output channel of the device and through a variable throttle to the capacitor and minus 0 pressure intensifier chamber, two 1-line throttles and two single-membrane repeater with a shift , the nozzle of the first one is connected to the tank, and the second nozzle is connected to the atmosphere, which differs in that, in order to improve the accuracy of the device, a single-membrane repeater without a shift is installed in it and yn equals guide chamber which is connected to the output device through the first channel and the constant 0 throttle - with a flow chamber of the first repeater with a Shift, the control camera of which is connected to the input channel of the device and the control camera of the second repeater with a shift, the output of which is connected to the repeater of the second camera without a shift, the nozzle of which is connected through the second constant choke with capacity.