RU97119931A - ZOLOTNIK POWER STEERING GEAR - Google Patents

Claims (1)

1. A rotary valve for a hydraulic power steering mechanism, comprising a valve body having an inlet slot for receiving working fluid from the pump, a return slot for returning the working fluid to the pump, and a cylinder window for connecting the working fluid to the left and right chambers of the power steering cylinder, this spool also contains an input shaft, having on its outer periphery a certain number of grooves elongated along the axis, separated by pads, a sleeve mounted on the specified input shaft and attached With the possibility of rotation to the driven element, this sleeve has in its bore a set of grooves elongated along the axis, aligned along the circumference with the platforms on the input shaft, the boundaries between the joint grooves of the input shaft and the grooves of the sleeve define elongated elongated passages along the axis that control fluid flow in the spool, the passages open and close when there is a relative rotation between the input shaft and the sleeve from the neutral position, the torsion located in the bored hole of the input shaft a, connected with the possibility of deformation with the input shaft and with the driven element and installed to advance the sleeve and input shaft to a neutral position, the passages are connected through holes as a circuit such that they form one or more main and one or more additional Wheatstone hydraulic bridges, located in parallel, each specified bridge contains two branches hydraulically connecting the inlet and return slots, each specified branch includes an inlet passage hydraulically connected to a flowing slot, and a return passage hydraulically connected to the return slot, the amount of fluid flow through each bridge varies in accordance with the throttling performed by the corresponding inlet and return passages in this bridge, the branches of the main bridge contain means for providing hydraulic communication with one of the cylinder windows in the place of mutual connection of the corresponding inlet and return passages in this branch, the branches of the additional bridge do not contain means providing hydraulic communication with the window cylinder, characterized in that the fluid flow from the specified main bridge is hydraulically connected to the return slot through the main return path, and the fluid flow from the secondary bridge is hydraulically connected to the return slot through the additional return path, on the second return path there is an annular narrowing, wherein The annular narrowing has a fixed cross section for flow with a large aspect ratio.  2. The rotary valve according to claim 1, wherein said annular narrowing has a cross section for flow with a dimension ratio of more than 10.  3. The rotary valve according to claim 1, in which one, but not both, of the main or additional return paths passes through the bored hole of the input shaft.  4. The rotary valve according to claim 3, in which an additional return path passes through the bored hole of the input shaft, and an annular narrowing is formed inside this bored hole.  5. The rotary valve according to claim 4, in which the annular narrowing formed inside the bored hole of the input shaft is created using a small radial gap existing between the diametrically expanded portion of the torsion bar and the bored hole of the input shaft, whereby the axial flow in the channel is throttled towards the indicated return slot.  6. The rotary valve according to claim 4, in which the fluid flow from the main bridge is directly connected to the return slot through channels formed in the form of axial extensions of the grooves of the input shaft associated with the main return passages, while the fluid flow is not subjected to ring contraction.  7. The rotary valve according to claim 5, wherein said diametrically expanded portion of the torsion bar is formed in the form of a plastic molded annular sleeve around said torsion bar. 8. The rotary valve of claim 6, wherein said plastic molded annular bush is made of an engineering plastic chemically resistant to the working oil from such as delrin or lyuratan ^{® ®.}
9. The rotary valve according to claim 7, in which the specified plastic molded sleeve is elongated along the axis for overlapping with additional return radial holes in the specified input shaft.  10. The rotary valve according to claim 3, in which the additional return path does not pass through the bored hole of the input shaft, and an annular narrowing is formed at the boundary of the input shaft and the sleeve.  11. The rotary valve of claim 10, in which the additional return passages are elongated along the axis in at least one direction for communication with the annular cavity formed by the interaction of the reduced diameter portion of the outer periphery of the input shaft and the bored hole of the sleeve, wherein said annular cavity acts as a manifold to collect additional reverse oil flow, which is then transmitted through an annular narrowing to the return slot.  12. The rotary valve according to claim 11, wherein said annular narrowing is formed by a predetermined small radial clearance existing between the indicated portion of the reduced diameter of the input shaft and the inner diameter of the radius of the bore of the bore of the sleeve elongated radially inward.  13. The rotary valve according to claim 12, wherein said radially elongated portion of the bore of the sleeve is formed in the form of an annular stamped metal cap with precisely defined internal and external dimensions, which is installed by means of a press fit inside the skirt of the sleeve to create a jumper opposite the axial end of the bored bushing holes.  14. The rotary valve of claim 10, wherein said main return path passes through a bored hole of the input shaft, whereby the annular narrowing is bypassed along the path to the return slot.  15. The rotary valve according to claim 1, in which the fluid flow from the additional bridge passes along the axis through the specified annular narrowing, and therefore the back pressure is applied to all additional passages in the upper course of the specified narrowing, generating cavitation noise, relative to the specified additional passages for all working corners of the spool.  16. The rotary valve according to claim 1, where the specified rotary valve has eight grooves of the input shaft.  17. The rotary valve according to claim 1, where the specified rotary valve has eight grooves of the sleeve.