- Ideal if you have to implement long strokes
- Ideal where the available space is insufficient for a solution with "normal" linear drives
- The chain can be wound up and stored
- It holds the absolute position
- Several LinearChains can be synchronised
The LinearChain – an innovative element in drive technology
LinearChains are an important component in linear drive technology. They develop their real strength where other products such as linear drives are ruled out for reasons of space. In drive technology, loads are usually moved by pulling or pushing. If you use linear drives they can do both: pull and push. The LinearChain can also do both, even though it is a chain. You will now see how that works.
How the LinearChain works
It consists of specially formed, high-precision mechanical chain links. The chain links interlock with one another continuously and positively. The special feature of the LinearChain (as opposed to a "normal" chain) is that it works in both directions – it can pull and "push".
In the drive housing of the LinearChain is a gear wheel that engages in the chain and moves it link by link – both forwards and backwards. The chain itself has two loose ends. The load which is to be moved is attached to one end. The other end can be guided freely and is usually rolled up in a storage device. This saves an enormous amount of space and is the main advantage of the LinearChain. If you were to work with a "normal" linear drive you would need much more installation space for the spindle stroke.
This is how the LinearChain works when it "pushes"
A pushing force is exerted on the chain links by the drive element, usually an electric motor. The shoulders of the individual chain links now push against one another and form a rigid unit. And with that they can lift or push the load.
This is how the LinearChain works when it "pulls"
Now it works like a normal chain and the links can be wound up in one direction and stored in a magazine, thus saving space.
How is the LinearChain guided?
You have two possibilities: either it runs over a sliding surface or in a guide rail. The choice of guide depends on the pushing force, the stroke length and the speed of movement. Guidance is necessary from a certain stroke length to prevent the LinearChain from buckling.
These are the typical applications for the LinearChain
- The drive in a lifting table
- Stage platforms
- In tool and material handling
- In warehouse logistics
- For feeding tempering furnaces
- In refrigeration systems
- In modern buidling systems
- In conveying systems
- When changing the tools on metalworking presses
- In driverless transport systems
- In the ContainerMover
These versions of LinearChains (thrust from 3 kN to 35 kN) are currently available:
LinearChain SK03 (25PS)
LinearChain SK03G (25PSG)
LinearChain SK04 (25PSR)
LinearChain SK04G (25PSRG)
LinearChain SK05 (25PD)
LinearChain SK05G (25PDG)
LinearChain SK08 (40PS)
LinearChain SK08G (40PSG)
LinearChain SK12 (40PSR)
LinearChain SK12G (40PSRG)
LinearChain SK18 (60PS)
LinearChain SK18G (60PSG)
LinearChain SK25 (60PSR)
LinearChain SK25G (60PSRG)
LinearChain SK35 (60PD)
LinearChain SK35G (60PDG)