DE2617326C3 - Radial piston machine - Google Patents

Description

The invention relates to a radial piston machine with a ball joint connection between the two components, piston and sliding shoe, in which a ball is mounted in a ball socket on one component and in which a shirt surrounding the ball socket has an inwardly directed holding part for holding the ball in place. Steering linkages such ball joints ^h0 are at a radial piston machine required so that the slide shoe can be large flat against a cam track which is eccentric to the axis of rotation of Kolbcnträgers.

Radial piston machines are known! With such ^h "> ball-and-socket joints (DE-Gbm 73 44 954, DE-OS 07 953), in which the ball is firmly connected to the sliding shoe via a shaft. A ball socket is formed in the piston. It has approximately the shape of a hemisphere in a groove of the ball socket surrounding piston skirt is a spring ring, in particular a snap ring eingese'.zt which engages directly on the ball. such a bracket is sufficient, as a rule, since ^f at a radial piston engine via the ball and socket connection although larger Druckkrä te, but only lower tensile forces have to be transmitted.

In the known construction, both the ball socket on the piston and the ball itself on the Sliding shoe by turning, grinding or the like. Be shaped. Therefore, there are two superimposed Surfaces, their surface properties with regard to the exact spherical shape and roughness leaves something to be desired. In addition, the materials must be chosen so that they both work well permit. Overall, the service life is limited.

In the case of a ball joint connection for a refrigerant compressor, it is also known (DE-AS 1240 908) to weld a prefabricated steel ball to a connecting rod. The forces that occur during welding and heating, however, also have a negative influence on the service life.

The invention is based on the object of providing a ball joint connection of the type described at the outset Specify the type whose construction enables a longer service life.

This object is achieved in that the ball as an independent component and as prefabricated steel ball is executed and that the other component has a foot, the second on which Ball abutting Kugelpfannc and an inclined shoulder on which the holding part engages, and that there is a free space between the shirt and the foot.

With this construction a hardened Slandard steel ball, for example according to DIN 3505, as it is supplied, can be used. Such a steel ball has a spherical surface of the highest accuracy and a surface quality that can hardly be surpassed. Still is they are extremely cheap. By connecting two gel surfaces in series, namely the first ball socket and the steel ball as well as the steel ball and the second ball socket, it is achieved that where the Surfaces can be rcibcn on top of each other, in each case only one surface of lesser precision is available, so that the strived for longer service life results. The .steel ball is not od by a welding process. negatively influenced. The material for the ball socket can be chosen with reference to the steel ball so that this results in a Maierial pairing that is suitable for plain bearings.

Only relatively low tensile forces are transmitted via the connection between the Hältcil and the Sehräg Shoulder. At this connection is therefore not very demanding. It is recommended, however, if the Inclined shoulder by an annular section of a spherical surface with the same center as the second ball socket is formed.

If the shirt is formed on the piston, it is recommended that the second formed on the shoe Ball socket has a smaller depth than the first ball socket. In this way, an axially short construction, with the essential parts of the ball joint connection largely in the piston can be brought.

One possibility for the formation of the holding part is that the shirt in the area of

Inclined shoulder has an inwardly directed flange when the shirt has axial slots and is leathery, the foot can be introduced by spreading the shirt, whereupon iias shirt then resiliently returns to its rest position. Here it is advantageous if the foot is to the circumference Steel ball tapers conically because this makes it easier to insert.

Another possibility for the formation of the holding part is that shirt and holding part by one the inclined shoulder adapted crimped end portion of the piston are combined. This can be up lead to a flat support between the end section and the sloping shoulder.

It is recommended that the foot in the raw state has a concentric blind hole with a spherical Reason has and during assembly with deformation of the Sack'ochbohrrandes to beveled shoulder and second Ball socket on the steel ball in the ball elbow. Janne am Plunger is printed. One of the surfaces of the steel ball is obtained through the pressing process largely corresponding second ball socket and on the other hand a correspondingly shaped inclined shoulder. Since this process takes place during assembly, the tapered shoulder can get under the preformed one Slide the Halleleil so that the parts of the Kugelgclenkverbindungen are captive with each other.

The invention is explained in more detail below with reference to the exemplary embodiment shown in the drawing explained. It shows

Fig. 1 is a side view, partly in section, of a first embodiment of a ball joint connection between piston and slide shoe,

2 shows a longitudinal section through a second embodiment, F i g. 3 is a plan view of the piston of FIG. 2 and

4 shows four working steps a-dy. For the production of a third embodiment.

