How to measure and specify vee-belts?

Standards for vee-belt profiles

Basically, there are three groups of vee-belt and other belt profiles in use in Europe today:

• conventional or classic vee-belts (German “klassische Keilriemen”): standardized in DIN 2215 / ISO 4184; using one-letter profile names in different sizes (Z, A, B, C, D, E), in many cases the profile is also named by its width in millimeters (10, 13, 17, 22, 32, 40).
• narrow-profile vee-belts (German “Schmalkeilriemen”): standardized in DIN 7753 Part 1 / ISO 4184; using SP profile names in different sizes (SPZ, SPA, SPB, SPC); maybe, “SP” means German “Schmalprofil”?
• high-performance narrow-profile vee-belts, open shoulder, toothed (German: “Hochleistungs-Schmalkeilriemen – flankenoffen, formgezahnt”): standardized in Europe in DIN 7753 Part 1; using XP… profile names in different sizes (XPZ, XPA, XPB, XPC)
• wide-profile vee-belts (German “Breitkeilriemen”, “Variatorriemen”): standardized in DIN 7719 / ISO 1604
• flat belts (German “Flachriemen”): used in different applications such as tangential belts, folding and conveyor belts and machine belts [source]. There seems to be no widely accepted standardization in this area.
• round belts (German “Rundriemen): mostly used for conveying and driving tasks in mechanical engineering.

For a short description of the different types, see HUG-Technik on Keilriemen [German]; for a more detailed introduction, read tedata.com on vee-belts. For an overview about DIN and ISO standards relevant for vee-belts and similar devices, see HUG-Technik on important standards for belts [German]. See also the English Wikipedia on mechanical belts and the German Wikipedia on vee-belts; though both of them lack extensive information on belt specs yet.

The DIN and ISO standards cited above are used in Europe; in the US, the standard RMA/MPTA (and in the UK, BS 3790) specifies minimally different but overall compatible profiles with other profile names. [source]

Standards for vee-belt length

Length conversion table. A very important tool to work with belt specs is a vee-belt conversion table. That’s because the nominal length is different for the different types of belts (for example, it is “inner length” for classic vee-belts – also the only error in the linked conversion table).

Li, Lw, La. For every vee-belt, one can give three lengths: inner length Li, effective length Lw and outer length La. Inner and outer length are the inner resp. outer circumference measure of the vee-belth, without any linear tension on the belt and in circular shape. Effective length is a fictive median length of a vee-belt that is the circumference at a certain depth of the belt profile; cf. column “effective width” (German: Richtbreite) in the vee-belt conversion table. Lw is used as the nominal length of belts with profiles SP*, XP* and X*. Synonymous to Lw, some manufacturers use Ld or Lp. [source]

Belt number. For classical vee-belts, there is another identification system in addition to the “20 x 3500 Li” type: the belt number (German: Riemen-Nr.). It consists of the normal profile size designation letter and a number that normally corresponds to the inner length in inches (rounded, where necessary); for example, “Z 22″ or “D 150″. [source] A list of these numbers can be found on this vee-belt index.

Measuring vee-belt profiles

All values below are measured with light touch of the caliper.

• height of V-belts
• nominal 10 mm; measured 9.3 – 9.7 mm (in convex curves, 9.8 mm)
• width of V-belts
• nominal 12.5 mm; measured 12.3 – 12.4 mm

Measuring vee-belt length

Measuring vee-belt length Lw. It is usually proposed to measure a vee-belt by cutting it and nailing it flat to a board [source]. However, this is not what you want if you need to determine the size of a new vee-belt that has lost its labeling. So here is a different procedure that I tested successfully:

1. Mark a line on your flat, hard floor by taping 2 measuring sticks to it and also glueing a stop to the start.
2. Add a small cable tie around the vee-belt to be measured and use that for marking the start and aligning it to the start marker you glued to the ground.
3. Roll your vee-belt on the ground along the measuring sticks until you went one full circle.
4. Take the measure and interpret it as effective length Lw of the vee-belt (which it is, approximately).

