EP2547922A1 - Axial rolling contact bearing, in particular axial deep groove ball bearing acting on one side - Google Patents

Abstract

The invention relates to an axial rolling contact bearing (1) which is designed as an axial deep groove ball bearing acting on one side and which has a first circular-ring-shaped bearing disc (2) and a second circular-ring-shaped bearing disc (4) which is arranged at a distance from the former on a common centre axis (3), wherein the inner disc surfaces (6, 7) of the bearing discs (2, 4) are formed with mutually facing, groove-shaped raceways (10, 11), in which a multiplicity of rolling bodies (14), which are arranged in at least one row and are held at uniform distances from one another by at least one bearing cage (13), roll. According to the invention, the outer disc surfaces (5, 8) of the two bearing discs (2, 4) are formed with further groove-shaped raceways (9, 12) which are identical in position, diameter and groove depth to the raceways (10, 11) on the inner disc surfaces (6, 7) of said bearing discs and by means of which the bearing discs (2, 4) can be fitted, irrespective of a certain allocation during installation, at a designated bearing point either as a first or second bearing disc (2 or 4) and, in every possible fitting position with respect to each other, have the necessary number of mutually facing raceways (10, 11) for the rolling bodies (14).

Description

 Name of the invention

Axial rolling bearing, in particular axial thrust ball bearing acting on one side Description

Field of the invention

The invention relates to an axial roller bearing according to the preamble of forming features of claim 1, and it is particularly advantageous for one-sided wir-kenden axial deep groove ball bearings applicable, as used for example for storing the rotor shaft in compressors for household refrigerators. Background of the invention

As a compressor for household refrigerators especially small one-cylinder reciprocating compressors are used, in which a gaseous cooling medium is sucked and compressed. Such reciprocating compressors consist essentially of a hermetically sealed housing in which a cylinder block is resiliently mounted, which receives the stator of an electric motor consisting of a coil package. The arranged inside the stator and formed with permanent magnets rotor of the electric motor is mounted on a centric rotor shaft which is guided through the cylinder block and at its end a wave washer having an eccentrically mounted crank pin. On this crank pin, the connecting rod eye of a connecting rod is placed, which is connected to a piston disposed in a compressor unit reciprocating, so that the rotational movement of the rotor shaft is converted into a translational movement of the reciprocating piston. The compressor unit is arranged on the cylinder block and has a hollow cylinder connected to a suction line and a pressure line in which the reciprocating piston reciprocates to alternately increase and decrease a pressure chamber located in front of the reciprocating piston. In order to reduce the resulting from the weight of the rotor and the rotor shaft friction between the wave washer and the cylinder block to a lowest possible level is seen in reciprocating compressors newer generations between see the wave washer of the rotor shaft and the cylinder block beyond an additional axial deep groove ball bearings. Such an axial grooved ball bearing is known, for example, from DE 20 2006 016 321 U1 or US Pat. No. 7,168,859 B2 and has a first cylinder-head-side annular bearing disk, to which a second disk-side annular bearing disk is arranged at a distance from a common center axis. The bearing discs are formed on their inside disc surfaces with mutually facing groove-shaped raceways in which a plurality arranged in a row and by a bearing cage at regular intervals to each other rolling elements roll. This Axial- Rillenkugella-ger is due to the design of the assembly of the reciprocating compressor in the unassembled state, ie separated in pulleys and in the bearing cage pre-assembled ball set, and is completed only during assembly of the reciprocating compressor. In practice, however, it has been found that during installation of the reciprocating compressor during installation of the individual parts of the thrust ball bearing occasionally unintentional incorrect assembly of the bearing discs comes in which at least one of the two bearing discs upside down, so rotated by 180 °, was installed , As a result, the ball set was not guided on one side during operation of the reciprocating piston compressor in the raceway provided for the bearing balls, but ran on the flat disc surface of the bearing disc without a raceway. Instead of intended with the raceways oscillation bearing balls thus had to a bearing disc only a permanent point contact with an increased Hertzian pressure, which resulted in increased wear of the bearing balls and the respective bearing disc and the failure of the thrust ball bearing and the entire reciprocating compressor led. Object of the invention

Based on the stated disadvantages of the known prior art, the invention is therefore the object of an axial roller bearing, in particular unidirectional axial deep groove ball bearings to design, with the unintentional incorrect assembly of the bearing discs in the assembly of the items of the axial deep groove ball bearing Safety are avoidable.

Description of the invention

According to the invention, this object is achieved in an axial roller bearing according to the O-berbegriff of claim 1 such that both bearing discs are formed on their outside disc surfaces with other, to the raceways on their inside disc surfaces in position, diameter and groove depth identi-see groove-shaped raceways which the bearing disks can be mounted independently of a specific installation assignment either as a first or as a second bearing disc at an intended bearing point and in each possible mounting position to each other the necessary number of mutually facing raceways for the rolling elements aufwei- sen.

The invention is not based on the obvious obvious knowledge that it is possible by arranging further, for the actual bearing function in itself meaningless care on the backs of the bearing discs in a simple and cost-effective manner, unintentional incorrect assembly of the bearing discs during assembly to exclude the individual parts of the axial deep groove ball bearing with certainty. Since the additional raceways on the rear sides of the bearing disks are identical to those on the inner sides of the bearing disks, it is completely irrelevant for correct bearing mounting whether the bearing disks are provided as the first or second bearing disk and in which of the two possible positions they are mounted , In any possible mounting position, the bearing discs with certainty the necessary number of mutually facing raceways for Have rolling elements, so that premature wear of the bearing balls and the bearing discs and a resulting failure of erfindungsge- trained according Axialwälzlagers is effectively avoided. Preferred embodiments and further developments of the axial rolling bearing designed according to the invention are described in the subclaims.

