DE8032901U1 - Self-aligning plain bearings - Google Patents

Description

The innovation concerns a pendulum slide bearing with a pendulum stored running part.

Self-aligning bearings are already known in which the bearing is a ball bearing or roller bearing is formed. These bearings have proven themselves in a number of areas of application. Due to the design however, they are relatively complex and also large in size. In some areas of application, this effort is not necessary, because this effort exceeds the existing demands on construction and costs. The other well-known plain bearings based on dry material, which are inexpensive and also have small installation dimensions, cannot be used as self-aligning bearings,

The task of the innovation is therefore a plain bearing designed as a self-aligning bearing, which is simple in its structure and its dimensions is made small.

This object is achieved by the innovation in that the running part as a bushing with a running surface made of composite material low coefficient of friction is formed in a spherical socket is mounted, the outside having a tread made of composite material with a low coefficient of friction and in a spherical counter shell of a bearing housing is pivotably arranged.

The advantages that can be achieved with the innovation are particularly important in that the self-aligning plain bearing represents a universal bearing that is on all running surfaces with a composite material with low Coefficient of friction is coated. As a composite material in particular the one under the registered trademark "DU" known material used. The self-aligning plain bearing can therefore largely be produced from sheet metal parts, thereby making the production simple and also the dimensions can be kept small.

Due to the composite material used on the running surfaces, the self-aligning plain bearing is largely independent of environmental influences and maintenance. The self-aligning plain bearing according to the innovation is therefore not only inexpensive, but also for many applications suitable.

The subclaims contain further refinements of the self-aligning plain bearing described.

Embodiments of the innovation are shown in the drawing and are described in more detail below. They show: FIG. 1 a cross section through the self-aligning slide bearing according to FIG. Line I - I in Figure 2;

Fig. 2 shows the front view of the self-aligning slide bearing according to Fig. 1; 3 shows the plan view of the self-aligning slide bearing according to FIGS. 1 and 2; 4 shows a cross section through another embodiment of the self-aligning slide bearing according to line IV - IV in Fig. 5 »

Fig. 5 shows the front view of the self-aligning slide bearing according to Fig. ^ J Fig. 6 shows the top view of the self-aligning sliding bearing according to Figs. K and 5

The self-aligning slide bearing according to FIGS. 1 to 3 has a double collar bushing as the running part 1, which has a running surface 1 on the inside for the shaft to be supported. The running surface 1 'is coated with a composite material with a low coefficient of friction, in particular with the material known under the registered trademark "DU" Coefficient of friction carries. The spherical bushing 2 can be composed of two symmetrical half-shells as a spherical shell, which are designed as pressed sheet metal parts and are held together by the two collars of the running part 1, as shown. On the outside, the ball bushing 2 is pivotably mounted in a counter shell 3 which is part of a Lsgergehäuses ^. The latter consists of two pressed sheet metal parts V and V> in each of which a partial shell 3 ¹ and 3 "is molded on the inside. Both partial shells 3 'and 3" together form the structure

- 6 -

[| genschale 3 · The two pressed parts V and 4 "are each through

fts a rivet nut 5 arranged on both sides of the running part 1

with the help of which the self-aligning plain bearing can also be screwed to a wall as a flange bearing. One of the pressed sheet metal parts if ¹ and 4 "» eg the pressed sheet metal part Zf ¹ can be equipped at the bottom with an angled foot part 6 so that the pendulum slide bearing can serve as a foot bearing and can be screwed onto a surface through the fastening holes 7 provided in the foot part 6.

In another embodiment according to Figures k to 6, the spherical bushing 2 is designed as a body made of sintered iron or steel ball, into which the barrel part 1, manufactured as a simple collar bushing or a collarless bushing, is pressed. The counter shell 3 is arranged in the bearing housing if so that the barrel part 1 or the ball bushing 2 does not protrude ^{beyond the pressed sheet metal part if 1 on the back.} This creates a smooth surface on the back, with which the self-aligning plain bearing can be screwed directly onto an equally smooth surface. The fixing holes 7 in the base part 6 are further seen from above (Fig. 8), located centrally between the counter-shell 3 and the rivet nut 5, to enable \ around the boring out from above. For stiffening between pressed sheet metal part V and foot part ζ. are also provided on the outside next to the mounting holes 7 beads 8.

Of course, the pressed sheet metal parts V and if "can also be welded be connected to each other. Furthermore, the rivet nuts 5 can also be replaced by a simple bore. Finally the self-aligning slide bearing can also be designed exclusively as a foot bearing.

Claims (9)

Protection claims 1. Pendulum plain bearing with a pendulum bearing running part, characterized in that the running part (1) is designed as a bushing with a running surface made of composite material with a low coefficient of friction, which is mounted in a spherical bushing (2) which has a running surface (2 ^{1) on the outside} ) made of composite material with a low coefficient of friction and is pivotably arranged in a spherical counter-shell (3) of a bearing housing (4). 2. Self-aligning plain bearing according to claim 1, characterized in that the bearing housing (4) consists of two pressed sheet metal parts connected to one another (if ¹ , if "), into which the counter-shell (3) are molded as partial shells (3 ¹ , 3 "). 3 »Pendulum plain bearing according to claims 1 and 2, thereby marked that. the two pressed sheet metal ^{parts (Zf 1} , 4 ") of the bearing housing (4) are connected to one another by two rivet nuts (5) arranged on both sides of the counter-shell (3). 4. Pendulum plain bearing according to one of claims 1 to 3> characterized in that a pressed sheet metal part (4 ') of the bearing housing - ses (4) an angled foot part (6) with mounting holes (7). 5. Self-aligning plain bearing according to one of claims 1 to 4> characterized in that the ball socket (2) consists of two half-shells is composed. 6. Self-aligning plain bearing according to one of Claims 1 to 4 _5, characterized in that the ball bushing (2) is designed as a sintered iron or steel body. 7. Pendulum plain bearing according to one of claims 1 to 6, characterized characterized in that the ball bushing (2) with the running part (1) is arranged offset in the bearing housing (2f) that the back of the Blechpreßtexles (V) is not interrupted. 8. Pendulum plain bearing according to one of claims 1 to 7 »thereby characterized in that the fastening bores (7) in the foot part (6) are centered between the counter-shell (3) and the rivet nuts (5) are arranged. 9. Pendulum plain bearing according to one of claims 1 to δ, characterized characterized in that between the pressed sheet metal part (V) of the bearing housing (4) and the foot part (6) laterally outside next the fastening bores (7) beads (δ) are provided.