You could do two or three measurements and take the average, but this seems not necessary as this kind of measuring has repeatable results that are up to 1 mm exact. Measuring with a flexible measuring tape while holding the vee-belt in your hands is not recommended, the results are less exact (my experience: measurements of a single belt resulted in 3505 mm Lw and 3520 mm Lw, while the result with the roll-on-floor technique was 3522 mm Lw). When measuring while holding the belt in your hand you have to take special care to not bend it while measuring, as bending will increase the measurement more towards La; in this example, from 3522 mm Lw to 3533 mm for lightly bending).

It is said that the measure taken by this procedure is the median length of the vee-belt [source], which probably should mean, the average of inner and outer length. In practice, it is said to be a good-enough approximation of the effective length Lw. While this is still true, my tests suggest that the length measured this way is not always the median length, but “something between inner and outer length”; exactly which mostly depends on how the belt is built, namely, how far to the outside the pull-resistant strings are located, as these seem to work like a hinge when bending or unbending the belt, affecting the depth of the area on each side that gets either compressed (so, shortened) or pulled on (so, lengthened). These fibers are normally located right below the upper edge of the belt, so the measure is normally more towards the outer length than the Lw measure is.

Measusing vee-belt length La. It is said that one can do that by placing the belt in circular shape on a flat surface and placing a flexible measuring tape around it [source]. However in practice, this is hard to do as you need some tension on the tape to not measure too much. It works well when the velt is still mounted, though.

Determining Lw without a belt. In case you have a device needing a belt but don’t know which one, place a rope around the belt path that has approx. the thickness of the pulley nuts. Mark the length of rope you need, take it out again and measure that length when laying straight on flat ground. This is a  good approximate for the effective length Lw of a fitting belt. (As an alternative, there is a forumla to calculate this, and online calculators for that.)

Various experiences with measuring vee-belts

• At times, some vee-belts seem to use the wrong signing schema. One belt had the classic profile, so the sigining of “20 x 3550″ was to be interpreted as Li = 3550 mm. However, all measurements turned out with Lw = 3522 mm, so an even larger measure of 3550 mm can only be La, not Li. The formula produces a result coherent with this: La = Lw + 31 mm = 3522 mm + 31 mm = 3553 mm. Another, quite old Continental belt was SPA profile so should be labeled with Lw, yet the label said “12,5 x 1200 La”.
• Amount of difference between measured flat length and Lw. In one case, a classic 20 x 2000 mm Li belt was measured with 2060 mm flat length. Lw according to the formula is Lw = Li + 48 mm = 2048 mm Lw. The difference of 12 mm isquite small and probably comes from the fact that the fibers are not exactly located at the diameter corresponding to Lw.
• Different formulae for converting to and from Lw. Interestingly, there seems to be at times a slight divergence of what formula is to be used for converting from effective length Lw to Li and La. For example, this vee-belt conversion table and basically all other such conversion tables on the web state for a 17 mm wide classical vee-belt: Lw = Li + 40. However, one 17 mm clasical vee-belt belt was found with an inscription saying “PETER-BTR 17 x 1320 Li / 1363 Lw”, corresponding to Lw = Li + 43.

Storing vee-belts correctly

It is said that vee-belts are normally built by manufacturers to reach a lab runtime of 25 000 hours [source]. If this is reached in practice also depends on proper storage conditions.

If properly stored, vee-belt properties do not change for several years. However, most rubber-based products will deteriorate if improperly stored or handled (like being exposed to oxygen, ozone, extreme temperatures, light, humidity or various solvent agents). [source]

Therefore, the storage location should be dry and dust-free and must not contain chemicals, oils or solvents at the same time. Vee-belts should be stored without any force on them (pressure or pulling force) to avoid any permanent shape changes and other damaged. This also means that they should only be stored in hanging condition if the hanger pin is at least ten times the height of the belt profile. Additional maintenance hints for rubber products are found in DIN 7716. [source]