DE2545922A1 - Bearing bush made from rolled strip - has butt fitted closed to ends and circular press fit into housing - Google Patents

Abstract

A bearing bush made from rolled strip has a slot width which before insertion into the housing, is the elastic spring back after rolling. Mild steel is narrowly gapped and subsequently carburised. After pressing and gap closure the bush grip is circumferentially uniform, with an accurate circular bore. Oil grooves are stamped before rolling. A flat rectangular blank is stamped, square on all edges. Longitudinal edges (7) are rounded. Oil grooves (11) meet the rounding at one edge (5), stopping short at the other edge. The square stamped ends (8), after rolling and insertion, butt together at the bore surface, with a toleranced fitting diameter.

Description

Bearing bush for rotary or swivel bearings

The invention relates to a slotted bearing bush for through in particular High bearing pressures stressed rotary or swivel bearings, which consist of a rolled flat strip section made of steel and can be fixed in a receiving bore of the bearing housing.

Bearing bushes of the above type are used, for example, for bearings, the high bearing pressures at low angular speeds of the bearing bushes penetrating shafts or axles are subject. Such bearings correspond including the bearing eyes of thrust piston devices.

The La bearing bushes that have become known so far in this context consist of slotted clamping bushes made of a high quality steel with resilient Properties. In the manufacture of the bearing bushes, flat strip sections are initially used separated from coils or strips or punched out of larger sheet metal plates and then rolled. Since the clamping bushes by resilient tension in the Bearing housings are to be set, they must compulsorily during the rolling process receive a non-circular cross-section that differs from the cross-section of the mounting holes. This cross-section should then be adjusted when it is inserted into the bearing housing Deform into a circular ring at the mounting holes. The one present after rolling The slot is then about a quarter wide after the clamping bushes have been installed up to half the thickness corresponds to the walls of the bearing bushing.

A disadvantage of the known clamping bushes is the relatively expensive starting material Spring steel. This has the peculiarity during rolling due to the high Temperatures in the outer edge areas, so that an additional post-treatment, i.e., carburizing is required. However, that is at a further cost tied together.

Another disadvantage arises when installing the slotted clamping bushes into the mounting holes, overcoming the elastic pretension reshaped from the out-of-round delivery condition to the circular installation condition will.

Overcoming the elastic preload leads under consideration the always spaced apart slot edges to the fact that the clamping bushes do not cling evenly to the mounting holes of the bearing housing. You are subject to thus basically an uncontrolled deformation, which inevitably also the running surfaces of the clamping bushes become out of round. Out of round, i.e. wavy running surfaces, but then require a relatively large amount of play between the clamping bushes and the shafts or axles to ensure proper insertion of the shafts or axles into the bearing bushes to be able to guarantee. Then take into account the high bearing pressures such rough fits with pronounced line loading lead to rapid wear the clamping bushes in predetermined running surface areas, so that the clamping bushes only have a short service life. It is true that the out-of-round running surfaces could be reworked improve, but this involves an additional processing step, which further reduces the profitability.

Furthermore, it is disadvantageous in the known clamping bushes that During installation, care must be taken to ensure that the slots come to rest in an area of the mounting holes with respect to the longitudinal axes the bearing bushes is diametrically opposite the area which has the highest bearing pressure is exposed. If these installation instructions are not observed, the shafts or Axes touching the lines at the edges of the slot. This causes both the waves or axles as well as the clamping bushes are subject to rapid wear.

The relatively wide slots also have the disadvantage that the introduced between the shafts or axles and the running surfaces of the bearing bushes Lubricant can easily escape again. This deficiency therefore requires either a constant replenishment of new lubricant or premature wear occurs because due to a lack of lubricant the parts sliding on each other eat up.

The state of the art also includes closed bearing bushings a material with structural steel quality, which solidifies with regard to the surface is. The disadvantage of these bushings is that their production is drawn or requires welded precision tubes as raw material, which then turn into a turning process must be subjected to. If lubrication grooves are required, these can only be made by grinding or milling inside the bearing bushing bores. The disadvantage of closed bearing bushes is therefore the high manufacturing cost due to several machining steps, which also reduces the cost price the bearing bushes is raised.

