SU840932A1 - Pneumatic computer - Google Patents

Description

The invention relates to pneumatic automatics, in particular, to methods for converting and generating pneumatic signals, concerns the principles of constructing pneumatic active elements and devices, and can be used in hydraulics. A pneumatic diaphragm device operating according to the principle of force compensation p. A disadvantage of the known device is the methodological error associated with the displacement of the sensitive element when the amstrast 9 of the converted signal is changed. This leads to a change in the parameters of the sensing element, for example, the effective area of the membranes, which causes a change in the coefficient of pressure-to-force conversion and vice versa. The latter limits the accuracy of the conversion. The closest in technical essence to the present invention is a device with sequential amplification with one sensitive element in the first stage. In this device, they contain a comparison membrane element into the deaf chamber of which an input signal is supplied, and the nozzle of the flow chamber is connected through an inductor to the atmosphere and to the input of a pneumatic signal amplifier 2. A disadvantage of this device as an analog is a methodical error. the bone is related to the movement of the membrane of the input element. The purpose of the invention is to improve the accuracy of the pneumatic signal conversion when performing computational operations. This goal is achieved in that the device further comprises a pressure divider, which is connected to the second input of the pneumatic pressure amplifier, and an input to the flow chamber of the reference element and the output of the amplifier.

Claims (1)

Claim The action of the circuit proceeds as follows. fifteen The input pressure ^P BX ”is converted into the membrane force by the block of element 1, it moves the latter, covering the nozzle. This causes an increase in the resistance of the nozzle-flapper and a drop of 20 indicator pressure P ^ cd. As a result, the output pressure begins to increase, creating a force and displacement that compensates for the action caused by ^P ВХ '. At the same time, it increases 25. ^Ρ 3ά9 · with Р _? А З = КР _ех , where the coefficient of the divider formed by the chokes with conductivities γ and сГ · Since in equilibrium ^p cnd ^{= p} Conductivity ratio of nozzle-damper (throttle. 30 cel 2 and throttle throttle cG turns out to be the same T / d'This makes the position of the membrane block of element 1 unchanged, since at constant β and d 'the conductivity οί must be kept constant. . T thus' A pneumatic computing device containing a multi-membrane comparison element, the blind chambers of which are connected to the input and output channels, and the nozzle is connected directly to the first input of the pressure amplifier and through the throttle atmosphere, the pressure amplifier output being connected to the output channel and the flow chamber of the multi-membrane comparison element, characterized in that, in order to increase the accuracy of its operation, a pressure divider is installed in it, with an input connected to the output channel, and an output with a second input divisor pressure.