Example: Stock number 32600 has a wire thickness (d) of 2.5 mm. The external diameter (De) is 18 mm, which produces a mean diameter (Dm) of 15.5 mm.

Based on the coil ratio table, we can therefore arrive at the value that needs to be added to the spring’s external diameter (De) to find the max. external diameter of the loop.

Coil ratio: 15,5 mm / 2,5 mm = 6,2 mm
Loop max. width: 18 mm + (1,5 * 2,5 mm) = 21,75 mm

Series A: - Tolerance of internal loop height
Tolerance of internal loop height (LH) is from 0,8 mm to 1,1 * Dm.

(E.g. Stock number 32600 has a mean diameter (Dm) of 15.5 mm.
Min. internal loop height = 0.8 * 15.5 mm = 12.4 mm.
Max. internal loop height = 1.1 * 15.5 mm = 17.05 mm.

Loop height (LH)

The service life of a spring is generally very difficult to define. A large number of parameters come into play, and it is therefore impossible to define a service life.

Parameters with a significant influence on service life include: Installation, installation method, number of movements, vibrations, shocks, torsion, length of travel, non-axial travel, temperature, wear against other surfaces, environment of use, any cleaning agents, lateral impacts, etc.

Always dimension an extension spring so that it delivers the desired travel and force with as little exertion as possible. This will give the spring the longest possible service life.

Applying the maximum load to the spring or exceeding it will shorten its service life and may cause it to become permanently distorted.

Therefore we recommend that you do not use more than 75% of the maximum travel (Sn) of conical springs.

Usually right. The force and application is not affected by the direction of wind.

Standard extension springs are not defined with a specific direction of wind. Depending on production, the springs may be either right or left wound.

If an extension spring with an exact value for one of the following parameters is required, springs must be custom-made:
- Loop type
- Loop height (LH)
- Loop position (X)
- Loop width (if the spring is to be incorporated into a tube)
- Opening at loop (m)
- Initial force (F0)

When using springs for baby hammocks or baby bouncers, for instance, or other structures where a person is suspended from a structure in some way, you must be aware of the following:

Spring deformities or breakages
A spring is a technical object that can be deformed, or that may break during use. There may be invisible defects in the alloy of a spring wire, and during the manufacture of the spring defects may also occur that can weaken the spring. Improper use of a spring can also reduce the service life of a spring and result in the spring becoming deformed or breaking.

A spring must always be dimensioned so that the spring always incorporates a safety factor that corresponds to the risk in use.

Safety device – IMPORTANT!
If a spring is to be used in a structure where a person is suspended in some way from the structure, and the spring will be a load-bearing element between the person and the structure, a separate appropriate safety device must be installed between the person and a fixed point. This ensures that the person cannot fall down if the spring becomes deformed or breaks.

It is always the user of a spring – in any structure where persons can fall or otherwise injure themselves – who is responsible for ensuring that the structure is correctly designed so that no personal injury can result if a spring becomes deformed or breaks.

Sodemann.Springs.US ApS DOES NOT recommend the use of springs in structures where people are suspended from the spring.