| 摘要 |
<p>1283982 Gas turbine plant; fluid logic and switching circuits PLESSEY CO Ltd 24 March 1970 [25 March 1969] 15475/69 Heading F1G and F1P [Also in Division G3] The invention relates to a fluidic control system comprising a jet converter for controlling the ratio of output to input thereacross as a function of the input pressure of a fluid stream applied to the jet converter, reference means for providing a fluid output pressure which is a fraction of said input pressure, and control means operative in response to the pressure difference between the output pressure of the reference means and the jet converter to produce an output dependent on the value of the input pressure. The fluidic position control system in Fig.1 comprises a planer jet collector 12 fed with pressure fluid P 4 : the collector 12 has a vent outlet to atmospheric pressure P 1 and an output pressure P c. The output pressure P c is supplied to the control jet inlet 14 of a proportional amplifier 18 which has an input connected to the source of pressure P 4 . The pressure P 4 is also supplied to pressure reference means comprising two orifices 22, 24 in series, the orifice 22 being of fixed area and orifice 24 of variable area. The pressure P R at a point between the orifices is connected to the second control jet inlet 16 of the proportional amplifier 18. The amplifier has two output legs 26, 28 the proportion of fluid which passes through each leg being dependent on the pressure difference between the control jet inlets P C and P R . The output legs 26, 28 are connected to a mechanical feedback which controls the area of the variable orifice 24. The jet collector operates such that the ratio output pressure to input pressure P c /P 4 varies as a function of input pressure. The pressure difference between the output legs 26, 28 of the amplifier 18 operates a drive means not shown. In Fig. 3 the pressure P 4 is the discharge pressure of the compressor of a gas turbine engine and the control is effective to adjust the stator guide vanes 32 of the compressor. The control comprises a jet collector 12 and reference means 22, 24 as before, the output pressures P c and P R of which are fed to a first proportional amplifier 18 the outputs from which are fed to two more amplifiers 34, 36 connected in cascade with amplifier 18. The outputs of amplifier 36 are fed to the pneumatic ram 42 which acts through linkage 50 to control the guide vanes 32. A similar arrangement is described with reference to Fig. 4 (not shown) but the outlet vents of the proportional amplifiers are connected to atmosphere pressure P 1 through a restrictor. In Fig. 5 (not shown) the output of the pressure reference means 22, 24 is connected to the control jet input 16 of the first amplifier 18 through a vortex diode (64) and a fluid capacitor (66) so that the response is different depending on whether the compressor is accelerating or decelerating. A bleed valve may be used in place of adjustable guide vane 32 to control the pressure P 4 . In Fig. 7 the pressure reference means comprises two fixed area orifices 106, 108 in series flow, the output pressure P R being fed to jet control 110 of a fluidic bi-stable element 114. The jet collector 100 has a supply jet input 104 and a control jet input 102 both supplied with pressure P 4 . The bi-stable element 114 is supplied with pressure P 4 and has two output legs 122, 124 which supply fluid to one side or the other of a ram 116 which acts to control supply of fluid to an actuator 120. The fluid supply to control jet input 102 is a small fraction of that supplied to the main input 104. In Fig. 8 the bi-stable element 114 of Fig. 7 is replaced by a momentum interaction proportional element 132 and the fixed orifice 108 is replaced by a variable orifice 138 having a trim orifice 138b. The output legs of the proportional element 132 are connected to a ram 134 which acts to control flow of fluid P x to actuator 144 which is connected to a compressor bleed valve. The rod of the actuator 144 is also connected to the variable orifice 138. In Fig. 9 (not shown) the outputs of the proportional element 132 are connected to two further proportional elements (152), (154) so as to constitute a threestage amplifier. The fluid-flow to the control jet inputs of the third stage element (154) is supplemented by restricted flow of fluid direct from the source of pressure P 4 , restrictors (156) being disposed in the supple lines. In Fig. 10 (not shown) the output legs of the proportional element are connected to either side of the piston (150) of the actuator (144) through vortex amplifiers (158), (160) working in push-pull mode. The supply jet of each amplifier is fed by pressure P x .</p> |