Thereafter, it is provided according to claim 2 in the inventively designed Axialwälzlager that it is formed as a single-row axial deep groove ball bearing whose bearing discs each have a groove-shaped track on their inside disc surfaces and on their outside disc surfaces also each have a groove-shaped track. However, it would also be conceivable for a design according to the invention on two or more row axial ball bearings or also on single or multi-row axial taper roller or axial spherical roller bearings.

According to claim 3, it is a further feature of the inventively designed Axialwälzlagers that have arranged after mounting the bearing discs on the intended bearing point on the outside disc surfaces of the bearing discs raceways in bearing operation no rolling contact with other rolling elements. Here is the peculiarity of the inventively designed Axialwälzlagers to see, since this has raceways that do not act as raceways for rolling elements after mounting the bearing discs, but have no meaning.

Finally, according to the invention, the axial rolling bearing designed in accordance with the invention is characterized by the fact that both bearing disks have the same internal and external diameters and material thicknesses and are each made without cutting by stamping from a steel sheet with subsequent heat treatment without further post-processing. An axial rolling bearing designed and manufactured in this way has proven to be particularly advantageous, in particular with regard to its low production costs, since the uniform design of the bearing disks and the choice of material are only possible low tool and material costs caused.

BRIEF DESCRIPTION OF THE DRAWINGS The axial rolling bearing designed according to the invention is explained in more detail below in a preferred embodiment. The only drawing shows a cross section through an inventively designed single row axial deep groove ball bearings. Detailed description of the drawings

The drawing clearly shows a single-row axial deep groove ball bearing designed axial roller bearing 1, which has a first annular bearing disk 2 and a spaced therefrom on a common central axis 3 second annular bearing disk 4. The bearing discs 2, 4 are formed on their inside disc surfaces 6, 7 with two mutually facing groove-shaped raceways 10, 1 1, in which a plurality arranged in a row and by a bearing cage 13 at regular intervals held rolling elements 14 roll.

Furthermore, it can be seen from the drawing that both bearing disks 2, 4 on their outside disk surfaces 5, 8 according to the invention with further, identical to the raceways 10, 1 1 on their inside disk surfaces 6, 7 in position, diameter and groove depth groove-shaped raceways 9, 12th are formed, through which the bearing plates 2, 4 regardless of a specific installation assignment either as first or second bearing disc 2 or 4 are mounted on a designated bearing point and in each possible mounting position to each other the necessary number facing each other tracks 10, 1 1 for the Have rolling elements 14. Both bearing disks 2, 4 have the same inside and outside diameters as well as equal material thicknesses and are in each case manufactured without cutting by punch embossing from a steel sheet with subsequent heat treatment without further post-processing. The after mounting the bearing discs 2, 4 to the Outside disk surfaces 5, 8 of the bearing discs 2, 4 arranged raceways 5, 8 have no meaning in storage operation.

LIST OF REFERENCE NUMBERS

1 axial rolling bearing

 2 first bearing disc

 3 central axis

 4 second bearing disc

 5 outside pane surface of 2

 6 inside disk surface of 2

 7 inside disk surface of 4

 8 outside pane of 4

 9 groove-shaped track in 5

 10 grooved track in 6

 1 1 grooved raceway in FIG. 7

 12 groove-shaped track in 8

 13 bearing cage

 14 rolling elements

Claims

claims

Axial rolling bearing (1), in particular unidirectional axial deep groove ball bearing, which has a first annular bearing disc (2) and a second annular bearing disc (4) spaced therefrom on a common central axis (3), the bearing discs (2, 4) their inside disk surfaces (6, 7) with mutually facing groove-shaped raceways (10, 1 1) are formed, in which a plurality arranged in at least one row and by at least one bearing cage (13) at regular intervals held each other rolling elements (14) rolling, characterized in that both bearing discs (2, 4) on their outside disc surfaces (5, 8) with further, identical to the raceways (10, 1 1) on their inside disc surfaces (6, 7) in position, diameter and groove depth groove-shaped raceways (9, 12) are formed, through which the bearing discs (2, 4) regardless of a particular installation assignment wa Hlweise as the first or second bearing disc (2 or 4) can be mounted on an intended bearing point and in each possible mounting position to each other the necessary number of mutually facing raceways (10, 1 1) for the rolling elements (14).

Axial rolling bearing according to claim 1, characterized in that it is designed as a single-row axial deep groove ball bearing whose bearing discs (2, 4) on their inside disc surfaces (6, 7) each have a rillenförmi- ge career (10, 1 1) and on its outside Disc surfaces (5, 8) also each have a groove-shaped track (9, 12).

Axial roller bearing according to claim 1, characterized in that after installation of the bearing discs (2, 4) at the intended bearing point on the outside disc surfaces (5, 8) of the bearing discs (2, 4) arranged raceways (5, 8) in the bearing operation no Have rolling contact with other rolling elements. Axial rolling bearing according to claim 1, characterized in that both bearing discs (2, 4) have the same inner and outer diameter and the same material thicknesses and are each made without cutting by punching stamping from a steel sheet with subsequent heat treatment without further post.