DE2812418A1 - Low inertia cylinder for hydraulic piston machine - has reinforced actuating end on light alloy drum and hardened bushes - Google Patents

Abstract

The cylinder drum is used for an hydraulic axial piston machine. The inertia of cylinder drum is reduced without adversely affecting is strength. The cylinder drum is made from light alloy and the actuating end face of the drum has a hot pressed sintered bronze layer. The cylinder drum outside circumference is covered near the actuating end with high strength material. Bushes (2) made of nitrided steel are inserted into the cylinder holes.

Description

Cylinder drum for a hydrostatic

Piston machine and process for its manufacture.

The invention relates to a cylinder drum for a hydrostatic Piston machine, preferably an axial piston machine, in particular an axial piston machine in drive flange construction, and further relates to a method for producing a such cylinder drum.

Is the angular speed of the rotary movement in axial piston machines non-uniform, the connection is made by the inertial forces of the cylinder drum between the cylinder barrel and shaft. For drive flange machines, at which the cylinder drum by transferring forces from the Piston rods is taken, this means that the piston rods are loaded in bending. This load becomes less, the lower the moment of inertia of the cylinder drum is. The moment of inertia can be reduced by reducing the mass of the Cylinder drum. This goal can be achieved by reducing the size. There are limits to this path even if one takes into account the fact that the influence of the individual mass parts is square with the distance from the axis of rotation grows, for this purpose the circumference of the cylinder drum is shaped like a wave the same distance from the axes of the cylinder drum (this means that the Plan resistance increased).

The invention is based on the object of the inertial mass of the cylinder drum without impairing the strength of the same.

For this purpose it is provided according to the invention that the cylinder drum consists of light metal. This inventive idea opens up the possibility of numerous various advantageous refinements. The cylinder drum can consist of an aluminum alloy or a material as it is called Is known constructally. It should be noted that a hydrostatic Pistons- machine known list in which the pistons consist of a core and a casing made of hard metal, for example steel or hard chrome, the core being made of a material of low specific weight and sufficient Elasticity, for example light metal, is made and the cylinder drum made of a material with the same temperature expansion coefficient, for example consists of the same material as the piston core (DE-AS 1 033 028). This design does not permit the advances and advantages achieved in accordance with the invention achieve and gives a stimulus in this direction.

It is particularly bad when on the control face of the cylinder drum a sintered bronze layer applied, preferably in the hot press sintering process under simultaneous application of pressure and heat. Unless the crystal lattice structure The bronze does not match that of the light metal before the bronze layer is sintered on expediently an intermediate layer made of one with respect to the crystal lattice structure to apply material suitable for both the light metal and the sintered bronze, for example made of nickel or preferably made of copper. The application of this intermediate layer can preferably be done galvanically.

b For axial piston machines that operate with high fluid pressure should be, it can be useful if on the outer circumference of the cylinder drum a sheathing or bandage is applied to increase the strength of the cylinder drum will.

Such a bandage can consist of a steel ring or steel band.

In order to better absorb the forces generated by the hydraulic fluid in the cylinder chambers act on the cylinder drum and improve the sliding conditions for the piston in the cylinder it can be provided that a Socket is inserted. This bushing can be nitrided, for example gas nitrided or bath-nitrided steel bushing in which a bronze piston runs or in which hard on hard a hardened steel piston runs. In a hardened or unhardened steel barrel but can also be a running layer, preferably a very thin layer of bronze made of bronze be brought in. The wall thickness of this running layer can preferably be approximately 1.5 ß of the diameter of the inner bore of the liner.

The eavesdropping layer can be centrifugally cast or galvanized Precipitated or applied by sintering or as a metallic body in the inner bore and are made by mechanical processes such as RolleX rolling or a thermal process such as cold shrink or by expanding a to For the purpose of pressing the running layer into the running it bushing bore inserted c-n, thorn heated from the inside. The liner itself can be oversized and pressed into the cylinder barrel or shrunk in the cold and then into the Cylinder drum pressed in or can be soldered or glued in n. In particular A solder has the advantage of a particularly good heat transfer from the liner to enable the cylinder drum material.

If there are liners in the cylinder drum, it can suffice, an outer sheathing or bandage only on the one adjacent to the control face Provide part of the outer jacket of the cylinder drum. Also such an outer covering can be applied by shrinking the cylinder drum in the cold and resp. or the sheathing ring is heated or by soldering the bandage on or with an adhesive, preferably hard adhesive, which relieves the tension from the cylinder drum transfers well to the bandage, is glued on. The bandage can also be wrapped be.

In the case of a LauRbüchze with a running layer made of bronze, this should be good be machinable, if possible, in such a way that Euro chips result from the TieS hole spindles. In addition, the coefficient of thermal expansion of the bronze should be as close as possible to the of the steel of the liner. Furthermore, the connection of steel bushing and Running layer be so intimate and firm that the running shift everyone Withstands forces, on the one hand the radial forces from the pistons; the radial forces Positive forces that seek to widen the running layer and, on the other hand, the axial frictional forces and the hydraulic forces acting on the axial face works. Furthermore, a good heat dissipation should be through the Laurschicht in the liner and be guaranteed by this in the cylinder drum. The minimum wall thickness the bronze layer is in many cases due to the manufacturing capabilities and the required manufacturing tolerances be determined.

The application of a layer of bronze to the face of a steel one Cylinder drum in the hot press sintering process is known per se (DE-OS 2 431 254).

