Operating Modes - Mahr Metrology

Home

Solutions

Products

Services

Know-how

Contact

Short Links

Products | Rotary Stroke Bearings | MarMotion | Technical Information | Operating Modes / WebCode 11611

Features

Computation of the rotary stroke bearings is based in principle on the laws governing ball bearings. However, they differ essentially from the latter in that they allow movement in two degrees of freedom, so that length dimensions and acceleration values must be taken into account. Furthermore, the internal osculating conditions differ substantially from those of most ball bearings.

The following features and characteristics are of primary importance in determining a suitable rotary stroke bearing:

Freedom from backlash
Guiding accuracy
Smooth running
Loading capacity
Stroke and rotary frequency
Service life
Dimensions

The following variables are to be determined:

Shaft diameter d_w
Bush length l₁, l₃
Cage length l₂

Nominal diameter dw and the cage type determine specific loading capacity C10. The lengths of the guide bush and ball cage determine the contact length of the rotary stroke bearing. These values are used to calculate the operational loading capacity of the rotary stroke bearing.

Stroke path and contact lengths

The ball contact lengths are determined by the mutual positions of guide bush, ball cage and guide shaft at the end of the stroke. The dimensions l1 and l2 lead to a distinction between different operating modes.

Open rotary stroke bearing

Cage length l₂ equal to or greater than bush length l₁.

Stroke: H = 2 (l₂ – l₁)

Closed rotary stroke bearing

Bush length l₃ greater than cage length l₂, ball cage remains within the bush.

Stroke: H = 2 (l₃ - l₂)

A contact length E which remains constant across the entire stroke (in every stroke position) is desirable for both operating modes. This is always fulfilled for closed rotary stroke bearings. In the case of open rotary stroke bearings, the bush should be flush with the cage in the end stroke positions. If the bush extends beyond the end of the cage, this shortens the contact length and thus reduces the loading capacity of the rotary stroke bearing in this stroke position.

The minimum permissible contact length E must be determined by calculating the loading capacity. The loading capacities of the ball cages can be taken as guideline values.

Reference contact length e
In order to compute a rotary stroke bearing, it is necessary to determine the reference contact lengths
e = contact length with unfavorable load distribution.

With a small load
The following table shows the recommended minimum contact length E depending on dw for accurate guiding using the rotary stroke bearing without significant load.

N 500
N 501
N 502
dw [mm]
E [mm]
2.5-3
-
-
5
4-5
-
10
8
6-8
-
12
10
10-12
12
15
12
14-16
-
18
15
18-20
12
18
15
25
12
20
-
32-40
15
22
-
50-63
-
30
-
80-100
-
45
-