DE102008027698A1 - Sliding bearing component for use as e.g. sliding bearing shell, in axial piston machine of industrial truck, has attached bearing layer provided with sliding layer, which exhibits material from graphite bronze - Google Patents

Abstract

The component (2) has an attached bearing layer provided with a sliding layer, which exhibits a material from graphite bronze. The sliding layer is provided with a portion of tin of 8 to 12 weight percentages, a portion of graphite of 0.5 to 2 weight percentages and a remaining portion of copper. The bearing layer consists of two layers, where one of the layers that is turned to the component is designed as a detention layer and the other layer is designed as the sliding layer that contains the graphite as fixed lubricant. An independent claim is also included for a method for attaching a bearing layer on a sliding bearing component.

Description

The The invention relates to a sliding bearing component with an applied Bearing layer and a method for applying a bearing layer on a sliding bearing component.

such Slide bearing components are usually composite materials formed, in which a bearing layer, in particular from a Warehouse metal is applied to a base body becomes. The bearing layer essentially determines the properties of the sliding bearing component in terms of load capacity, wear resistance and the sliding speeds. Here are a number of material properties the bearing layer has a role, for example friction, running-in behavior, Thermal conductivity, electrical conductivity, chemical properties and chemical stability, machinability and deformability. These material properties of the bearing layer are influenced by the manufacturing process of the bearing layer. So far, such storage layers by means of soldering Applied to the body. This procedure is however due to the separate production and processing of the bearing layer and the body as well as by the soldering process for connecting the main body with the bearing layer very expensive and expensive. In addition, it is already known the bearing layer on the body by means of sintering technology or casting technique to apply. Beyond that Bearing metals on the base body for producing a Slide bearing surface by means of high-speed flame spraying applied.

In hydrostatic displacement units, in particular hydraulic Axial piston machines, so axial piston motors and pumps, as they For example, for hydraulic drives in industrial trucks and mobile machines are used as storage layers for the sliding bearing components, in particular for plain bearing shells, sliding shoes, Bushings and control discs, various materials such as steel, cast iron, Brass and lead bronze used.

The Lead-bronze is particularly well suited in this load case the very good sliding properties, corrosion resistance and sufficient strength. The sliding properties arise from embedded lead inclusions in the tin-copper base material the lead bronze. These lead inclusions serve as solid lubricant.

Produced Bearing stock layers are usually by Pour or sinter onto the slide bearing component. When Sliding bearing component is usually a steel body, z. B. a cylinder block. Thereby creates a solid bond between lead-bronze and steel.

Of the Use of lead as a solid lubricant is for environmental reasons and cost reasons increasingly considered problematic. Therefore, a replacement of lead by another solid lubricant desirable. Alternative solid lubricants may however, in terms of sliding properties and resilience none have significant disadvantages.

Of the The present invention is based on the object, a sliding bearing component with applied bearing layer and a method of application a bearing layer on the sliding bearing component in such a way that it dispenses with the use of lead as a solid lubricant can and still sliding properties and resilience of the bearing layer be guaranteed.

The Object is according to the invention in the sliding bearing component achieved in that the bearing layer at least one sliding layer comprising a material of graphite bronze.

By the use of graphite bronze instead of lead bronze can environmentally harmful lead by graphite as a solid lubricant be replaced, without the sliding properties and resilience of the storage layer to deteriorate.

The Sliding layer expediently has a Tin-copper base material with incorporated graphite inclusions on.

Especially favorable conditions with regard to gliding properties and resilience are given when the sliding layer takes a share to tin from about 6 to about 14, preferably from about 8 to about 12 weight percent, a proportion of graphite of about 0.3 to about 3, preferably from about 0.5 to about 2 weight percent and a Residual amount of copper has.

At the Applying the bearing layer on the particular a steel body comprehensive sliding bearing component by pouring or sintering process The problem may arise that the graphite component is a safe one Adherence of the bronze impacted on the steel body. In addition, the strength of the bronze through this Be reduced additives. Therefore, according to a particularly preferred embodiment of the invention, that the bearing layer consists of at least two layers, wherein a layer facing the sliding bearing component formed as an adhesive layer is that contains no graphite while a the Sliding bearing component layer facing away formed as a sliding layer is that contains graphite as a solid lubricant.

One Another problem can occur when the graphite bronze due to the insolubility of graphite in copper by casting not or can be produced only with great effort. The infusion process is therefore not without graphite bronze further applicable. To avoid this problem it is proposed the bearing layer is a layer applied by means of pressure sintering is.

The The invention further relates to a method for applying a bearing layer on a sliding bearing component.

the method, the object is achieved in that a bearing layer is applied, which comprises at least one sliding layer, the one Made of graphite bronze.

Prefers If the bearing layer is applied by pressure sintering of a sintering powder, wherein a sintered powder spill by means of a pressurized an electrode having pressing means, in particular an electrode plate, is pressed on a front side of the sliding bearing component and of a second, on the back of the sliding bearing component arranged, also having an electrode, pressurized Pressing means, in particular an electrode plate, back pressure is generated and a direct passage of current through the sintered powder spill and generates the sliding bearing component from one to the other electrode becomes.

According to one Development of the inventive concept is the bearing layer made at least two layers, wherein on the sliding bearing component an adhesive layer is applied that does not contain graphite, and on this adhesive layer, the sliding layer is applied, the Contains graphite as a solid lubricant.

