CS215794B1 - Axial hydrostatic converter «variable geometric volume» - Google Patents

Abstract

The invention relates to an axial hydrostatic converter with a variable geometric volume, in which a cylinder block is placed on the drive shaft, containing pistons with sliding bearings mounted on a swash plate, resting on a cradle through bearing segments, while two cylindrical holes are formed in the rear cover closing the housing, which are connected to the supply channels formed in the rear cover and in which control pistons are mounted, provided with a spherical guide surface and coupled to the swash plate. It solves the arrangement of control pistons and a spring return mechanism serving to control the position of the swash plate. A spring plate with a compression spring, a spring washer together with a setting washer resting on the rear cover is inserted and axially supported on the piston rod of the control piston, and the head of the control piston is inserted and axially fixed by a threaded connection at the end of the piston rod. The use of the invention is advantageous for reversing hydrogenerators with variable geometric volume. The embodiment of an axial hydrostatic converter with variable geometric volume is characterized by Figure 1.

Description

The present invention relates to an axial hydrostatic transducer with variable geometric volume and provides an arrangement of control pistons and a spring return mechanism serving to control the position of the swivel thatch, as well as a method of adjusting the swivel thatch using a spring return mechanism during assembly.

In a known embodiment of a variable displacement axial hydrostatic transducer in which a cylinder block comprising working pistons with sliders mounted on a pivot plate supported by a cradle is supported on the drive shaft, with two cylindrical openings in the rear cover closing the housing. are connected to the inlet ducts formed in the rear lid and in which the control pistons are provided with a guiding surface and coupled to a pivot plate and the control pistons have a piston head slid on the hollow cylindrical shaft and secured by a circlip. The return spring is located in the hollow cylindrical shaft and the screw adjusting mechanism for adjusting the zero angle of inclination of the swiveling thatch is located at the rear of the transducer from which it partially extends. The positioning of the return spring in the hollow piston as well as the screw-back mechanism in the rear lid is also known in other embodiments. The disadvantages of the present state of the art are the limited space for the return spring, the increased manufacturing effort of the actuating piston and the screw adjusting mechanism, and the reduced possibility of checking the mounting accuracy of the swivel thatch adjustment.

The above-mentioned disadvantages are overcome by the embodiment of an axial hydrostatic transducer with variable geometrical volume, in which a cylinder block comprising working pistons with pendulums mounted on a pivot plate supported by bearing segments on a cradle is mounted on the drive shaft and closed in the rear cover which are connected to supply channels formed in the rear lid and in which the control pistons are provided with a spherical guide surface and coupled to a pivot plate, the essence of which is a sliding and axially supported spring plate with a compression spring and a spring The head of the control piston is inserted and threaded to the end of the piston rod by means of a washer, together with an adjusting washer supported on the rear lid and at the end of the piston rod.

The advantage of the embodiment of the axial hydrostatic transducer with variable geometric volume of the invention is simplified construction and production of no lid, simple modular construction of the control piston and also the design without return springs. a precise way of adjusting and controlling the adjustment position of the swinging position, preventing unauthorized persons from manipulating the swinging positioning mechanism, simplified the method of fitting the wall lid, a large space for the installation of return springs with a wide range of stiffness and force.

An embodiment of an axial hydrostatic transducer with variable geometric volume according to the invention is shown in the accompanying drawings, in which Fig. 1 is a longitudinal section of the transducer, Fig. 2 is a bottom plan view of the transducer at the mounting position;

On the drive shaft 1 is a cylinder block 11 comprising working pistons 12 't V; I 'I

