Wiper
Plastic PUR, grey
Bracing core
Steel, zinc plated
Cylinder head screw DIN 912
Steel zinc plated, blue passivated
Wipers GN 2428 protect against dirt deposits on rails and rollers.
For size h1 = 18 the wiper is attached with only one central screw.
Screws are included parts of the order.
Linear guide rail systems allow the reliable and economical linear movement of hardware modules. Their outstanding attributes are low-maintenance operation, long service life and quiet running. These are attributes which make roller guide systems indispensable components for efficient and safe movement of devices, and meet the needs of facilities with low energy requirements.
The product range includes all components necessary for constructing linear guide rail systems that are compact and easy to assemble and install. All inear guide rail systems consist of one outer rail with rollers or roller carriages moving inside the rail.
Rails are the foundations for linear guide rail systems. They can be constructed as fixed or floating bearing versions, with the fixed bearing type guiding the rollers running inside the rail on two levels, while the floating bearing type does so only on one level. By combining both versions, any misalignments or parallelism errors in the connected construction can be corrected. Complex preliminary work caused by the precision machining of surrounding parts can thus be kept to a minimum. Both rail versions can be mounted in one of two ways: cylindrical countersunk holes, or 90° conical holes for self-centering.
Cam roller carriages are available in 3 different types of designs, differing by their radial or axial assembly arrangement, their material, and their degree of sealing. All cam roller carriages consist of 3 rollers, with the middle one always supplied with an eccentrically adjustable bearing pivot for determining the initial tension or the clearance/play inside the rail. Depending on the rail version, a wiper is mounted on either end of the roller carriage.
Cam rollers are similar in structure to deep-groove ball bearings, with a non-detachable bearing pivot used as mounting point.
For special applications, cam rollers and wipers can also be supplied separately from the cam roller carriages under separate standards.
All design variants are available in the nominal rail dimensions h1 = 18, 28, 35 and 43 mm. Beyond the standard range, they can also be supplied in lengths of up to 3600 mm in one piece, or as combined rails for individual and customized requirements.
To insure maximum flexibility, linear guide rail systems are made from the components listed below. Depending on the requirement, the appropiate components can be supplied in the desired quanitity. Because the linear guide rails and the cam roller carriages must be assembled separately in many applications, these items will be supplied unsassembled and packed seperately.
Upon requested, fully pre-assembled cam roller linear guide rail systems including rails GN 2422 and cam roller carraiges GN 2424 are available.-
In the combination of rails GN 2422 and cam roller carriages GN 2424, the following dimensions / tolerances exist.-
If several cam roller carriages are installed into one rail, an offset x can occur between the cam roller carriages which must be added to the dimension h2.
h1 | b | h2 | x |
18 +0.25/-0.10 | +0.15/-0.16 | +0.25/-0.25 | ± 0.20 |
28 +0.25/-0.10 | +0.25/-0.10 | +0.15/-0.35 | ± 0.20 |
35 +0.35/-0.10 | +0.25/-0.10 | +0.10/-0.30 | ± 0.20 |
43 +0.36/-0.10 | +0.25/-0.10 | +0.20/-0.35 | ± 0.20 |
Linear guide rail systems feature the linear guidance accuracy shown in the diagram.
The fixed and floating bearing principle ensures that misalignments in the base construction are compensated. However, when using Type UV / UT and XV / XT rails, certain limits should not be exceeded. The following table shows the maximum permissible angle of the height offset of the fixed and floating bearing rails. Please note that the load rating must be reduced by 30% once the specified value is reached.
To calculate h2, the following equation should be used: h2 = a x tan w, with the tabular values shown below used for w.
Example: h1 = 43, a = 650 mm, w max. = 0.171°
h2 = 650 mm x tan 0.171° = 1.94 mm
h1 | w max. |
18 | 0.057° |
28 | 0.143° |
35 | 0.151° |
43 | 0.171° |
It is possible to compensate for angular defects and the offset of the mounting surface with the help of fixed and floating bearing rails. The permissible offset of cam rollers and cam roller carriages in the Type UT / UV rails is given by the values for x and z. The reference is the nominal middle of the raceway bm.