The invention is accordingly based on the object of a bearing bush for rotary or swivel bearings that are particularly stressed by high bearing pressures create, with a long service life, both from the starting material and from the Production is economical is to be manufactured.

According to the invention, the solution to this problem is characterized by such a design of the bearing bush, in which the slot width before installation the bearing bush in the mounting hole only due to the rolling process corresponds to the amount of natural springback that sets the material elasticity, while the outer diameter of the bearing bush when the edges of the slot abut to the extent necessary to fix them by a press fit greater than the inner diameter the mounting hole is dimensioned.

A key consideration in the design of the invention Bearing bush is the elimination of a deliberate elastic preload. The definition the bearing bush in the mounting hole of the bearing housing is not made by spring force, but by the dimensionally precisely specified fit tolerance with a press fit between the bearing bush and the mounting hole.

The slot edges of the bearing bushing abut one another.

The bearing bush thus has a largely circular cross-section. This must be done before installation, i.e. after rolling or

after the additional calibration, only as a result slightly out of round, that the slot edges differ from each other to an extent that is insignificant in practice separate. The dimension of the then existing slot width, however, only corresponds to itself after the rolling process due to the material elasticity adjusting degree of the natural Springback. There is no conscious elastic pretension. The slot width is therefore minimal. Their magnitude depends on the elasticity of the starting material away. However, this inherent elasticity of the material still supports it after installation the bearing bush its bracing in the mounting hole of the bearing housing.

A significant advantage of the bearing bush according to the invention is that its inherent peculiarity of a closed bearing bush, which is during installation clings evenly to the mounting hole of the bearing housing over the entire circumference. Because of this, the tolerances of the bearing bush can also be tightly limited. The opening of the bearing bush then has a round cross-section high dimensional accuracy, which inevitably means the fit between the shaft or axis and the tread can also be kept tight. A tight and precise fit reduces the wear of the bearing bush to a considerable extent, whereby at the same time their service life is significantly increased.

Another advantage is that the starting material can be cheaper simple steel. It is also economical to manufacture possible through punching and subsequent rolling or additional calibration. Herewith is then associated with the advantage that lubrication grooves directly when punching out the ribbon section can be molded from a larger sheet metal plate. Due to the fact, that the edges of the slot butt against each other after the installation of the bearing bush, is the The running surface of the bearing bush is practically closed on the circumference. This is not necessary the compulsion to carefully check the position of the slot when installing the bearing bush Pay attention to the direction of the bearing load. The slot therefore needs no longer necessarily to be placed in the area referred to in relation to the The longitudinal axis of the bearing bush is diametrically opposite the area of the highest bearing pressure. Any installation position is possible. It can even be in the area of the highest bearing pressure are located. Effects on premature increased wear are not to be feared.

When punching out the flat strip section, after the rolling process taking into account the natural springback of the material to each other butting edges of the slot should be beveled so that they are after installation of the bearing bush lie flat against each other in the mounting hole. A preferred embodiment of the invention, however, is that only the running surface of the bearing bush adjacent slot edge areas abut one another. This allows the punching tool can be designed very simply, since the slot edges are perpendicular to the longitudinal extension of the ribbon section are produced.

An advantageous further development feature of the bearing bush according to the invention is characterized by the fact that the starting material is of structural steel quality. This Material is inexpensive. After punching out a section of ribbon and rolling of the ribbon section to a bearing bush, which is attached to very tight tolerances can still connect an additional calibration, the starting material is regarding its surface is subjected to a simplified hardening process such as carbonitriding. The surface is enriched with carbon and nitrogen simultaneous hardening.

The simple starting material then also has that for a longer one Service life necessary wear resistance. As a starting material, for example Must be used 2.

Furthermore, it is advantageous in the context of the bearing bush according to the invention, that it is manufactured without cutting. The non-cutting deformation is compared to the cutting Deformation, e.g.

to produce a closed bearing bush must, much easier and more economical. Because the bearing bush is a mass-produced item forms, this feature is given particular weight in the context of the invention.

