DE4309304A1 - Sliding bearing with low friction coefft. - has a PTFE ring inserted into the bearing body through a drawing die - Google Patents

Abstract

For the prodn. of a sliding bearing, with an inert of a low friction coefft., the hearing body (1) is made pref. of steel, with cylindrical passage (2) through it to hold a push rod. A ring (4) of fluorised synthetic resin, especially PTFE, is produced with an outer radial cross section to give dimensions slightly larger than the passage (2) in the body (1). A drawing die (5) is attached to the body (1) with a tapering opening (6) into the passage (2), where the lower dimensions match the passage size, so that the entry size is larger than the ring (4). Through an axial translatory movement, the ring (4) is pressed into the bearing body (1) through the drawing die. USE/ADVANTAGE - The sliding bearing is for applications such as vehicle shock absorbers. The structure has a low inner friction coefft. and can absorb strong radial forces. It is easily made in a cost-effective process.

Description

The invention relates to a method for producing a sliding bearing an inner insert with a low coefficient of friction, which the recording me considerable radial forces allowed, according to the preamble of the An saying 1.

To ensure linear guides with low friction, for example to guide the shock absorber rods of motor vehicles, Schiebela ger used that can absorb significant radial forces.

Such bearings are generally formed by a metallic part Steel or treated iron through a cylindrical passage will run, which is essentially circular and in which a zy Lindric part with slightly smaller dimensions slides.

To limit the friction between this part and the bearing, this will be Bearings with a metallic ring with low friction, for example solid bronze, porous bronze or a composite material made of metal and polytetrafluoroethylene.

These solutions have the disadvantage that they are expensive in that egg on the other hand, the rings inside the bearings are made of an expensive material represents and / or on the other hand the manufacture of the bearing that the ring records, must have a very high accuracy.

A sliding bearing device is also known, which has a metallic Bearing and an axis includes, with a band of molded, fluori Resined resin is covered, which also reduces friction between the axle and the bearing as well as a seal between even creates fluids that are on one side and the other of the bearing can be located and the different pressures are exposed.

However, such a device is not suitable for the production of Sliding axles of great length, which are used to seal and achieve a small against friction along the entire displacement path of the axis, a band made of fluori Resined resin require that he over the entire length of the axis stretches.  

The invention is directed to the creation of a sliding bearing with egg nem inner insert that has a low coefficient of friction has and allows the support of considerable radial loads, as well as on simple and economical manufacture of the bearing.

The invention has a method for producing a sliding bearing for Ge subject that has an inner insert that has a low coefficient of friction possesses and is able to absorb considerable radial forces. The method is characterized in that a bearing body, in particular re is made of steel, which has an inner cylindrical passage for Inclusion of a push rod that has a ring made of fluorinated art Resin is made, especially polytetrafluoroethylene, which has an outer has radial cross-section, the dimensions of which are somewhat larger than those conditions of the passage of the bearing body are that on the bearing body Drawing die is arranged by a frustoconical opening is passed through an outlet on the passage side of the bearing has body, which has its dimensions, and an opposite Inlet with larger dimensions than the outer dimensions of the Ring, and that by an axial translational movement of the ring in the La body is inserted through the drawing die.

The ring is thus subjected to radial compression Fixing its position inside the bearing body during the end valid use of the sliding bearing contributes.

The sliding bearing according to the invention can be rods or axes of great length such as shock absorber rods from vehicles.

The ring made of polytetrafluoroethylene, which is inserted into the bearing and a Sliding element with a low coefficient of friction can under certain circumstances Form sealing element between fluids on both sides of the bearing.

According to one embodiment of the invention, grooves are made on the inside ren of the bearing body to improve the fixing of the ring in its Position provided.  

According to another embodiment of the invention, the outer Surface of the ring made of fluorinated synthetic resin of a chemical treatment lung, which reduces its anti-adhesive properties before the ring is inserted into the bearing body.

For example, the ring can be mixed on this surface Ammonia and sodium are attacked.

According to a preferred embodiment of the invention Set the ring inside the bearing body a bead on the bearing body by plastic deformation near one edge of the ring produced.

The bead serves to form an inner rib which is a stop surface for represents the ring that counteracts its retraction movement.

According to a preferred modification of this embodiment the edge of the ring adjacent to the bead by placing a disc supported on the ring. This ensures the plastic deformation of the bearing the disk against the ring.

According to a special embodiment of the invention, by Machining the inner dimensions of the ring after insertion in the Bearing body the inner cross section of the ring to the dimensions of the outer Outer cross section of an axis or a rod that shifts in the bearing ben should be adjusted.

The invention also relates to a sliding bearing with an inner one Set that has a low coefficient of friction and considerable radial Can resist forces, which camp according to the Ver driving is made.

According to the invention, the ring can be formed from fluorinated synthetic resin by pure polytetrafluoroethylene or this in connection with additives such as graphite, carbon, glass, bronze, MoS ₂ or other additives.

For a better understanding of the invention, exemplary embodiments are now to be described play games without limitation with reference to the attached Drawing will be explained in more detail.

Fig. 1 shows an inventive step;

Fig. 2 shows a sliding bearing according to the invention;

FIG. 3 shows a modification of the bearing of FIG. 2.