The construction according to FIG. 1 has a piston 1 and a sliding shoe 2. The piston is guided in a * o unillustrated cylinder block. The sliding shoe rests on a circular guide track (not shown). A prefabricated hardened steel ball 3 is arranged in a first ball socket 4 in the piston J. This first ball socket has the shape of a hemisphere. The sliding shoe 2 has a foot 5, which has a cylindrical outer circumference with a diameter approximately corresponding to the ball diameter and has a / wide Kugclpfannc 6, which however has a smaller depth than the first Kugclpfanne 4. The foot is closed at the top by a shoulder 7 , which is formed by an annular section of a spherical surface with the same center as the second ball socket. While the steel ball and the ball socket have a radius η, the tapered shoulder has the radius r>.

The first ball socket 4 is surrounded by a shirt 8 that is at a distance from the ball 3 Has inner groove 9 into which a spring ring 10 is inserted. This spring ring lies on the tapered shoulder 7 at.

During assembly, this spring ring 10 is first pushed onto the slide shoe. Then will Steel ball 3 and sliding shoe 2 put in place. The spring ring 10 is now inserted into the groove 9 locked. This completes the assembly.

In the embodiment according to FIG. 2 and 3, the same reference numbers as in FIG. 1 are used for corresponding parts. In this construction, an inwardly directed flange 12 on the cylindrical shirt 8 serves as the holding part resting on the inclined shoulder 7. The shirt 8 and the inner flange 12 are provided with four axial slots 13 and are so thin that there is a spring effect. The foot 5 has a circumferential surface 14 which tapers conically towards the steel ball 3. For assembly , only the steel ball 3 needs to be placed in the first ball socket 4 and the slide shoe 2 pressed into place from above. Here, the sections of the shirt 8 give way to the outside and snap back into the illustrated rest position.

In this embodiment, the shirt 8 can also be rigid and with a slightly larger diameter than the diameter of the foot 5 are formed. In this case, the shirt must be assembled of parts 1, 2 and 3 are pressed inward by radial forces. The axial slots 13 also omitted.

In Fig. 4, a piston 1 with a ball socket 4 is illustrated in image a, which has a shirt 15 with a cylindrical inner surface 16 and a conical outer surface 17. In picture i> it is illustrated that a pressure tool 18 with a partially spherical shaped surface 19 deforms the shirt 15 in such a way that at least the end section 20 of this shirt 15 is inclined and can act as a Halleleil. In the picture, the steel ball 3 is inserted into the ball socket 4. In the case of the sliding shoe 2, the foot 5 has a blind hole edge 21 of constant thickness, which adjoins a partial spherical surface 22. Its outer diameter is smaller than the inner diameter of the end section 20. In the picture c / it is shown that a tool 23 is pressed so strongly on the slide shoe 2 that the end wall along the steel ball 3 pushes outwards under the end section 20, while the inside Assumes the shape of the steel ball 3, so that overall the / wide ball socket 6 results and at the same time forms an inclined shoulder 7 on the outside, which has the shape of a spherical segment.

Such a ball joint connection is lubricated in the usual way, for example by ': inen the Piston penetrating oil channel. The Hallcteil can also be put in place after assembly be pressed.

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Radial piston machine with a ball joint connection between the two components piston and sliding shoe, in which a ball is mounted in a ball socket on the one component and in which a shirt surrounding the ball socket has an inwardly directed holding part for holding the ball, characterized in that the Ball is designed as an independent component and as a prefabricated steel ball (3) and that the other component (2) has a foot (5) which has a second ball socket (6) resting on the ball and an inclined shoulder (7) on which the> ⁵ holding part engages, and that a free space (1 ί) is provided between the foot. 2. Radial piston machine according to claim 1, characterized in that the tapered shoulder (7) by an annular section of a spherical surface with the same center as the second Ball socket (6) is formed 3. Radial piston machine according to claim 1 or 2, wherein the shirt is formed on the piston, characterized in that the second ball socket (6) formed on the slide shoe (2) has a smaller one Has depth than the ball socket (4) on the piston (1). 4. Radial piston machine according to one of claims 1 to 3, characterized in that the shirt in the area of the tapered shoulder (7) an inward -W has directed flange (12). 5. Radial piston machine according to claim 4, characterized in that the shirt Axialschlitzc (13) and is resilient. 6. Radial piston machine according to claim 5, da- ^ characterized in that the foot (5) on The circumference of the ball (3) tapers conically. 7. Radial piston machine according to one of claims 1 to 3, characterized in that shirt and Holding part by one of the inclined shutters (7) * ·> adapted crimped end portion (20) of the piston (1) are combined. 8. Radial piston machine according to claim 7, characterized in that the foot (5) in the raw state has a concentric blind hole with a spherical bottom and when mounted under Deformation of the blind hole edge (21) to beveled shoulder (7) and second ball socket (6) the steel ball (3) in the ball socket (4) is pressed against the piston (1).