| 摘要 |
<p>919,638. Fluid-pressure servomotor control systems. SERTEC SOC. D'ETUDES ET DE RECHERCHES TECHNIQUES. Jan. 27, 1960 [Jan. 27, 1959], No. 3002/60. Addition to 846,767. Class 135. The fluid pressure in an implement lifting cylinder 20, Fig. 1, is regulated by a valve 26 which controls communication between a supply conduit and an exhaust line 34; the valve 26 is elevated by a spring 30 in a chamber 32 and fluid pressure from the supply conduit passing through a restriction 33 to the chamber, which latter is connected to exhaust line 34 via a manually or automatically adjustable throttle 35. The spring 30 may be dispensed with and the valve provided with a differential piston. Downstream of valve 26 is a cut-off valve 37 on a manually actuated shaft common to a distributing valve 38 upstream of the throttle 35. The valve 37 has a chamber 54, Fig. 2, permanently open to the upstream part of the supply conduit and ports 44 open to the downstream part of the supply conduit, communication between the chamber 34 and ports 44 being controlled by balls 42 which may be unseated by a cam 41 on the common shaft 53 or by fluid pressure. Also attached to shaft 53 is the rotor 45 of the distributing valve 38 which incorporates a diametral bore 46, Fig. 10, and peripheral grooves 47, 48, which rotor is housed in a sleeve 49 with radial parts 50, 51, 52 connected respectively, to the chamber 32, Fig. 1, exhaust line 34 through a conduit 40, and the throttle 35. The common valve-shaft has four positions: (a) valve 38 is closed as in Fig. 10, and the pressure rises in chamber 32 to close valve 16, the fluid pressure in chamber 54, Fig. 2, unseating the balls 42 and enabling fluid to be supplied to the lifting cylinder to elevate the implement, (b) the valve 38 connects the chamber 10, Fig. 1, to exhaust line 34 so enabling the pressure on the head of valve 26 to open it whilst the balls 42 are seated by the fluid pressure from the lifting cylinder, hence trapping the fluid in the latter, (c) the cam 41, Fig. 2, unseats balls 42 and the fluid from the lifting cylinder escapes to exhaust line 34, Fig. 1, via the valve 1 since chamber 32 remains connected to this line 34, whereupon the implement is lowered and (d) wherein the balls 42, Fig. 2, are cammed open but the chamber 32 is connected to the throttle 35, Fig. 1. Position (d) is the normal one wherein for a given setting of the throttle 35 the pressure is maintained constant in the supply conduit in the balanced condition; the valve 26 is slightly off its seat and permits a small leak to the exhaust line 34. The valve 26, Fig. 2, which is in the same housing block 85 as valves 37, 38, 29, Fig. 1, is formed with two sleeves 61, 62, Fig. 2, spaced to form a chamber 63, permanently connected to exhaust line 34, Fig. 1; the valve closure comprises a piston with a skirt 64 grooved for balancing purposes and an extension 65 separated by a conical surface 66 which cooperates with the adjacent end of the sleeve 62 constituting a seat. The extension 65 embodies a conical head 69. An adjustable safety valve 70 is associated with the restriction 33, which latter may be adjustable. Operation of a lever 36, Fig. 1, rotates a shaft 74, Fig. 2, and alters the degree of throttling provided by a variable width groove 75 in a rotating body 76, which groove co-operates with the outlet 77, Fig. 15, and communicates with an inlet 78 through a diametral bore 79 and another circumferential groove 80. The throttle 35, Fig. 1, may be replaced by a spring-loaded valve, not shown, the degree of throttling of which is dependent upon the pressure of the fluid flowing therethrough for a given setting of the control lever. The lever 39 may be controlled by a floating lever with a manual input and a connection to the implement linkage; the input member may be located in a position when the implement can " float." The implement linkage may be connected to the throttle 35. The implement may be a plough which is kept at a constant depth to provide the optimum adhesion of the tractor driving the implement. Specification 868,702 also is referred to.</p> |