In Fig. 1, a bearing body 1 is shown, which is formed from a metallic part made of steel, which has a cylindrical passage 2 with a circular cross section.

The inside of the bearing body 1 comprises a shoulder 3 , which is provided to form a stop surface of a ring 4 made of polytetrafluoroethylene, which is shown in FIG. 1 in the position before being inserted into the bearing body 1 .

According to the invention, a drawing die 5 is provided on the bearing body 1 , which is also made of steel and is traversed inside by a frustoconical opening 6 .

This opening opens at one end 7 via an outlet which faces the passage 2 of the bearing body and has the same dimensions as this, and via an inlet 8 opposite the outlet 7 , which inlet has dimensions somewhat larger than the ring 4 made of polytetrafluoroethylene .

A recess 9 on the underside of the die 5 ensures its Zen tration on the bearing body 1 .

Fig. 1 shows the rest of a pressure piece 10 , which partially engages in the ring 4 and has a shoulder 11 which exerts an axial pressure force on the ring 4 , which is represented by the arrow 12 .

In this figure it is seen that the force on the ring 4 on the pressure piece 10 applied causes an axial translation movement of the ring 4 and its insertion into the interior of the bearing body. 1

The function of the drawing die 5 can be seen directly from this figure. Your frustoconical opening 6 allows the exertion of a radial compression force on the ring 4 for its insertion into the passage 2 of the La gerkörpers 1st

The ring 4 is fully inserted into the bearing body 1 when its lower edge 13 strikes the shoulder 3 of the passage 2 .

The ring 4 , which has been inserted in this way, remains subjected to a considerable radial compression force which opposes a backward movement of the ring.

To prevent the ring from escaping from its seat during use, a bead 15 is placed on the upper edge 14 of the bearing body 1 , as shown in FIGS. 2 and 3.

The bead 15 is formed by plastic deformation of the upper edge 15 of the bearing body 1 and forms an annular rib on the inside, which lies against the ring 4 during use of the plain bearing.

This rib 16 should have a sufficient thickness to retain the ring 4 , but should not exceed the thickness of the wall of the ring so that any contact with the slide rod is avoided.

The embodiment of FIG. 3 is identical to that shown in FIG. 2, with the exception that an annular disc 17 is provided, for the Starting of the edge support of the ring 4 is used, and improves the definition in its seat.

It can be seen in Fig. 3 that the ring is held in its position between the two stop surfaces which are formed by the shoulder 3 and the disc 17 .

Thus, the ring can also be axially symmetrical, based on its forces Middle level, hold up.  

It can be seen that the method of manufacture which has been described is not to be understood as a limitation, and that all desired modification lungs are possible without leaving the scope of the invention.

In particular, the passage 2 , the ring 4 and the drawing die 5 , which have been described, have substantially rotary cylindrical shapes, but it is clear that the bearing according to the invention also include cylindrical sliding rods with a different cross section, for example a polygonal cross section.

Claims (7)

1. A method for producing a sliding bearing, which has an insert with a low coefficient of friction inside and is suitable for receiving erhebli cher radial forces, characterized in that a bearing body is made by ( 1 ), in particular made of steel, which has a cylin inside has drischen passage ( 2 ), which is suitable for receiving a push rod that a ring ( 4 ) made of fluorinated synthetic resin, in particular poly trafluoroethylene, which has an outer radial cross section, the dimensions of which are slightly larger than those of the passage ( 2 ) of the bearing body ( 1 ) that a drawing die ( 5 ) is arranged on the bearing body ( 1 ), which is traversed by a frustoconical opening ( 6 ) which has an outlet with respect to the passage ( 2 ) of the bearing body ( 1 ) bil det, whose dimensions match those of the passage, and an opposite inlet with larger dimensions a ls the radial outer cross section of the ring ( 4 ), and that by an axial Translationbe movement of the ring ( 4 ) in the bearing body ( 1 ) through the drawing die ( 5 ) is inserted through. 2. The method according to claim 1, characterized in that grooves are formed in the interior of the bearing body ( 1 ) for better fixing of the ring ( 4 ). 3. The method according to any one of claims 1 and 2, characterized in that before the insertion of the ring ( 4 ) in the bearing body ( 1 ) whose outer surface is subjected to a chemical treatment to reduce the anti-adhesion forces of the ring, such as a chemical Action or change. 4. The method according to any one of claims 1 to 3, characterized in that the ring ( 4 ) inside the bearing body ( 1 ) by a bead ( 15 ) on the bearing body by plastic deformation of the wall of the bearing body near the edge of the ring ( 4 ) is set. 5. The method according to claim 4, characterized in that before the plastic deformation of the bearing body ( 1 ) a disc ( 17 ) is placed on the edge of the ring ( 4 ), and that the plastic deformation of the bearing body ( 1 ) stops the Ensure disc ( 17 ) against the ring ( 4 ). 6. The method according to any one of the preceding claims, characterized in that after the insertion of the ring ( 4 ) in the bearing body ( 1 ) the ring is processed to adapt to the dimensions of the outer cross section of the push rod which slides in the bearing. 7. Sliding bearing with an inner insert, the considerable radial force withstands ten, characterized in that the bearing according to the method is produced according to one of claims 1 to 6.