The WEIMA WLK 1000 single-shaft shredder

The V-rotor, developed in-house by WEIMA, is suitable for universal use and is made from solid material. Its aggressive feed mechanism, featuring up to two rows of blades, guarantees high throughput with low power consumption. It can be fitted with hardened steel cutting blades with a blade length of 40 mm. These blades can be turned over several times as they wear, which drastically reduces maintenance costs.

A consistent feed is crucial for stable shredding processes.
The horizontally operating hydraulic pusher is automatically controlled by the system based on the load. Optional serrated plates and hold-down devices improve the securing of bulky parts. An integrated shock valve protects the hydraulic cylinder from impact loads.
The result is continuous material feed, reduced blockages and an extended service life for the mechanical components.

Instead of traditional angled hoppers, WEIMA has for many years relied on a design that is rounded at the front. This has two key advantages: it increases the feed capacity. It also effectively prevents the formation of material bridges – a problem that occurs particularly with large parts. In this case, the shredder clears itself automatically.

The desired final particle size is reliably determined by the screen.
Screw-mounted screens with different hole diameters can be used depending on the material and process. Smaller hole patterns produce correspondingly finer fractions.
This allows the comminution result to be precisely adapted to downstream processes such as briquetting, granulation or thermal recovery. On the WLK 1000 comminutor, the screen can be swivelled downwards. This facilitates access to the rotor and thus simplifies maintenance.

The interaction between the cutting blade and the counter blade has a significant impact on material throughput and the shredding result. To maintain a perfect cutting gap even as natural wear occurs, the counter blades in this series are manually adjustable and reversible. Thanks to optimal cutting geometry, shredding remains energy-efficient, wear costs are minimised and blade service life is significantly extended.

The discharge system can be adapted to suit individual plant designs.
Depending on the frame design, extraction ports, discharge screws or conveyor belts are available. The interfaces are designed to allow for easy integration into existing conveying systems.
This enables the shredded material to be transported cleanly, continuously and reliably.

Smooth running improves operational reliability and flexibility of location.
Vibration-damping machine feet absorb any vibrations that occur and distribute the load evenly. Fixed floor anchoring is not usually required.
This makes installation easier, reduces the transmission of vibrations to the surrounding area and enhances user comfort.

The drive is designed to withstand high loads during continuous operation.
The specially developed WAP gearbox is manufactured in our own production facilities and connected to a powerful electric motor via V-belts. An integrated vibration damper protects against impact loads.
This design ensures high torque transmission, reduced wear and a long service life. A hydrodynamic start-up clutch is available as an option to provide further protection for the machine.

The F-rotor really comes into its own when processing flexible materials such as filaments, films or veneer. Its controlled feed behaviour, combined with precise cutting geometry, enables a powerful cut. This ensures high material throughput. The blade holders are firmly welded to the solid-material rotor. Cutting blades with edge lengths of 30 or 40 mm are also reversible.

Stable process control is crucial for cost-effective continuous operation.
The WLK 1000 is equipped with a Siemens PLC including a touchscreen display. