CS229381B1 - Keyholder for axial hydrostatic converter - Google Patents

Abstract

The invention relates to a lever holder of an axial hydrostatic converter. The lever holder guided by a central ball guide and pressed by pre-stressed springs has a pressure surface which in the unloaded state lies on one side of the plane and contacts it on the outer circumference. The invention can be used for axial hydrostatic converters with an inclined plate and a lever holder pressed by a pre-tensioned spring. The embodiment of the holder according to the invention is characterized by Figure 3.

Description

2,229,381

BACKGROUND OF THE INVENTION [0002] In a known embodiment, the handle retainer is designed such that its pressing surface has a planar shape, with considerable variation in the thickness of the oil film beneath the knife. from flatness in terms of size and direction. The retainer is designed as an annular plate, with openings for the wings being formed in the annulus. In addition to the final thickness, this resilient annular annular plate holds on the internal diameter, while its stiffness is reduced by said holes. When the downforce of the springs is applied, the retainer closes, the deflection size being of the order of magnitude comparable to the thickness oil film below the knob and may exceed this value.

This causes the slipper to slip against its guide flat, thereby greatly increasing the flow loss at this location and at the same time the part of the slider located closer to the shaft can occur in a relatively wide range of operating parameters to contact the guiding surface, thereby increasing frictional loss, wear on the wear surfaces and in the extreme case of their seizure.

The above-mentioned drawbacks are eliminated by the key holder of the axial hydrostatic converter guided by the central ball guide pressed by the prestressed springs according to the invention, the principle of which is that in the unloaded state the pressing surface of the retainer lies on one side of the ideal plane with the plane contacting it on the outer circumference. The embodiment of the bow retainer according to the invention creates conditions for reducing friction and flow losses between the wing and its guide surface, reducing wear on these surfaces, increasing reliability even at very high converter speeds. • 4> 229,381

BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawings, an exemplary embodiment of a neck retainer of an axial hydrostatic transducer according to the invention is shown, wherein in Fig. 1 is a cross-sectional view of a rotor of an axial hydrostatic transducer; Fig. 2.

On the groove 11 of the shaft 1 there is a slidably mounted cylinder block 2, which presses a spring 4 against the valve plate 3 of the retainer 6 of the lugs 7, which is guided on the guide surface 81 of the inclined slope 8, against the valve plate 3. In the non-load-bearing position, the pressing surface 61 of the retainer 6 lies on one side of the axial planes, whereby it contacts this plane on the outer periphery x of the pressing surface 61. The maximum distance of the pressing surface 61 from the planes is dependent on the stiffness of the abutment surface 61. The value of the distance h is selected so that when the retainer 6 is retracted by the spring 4, the value of the distance h is approached to zero, and even a negligible negative value can be obtained. value. Such a deformation assists the wing 7 in a parallel manner; the position of the guide surface 81. What is the ideal position for the hydrostatic bearing in terms of energy loss of wear. The extrusion surface 61 is obtainable by conventional manufacturing processes used in the manufacture of axial hydrostatic transducers using a simple formulation.

Claims (1)

Slider striker of axially hydrostatic transducer guided by central guiding guide and pressed by bias springs, characterized in that, in the unloaded state, the pressing surface (61) of the retainer (6) lies on one side of the plane (S ¹ ), with this plane (^). contacts the external circuit / x /.