It is also already known to achieve greater pivot angles the piston rod can lie directly against the wall of the cylinder drum to let (FR-PS 73.29921). For such a machine with direct piston rod drive it is also already known the area in which the piston rod system takes place regarding the material and / or the diameter and the position of the axis to be designed differently from the cylinder part in which the piston is sealingly guided is (DE-OS 2 619 005). In order to take advantage of these possibilities use, surrender According to the invention, there are various advantageous design options.

It is particularly useful if a cylinder drum according to the invention especially when the piston and / or the piston rod is directly in or on the cylinder drum material, slide, at least anodized in the cylinder bore is, that is, in the process known as anodizing process, it is electrified is.

Particularly advantageous refinements are set out in the subclaims specified.

It is advisable to make sure that for liners and resp. or sheathing, a material is used that not only has sufficient strength but also with regard to the coefficient of thermal expansion to the 1 material the cylinder drum fits or that the design is carried out in such a way that through different thermal expansion coefficients occurring stresses favorably absorbed will.

The drawing shows an exemplary embodiment of the subject matter of the invention shown.

The cylinder drum l is made of light metal. In every cylinder bore 1 a steel sleeve 2 is used, which is covered on its inside with a bronze coating 3 is provided. At the middle part of the end face 4 is the cylinder drum a sintered bronze layer 5 is arranged. Each cylinder is through a channel 6 with the end face of the bronze layer 5 connected. The cylinder drum 1 has in its middle area has a central hole 7 for receiving a cylinder drum leading Niitelzapfens is provided.

There is a bore in the cylinder drum leading radially to each cylinder 8 is provided, which leads to a groove 9 on the outside of the liner 2.

The part adjacent to the end face 4 is on the outer circumference the cylinder drum 1 a steel ring 10 placed tightly.

L e r s e i t e

Claims (16)

Cylinder barrel for a hydrostatic piston machine and process for their production. Claims: 1. Cylinder drum for hydraulic piston machines. preferably axial piston machines, in particular drive flange piston machines, thereby characterized in that the cylinder drum is made of light metal and that on the Control face of the cylinder drum is provided with a hot-press sintered bronze layer is. 2.) Cylinder drum according to claim 1, characterized in that the Cylinder drum (1) on its outer circumference with a jacket, in particular made of high-strength material. 3.) cylinder drum with a central inner bore according to claim 2, characterized in that in the inner bore a ring, in particular made of high-strength plastic 'is arranged. 4.) Cylinder drum according to one of the preceding claims, characterized characterized in that liners (2) are inserted into the cylinder bores. 5.) Cylinder drum according to claims 2 and 4, characterized in that that the casing (10) only in the part adjacent to the control face (4) the outer periphery of the cylinder drum (1) is arranged. 6.) Cylinder drum according to claim 4, characterized in that the Bushings are made of nitrided steel. 7.) Cylinder drum according to claim 4 or claim 6, characterized in that that on the inside of the liners at least on a part, the length of which is a Overlay made of Gileitmetall, preferably made of bronze, is arranged. 8.) Cylinder drum according to claim 7 for a griebflanschd axial piston machine, when driving the cylinder drum by transferring forces from the piston rods takes place directly on a part connected to the cylinder flow = .el, thereby marked, that the running layer (3) extends only over the part of the liner (2), in which the piston is sealingly guided. 9.) cylinder head according to claim 5 for a drive flange axial piston machine, in which the entrainment of the cylinder drum through the transfer of forces from the Piston rod takes place directly on the cylinder drum, characterized in that that the liner extends only over the part of the cylinder bore in which the piston is sealingly guided. 10.) Cylinder drum according to claim 4 for a drive flange axial piston machine, with the entrainment of the cylinder drum through the transfer of forces from the piston rod takes place directly on a part connected to the cylinder drum, characterized in that that the wear liner extends only over the part of the cylinder bore, in which the piston rod comes to rest. 11.) Method for producing a cylinder drum according to claim 1, characterized in that the cylinder drum (l) keworks and then on the end face (4) by electroplating an intermediate layer with a suitable Lattice constant, for example made of nickel or preferably made of copper, applied and that then on this layer with simultaneous Eimrtrken of pressure and Heat a bronze layer is sintered on. 12.) A method for producing a cylinder drum according to claim k 11, characterized in that the cylinder drum before and after the opening internally the bronze layer on the end face (4) is anodized. 13.) The method according to claim 11 for producing a cylinder drum according to claim 4, characterized in that after or preferably before the Aufs The liners are inserted internally in the bronze layer, taking advantage of the thermal expansion in particular those manufactured with corresponding external dimensions and deep cooled liners in a normal temperature or elevated temperature Cylinder drum are pressed in. 14.) Method according to claim 11 for producing a cylinder drum according to claim 4, characterized in that after or preferably before sintering the bronze layer the liners by means of a connecting material with the cylinder drum connected, preferably soldered or glued in place. 15.) The method according to claim 11 for producing a cylinder drum according to claim 2, characterized in that after or preferably before the Aufs internally of the bronze layer, the sheathing made with the appropriate dimensions in the form a steel ring using the thermal expansion on the cylinder drum (1) In particular, a heated jacket (10) is applied to a cooled cylinder drum (1) is pressed on. 16.) The method according to claim 11 for producing a cylinder drum according to claim 2, characterized in that before or preferably after application the sintered bronze layer (5) the casing (10) with the cylinder drum (1) by means of a connecting material, preferably a solder or an adhesive, connected will.