Finally, it is advantageous according to the invention that only Lubricating grooves opening into a socket face in the Course of the chipless Manufacture are molded into the running surface of the bearing bush. The oil grooves can now be carried out so that the lubricant in the grooves or in the space between the shaft or axle and the running surface remains. It's not a slot present through which the lubricant can escape again. This results in a significantly lower consumption of lubricant. There will also be premature eating avoided by lack of lubricant. The oil grooves can be known Figuration during punching out by pressing or pushing into the tread the bearing bush are molded. For example, is a cross-shaped figuration conceivable in which the grooves at an angle of 450 to the longitudinal sides of the flat strip section are provided.

The invention is illustrated below with reference to one in the drawing Embodiment explained in more detail. They show: FIG. 1 in a view or in a vertical view Cross section of a bearing eye of a thrust piston device; Fig. 2 the bearing eye of the Fig. 1 in vertical longitudinal section and in side view; Fig. 3 in plan view a flat strip section as a starting workpiece for a slotted bearing bush; 4 shows the finished rolled bearing bush in an end view and FIG. 5 shows a vertical one Longitudinal section through the bearing bush along the line V-V in FIG. 4.

As can be seen in FIGS. 1 and 2, the annular bearing eye has 1 of a thrust piston device, otherwise not shown, has a receiving bore 2, in which a slotted bearing bush 3 is fixed by a press fit. The bearing bush serves to accommodate a shaft or axis 4, which rotary or pivoting movements can perform.

In Fig. 3, a right-angled flat strip section 5 is shown, which is made by punching from a larger sheet metal plate. The ribbon section forms the starting workpiece for the bearing bush 3. The width a of the ribbon section corresponds to the length of the mounting hole 2 in the bearing eye 1.

The longitudinal sides 6 are slightly rounded in the area of their edges 7 or beveled. The length b is dimensioned so that after the rolling of the ribbon section to the bearing bush 3 shown in front view in FIG. 4 when then against each other abutting slot edges 8 and circular cross-section of the outer diameter c of the bearing bush 3 corresponds to the dimension that, together with dimension d, is the Diameter of the receiving hole 2, which determines the tolerance of a press fit.

The fact that the slot edges of the flat strip section 5 according to FIG. 3 are made perpendicular to the longitudinal extension b during punching, results after rolling the bearing bush 3, a V-shaped cross-sectional configuration of the bearing bush slot 9, only the areas of the slot edges 8 butting against one another, the are immediately adjacent to the running surface 10 of the socket 3.

When punching out the flat strip section 5 according to FIG. 3, they are cruciform Lubricating grooves 11 molded directly into the surface. The oil grooves only go from a longitudinal side 6 of the flat strip section 5 or from an end face 12 of the rolled bearing bush or open into these sides. With her At the other length they end at a distance from the opposite long side 6 of the ribbon section or the end face 12 of the bearing bush. The oil grooves 11 are formed at an angle of 450 to the longitudinal sides 6, for example pressed in.

Claims (5)

Claims: 1. Slotted bearing bush for through in particular High bearing pressures stressed rotary or swivel bearings, which consist of a rolled flat strip section is made of steel and can be fixed in a mounting hole in the bearing housing, g e k e n n n z e i c h -n e t by such a design of the bearing bush (3) which is the slot width before installing the bearing bush (3) in the mounting hole (2) only that which occurs after the rolling process due to the elasticity of the material Degree of natural springback, while the outer diameter (c) corresponds to the Bearing bush (3) when the edges of the slot (8) abut one another in order to fix them Due to a press fit, the required dimension is greater than the inner diameter (d) of the mounting hole (2) is sized. 2. Bearing bush according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that only those adjacent to the running surface (10) of the bearing bush (3) Slit edge areas (8) butt against one another. 3. Bearing bush according to claim 1 or 2, d a d u r c h g e k e n n shows that the starting material is of structural steel quality. 4. Bearing bush according to claim 1 or one of the following, d a d u it is noted that it is manufactured without cutting. 5. Bearing bush according to claim 4, d a d u r c h g e -k e n n- z e i c h n e t that only in one bushing face (12) opening lubrication grooves (11) molded into the running surface (10) of the bearing bush (3) in the course of non-cutting production are.