A parallelism or angular error can thus be compensated for across the whole length of the rail, which corresponds to an offset from the sum of the values for x and z.
h1 | b m | x | z |
18 | 6.3 | 1.1 | 0.3 |
28 | 8.6 | 1.3 | 0.7 |
35 | 10.5 | 2.7 | 1.3 |
43 | 14.5 | 2.5 | 1.5 |
To guarantee the proper running motion, outside dimensions must be observed during the assembly of linear guide rail systems. Suitable components include supports at the rail and at the roller carriage which should not be smaller than the widths a or b. Also, forces acting from the outside can thus be transferred reliably from the linear guide rail systems without submitting the mounting screw to shear stress.
h1 | a | b |
18 | 5 | 4 |
28 | 8 | 4 |
35 | 11 | 5 |
43 | 14 | 5 |
When positioning the rails with countersunk mounting holes, Type UT and XT, make sure the surface is flat and the mating tapped holes are tapped deep enough so the flat head screw is flush with the rail.
The specified tightening torque of the flat head screws must be maintained.
h1 | Screw | A/F Drive | Tightening torque |
18 | M 4 x 8 | T20 | 3 Nm |
28 | M 5 x 10 | T25 | 9 Nm |
35 | M 6 x 12 | T30 | 14 Nm |
43 | M 8 x 16 | T40 | 24 Nm |
Depending on application and installation length, the maximum traversal speed of cam roller linear guide rail systems is 7 m/s.
Once the cam roller carriage has been placed in the rail, it is recommended to slightly grease the raceway surfaces of the rail with a heavy duty lubricant for linear guide rail systems, such as Klüberplex BE 31-222, using a brush.
Check the lubricant film at regular intervals for any dirt or pollution, e.g. with metal chips.
In the event of visible pollution or clear discoloration of the lubricant, use a clean rag to clean the rails and the rollers and apply new lubricant.
Applying new lubricant is normally necessary once a year or after 100 km of running distance.
The components of the roller guide systems are suitable for use in a temperature range of -30 °C to 130 °C.
The installation space, the desired mode of attachment and the load to be carried are the determining factors when selecting the best possible roller guide system. The values given below will help in selecting the most suitable cam roller carriage or the most suitable cam rollers.
The details on load capacity are non-binding guide values given without liability and does not constitute any type of guarantee or warranty of intended use. The user must determine in each individual case whether a product is suitable for the intended application. Environmental factors and aging may affect the stated values.
Linear guide rail systems consist of a cam roller linear guide rail GN 2422 and a cam roller carriage GN 2424. All components are packed separately and supplied not assembled. When delivered, the play between cam roller carriage and rail is not preset.-
During assembly, set the cam roller carriage as follows:
1. Make sure that the raceways and the cam rollers are clean.
2. Slightly loosen the mounting screw of the central, eccentrically adjustable roller and insert the cam roller carriage (without the wipers supplied) into the rail (see also items 4 and 6).
3. Position the cam roller carriage at one end of the rail. For the floating bearing rails of Type UT and UV, a thin and stable support (e.g. open-end wrench or a feeler gauge) must be placed underneath the ends of the cam roller carriage body and the rail to ensure the parallel alignment of the cam roller carriage in the level raceways.
4. Insert the open-end wrench GN 2424.1 (included) between the eccentric cam roller and the cam roller carriage body. (The centering bores to the left and right mark the position of the running side of the concentric cam rollers / load-bearing cam rollers.)-
5. Turning the open-end wrench clockwise will press the cam roller to be adjusted against the top raceway which will set the roller carriage free of play. Excessive pre-tensioning must be avoided because this will increase friction and reduce useful service life.
6. While using the open-end wrench to hold the bearing pivot in the correct position, the mounting screw may be moderately tightened. The correct tightening torque will be checked later.
7. Move the cam roller carriage in the rail and make sure that the play / the moderate pre-tensioning is constant along the full length of the rail. The running motion should be free-moving, with the cam roller carriage having any play or jamming at no point inside the rail.
8. Now tighten the mounting screw with the recommended tightening torque shown in the table, with the open-end wrench holding the angular position of the cam rollers in place.
h1 | Tightening torque |
18 | 3 Nm |
28 | 7 Nm |
35 | 7 Nm |
43 | 12 Nm |
9. Now mount the wipers, and for cam rollers carriage type N, the longitudinal seal. To do so, remove the cam roller carriage from the rail.
10. Before reinserting the cam roller carriage, make sure that the raceways / rollers are properly lubricated using a heavy duty lubricant for linear guidance.
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