The plain bearing component according to the invention and the method according to the invention for applying a bearing layer to the sliding bearing component can be used in all mechanical apparatuses and machines in which it is important that apparatus or machine components are arranged so as to be displaceable relative to one another via sliding surfaces. As an example, here running surfaces and cylinder bores of reciprocating engines or reciprocating pumps to call. Sliding bearing components according to the invention are particularly advantageously used in a hydrostatic displacement machine, in particular an axial piston machine, as slide bearing shells and / or as sliding shoes and / or as sockets and / or as pistons and / or as control mirrors and / or as cylinder drums. Structure and function of said sliding bearing components of an axial piston machine are for example in the DE 198 55 899 A1 , Column 4, line 53, to column 5, line 21 described. So z. B. with the solution according to the invention a sliding bearing shell for supporting a trained example as a swash plate pivot cradle be provided. In addition, a sliding shoe can be produced, by means of which a piston is supported on a sliding surface. In addition, a spherical cap between a piston and the shoe in the manner according to the invention can be coated. A bush for mounting the piston in a piston bore of a cylinder drum can also be coated according to the invention. Moreover, the invention is suitable for coating the control surface of a housing rotatably mounted on the control mirror, against which the rotating cylinder drum, or for coating the voltage applied to the control mirror end face of the cylinder drum.

With The invention achieves a number of advantages: It becomes a Possibility created, a sliding bearing component cost and environmentally friendly with a bearing layer to provide the good Sliding properties and high resilience offers. It can the Bearing layer made with previously customary machines become. It is only the powder composition and certain Adjust manufacturing parameters. In addition, the composition is based the storage layer on relatively inexpensive raw materials. The optional two-layer construction allows the load capacity of the sliding bearing component to increase or the life to extend. In principle, this two-layer structure also applied to conventional lead-bronze bearing layers become.

Further Advantages and details of the invention will be apparent from the in the schematic figures illustrated embodiments explained in more detail. Show here

1 a schematic diagram of a pressure sintering for applying a bearing layer on a sliding bearing component and

2 a representation of a two-layer structure of a bearing layer.

At the in 1 illustrated pressure sintering with direct passage of current is a sintered powder spill 1 on a steel body of a sliding bearing component 2 applied. As sliding bearing component 2 For example, a sliding bearing shell, a sliding block, a bushing, a piston, a control disk or a cylinder drum of a hydrostatic displacement machine, in particular an axial piston machine can be used. In this case, the sintering powder in the present embodiment has the following composition: The tin content is 9 to 11 weight percent and the graphite content 0.8 to 1.8 weight percent. The rest is made of copper. From the side facing away from the steel body of the sinter powder dividend 1 becomes an electrode plate 3 on the Sinterpulfleüttung 1 pressed. From the opposite side presses an electrode plate 4 against the steel body. The electrode plates 3 and 4 stand over power lines 5 and 6 with an electric power supply not shown in connection. In the sintering process, the electrode plates 3 and 4 with a predetermined pressure on the sintered powder spill 1 or pressed the steel body and it is at the same time electrical current from the electrode plate 3 to the electrode plate 4 through the sintered powder spill 1 and passed through the steel body.

In order to increase the mechanical strength of the graphite-bronze-steel composite, according to the in 2 illustrated embodiment, the bronze produced two layers. This two-layer construction consists of a lower steel body of the sliding bearing component 2 facing Sinterpullobüttung 1b without solid lubricant additives and an overlying sintered powder spill 1a , Through the lower sintered powder spill 1b In this area the load capacity and the adhesion are increased. The upper sintered powder spill 1a contains graphite as a solid lubricant additive to the necessary extent. In this area, the required sliding properties are thereby fulfilled. This layer construction is produced by a two-layered sintered powder spill, which is in one pass, as in 1 shown, is sintered.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 19855899 A1 [0018]

Claims (9)

Sliding bearing component with an applied bearing layer, characterized in that the bearing layer comprises at least one sliding layer comprising a graphite-bronze material. Sliding bearing component according to claim 1, characterized in that that the sliding layer with a tin-copper base material with it Having embedded graphite inclusions. Sliding bearing component according to claim 1 or 2, characterized characterized in that the sliding layer has a content of tin of about 8 to about 12 weight percent, a proportion of graphite of about 0.5 to about 2 weight percent and a residual amount of copper. Sliding bearing component according to one of the claims 1 to 3, characterized in that the bearing layer of at least two layers, wherein one of the sliding bearing component facing Layer is formed as an adhesive layer that does not contain graphite, while a layer facing away from the sliding bearing component as Sliding layer is formed containing graphite as a solid lubricant. Sliding bearing component according to one of the claims 1 to 4, characterized in that the bearing layer by means of Pressure sintering applied layer is. Use of a sliding bearing component according to one of Claims 1 to 5 in a hydrostatic displacement machine, in particular an axial piston machine, as plain bearing shell and / or as a shoe and / or as a socket and / or as a piston and / or as a control mirror and / or as a cylinder drum. Method for applying a bearing layer to a Sliding bearing component, characterized in that a bearing layer is applied, which comprises at least one sliding layer, the a graphite-bronze material. Method according to claim 7, characterized in that that the bearing layer applied by pressure sintering of a sintered powder with a sintered powder spill by means of a pressurized, an electrode having pressing means, in particular an electrode plate, is pressed on a front side of the sliding bearing component and of a second, on the back of the sliding bearing component arranged, also having an electrode, pressurized Pressing means, in particular an electrode plate, back pressure is generated and a direct passage of current through the sintered powder spill and generates the sliding bearing component from one to the other electrode becomes. Method according to claim 7 or 8, characterized that the bearing layer made of at least two layers is applied, wherein on the sliding bearing member an adhesive layer which contains no graphite, and on this adhesive layer the sliding layer is applied, the graphite as a solid lubricant contains.