215 794 with the pendulums 13 mounted on the pivot plate 2 supported by the bearing segment 21 on the cradle 31 formed in the front lid J, wherein two cylindrical apertures 41 are formed in the rear lid 8 closing the box 2 and are connected to the feed channels 42 formed in and in which the operating pistons 6 are provided with a ball guide surface 661 and coupled to the pivot plate 2. On the piston rod 62 of the actuating piston 6, a spring plate 63 with a compression spring 64 and a spring washer 56 is inserted and axially supported, and the adjusting washer 66 is radially and axially free in the cylindrical recess 32 of the housing J axially secured from one side by the bottom 321 of the cylindrical recess 32 of the other party by no age £. At the end of the piston rod 62, the head 61 of the actuating piston 6 is axially fastened to the threaded joint 621. When the pivoting thatch 2 is tilted by an angle under the pressure drop on the pistons 6, one of the compression springs 64 is compressed and of the signal which induced the pressure drop on the pistons 6 is changed by the angle ε. set the swing thatched to zero. At the zero setting angle eC of the swivel thatch 2, the housing 2 is screwed to the housing 2 ^{with a} flat surface 21 »through the hole 72 serving for insertion of the gauge and the slots 22 · During adjustment the heads 61 of the piston 6 are rotated. for example with a screwdriver. The adjustment is checked by measuring the distance H at two measuring points A. In the adjustment position, the two washers 65 are in contact with the respective adjusting washer 66 and the head 61. The contact can be controlled by slotted gauges and experimental movements of the head 61 in the radial direction. The piston rods 62 are parallel to the axis 14 of the drive shaft 1 at a zero angle of inclination of the pivot that allows the shape of the bearing surfaces between the spring washer 65 and the adjusting washer 66 as well as the head 61 to be planar or tapered. functionally advantageous. The mounting of the adjusting pad 66 in the cylindrical recess 32 with radial clearance reduces the coaxial fit of the conical bearing surfaces formed on the spring washer 65 of the adjusting pad 66 and the head 61.

Claims (3)

2 215 794 with slippers 13 mounted on a pivot plate 2 supported by a bearing segment 21 by a cradle 31 formed in the front lid J, wherein two cylindrical holes 41 'are formed in the rear lid 4 closing the housing 2 and connected to the feed channels 42 A spring plate 63 with a compression spring 64 and a spring washer 65 is slid and axially supported on the piston rod 62 of the control piston 6. and the adjusting washer 66 is disposed radially and axially in a cylindrical recess 32 of the housing J axially secured on one side by the bottom 321 of the cylindrical recess 32 and on the other side by no lid 4. At the end of the piston rod 62, an axially fastened head 61 of the actuating sand ta 6. When tilting the pivoted beam 2 by an angle below the effect of the pressure drop on the pistons 6, and compressing the compression springs 64 and exerting a force to try to reduce the angle. When the signal that caused the pressure drop on the pistons 6 is canceled, the angle changes. to set the swinging to zero. At the zero setting angle C of the tilting dock tilt 2C, the carriage 2 bolts the plate 2 with the planar surface 71 through the opening 72 for receiving the gauge and the cutouts 22 · At the adjustment, the heads 61 of the control piston 6 rotate and the piston 62 is holds against rotation by, for example, a screwdriver. The adjustment is checked by measuring the distance H at the two measuring points A. At the correct setting, the two washers 65 are in contact with the respective adjusting washer 66 and head 61. The contact can be controlled by slot gauges and experimental movements of the head 61 in the radial direction. The piston rod 62 is parallel to the axis 14 of the drive shaft 1 at a zero angle of inclination of the swinging dock, which allows the shape of the abutment surfaces between the spring washer 65 and the adjusting washer66. as well as head 61 was planar or conical, which is preferable to both assembly and functional aspects. The mounting of the adjusting disc 66 in the cylindrical recess 32 with radial damping reduces the demands on the alignment of the bearing conical surfaces formed on the spring support 65, the adjusting washer 66 and the head 61 of the invention. Variable-volume variable-volume axial hydrostatic transducer housing a cylinder block comprising piston workpieces mounted on a swivel plate supported on bearing segments by a cradle on the drive shaft, wherein two cylindrical openings are provided which are connected to the feed channels formed in the rear lid and in which the control pistons are provided with a spherical guiding surface and coupled to the pivot plate, characterized in that the piston rod (62) is pushed in and an axially supported spring plate (63) with a compression spring (64) a spring washer (65) together with an adjusting washer (66) supported on the rear lid (4) and at the end of the piston rod (62) and a threaded connection (621) axially fixed to the head / 61 / control piston (6). 2. An axial hydrostatic transducer having a variable geometrical volume as claimed in claim 1, characterized in that the adjusting washers (66) are disposed radially in cylindrical recesses (32) of the housing (5) and axially secured on one side by the bottom (321) of the cylindrical recesses / 32/215 794 3 and no lid on the other (4). 3. An axial hydrostatic transducer with variable geometrical volume of the point 1, characterized in that at zero angle (e) / adjusting the pendulum (2) the piston rods (62) of the piston (6) are parallel to the axis (14) of the drive shaft. 1 /. 2 drawings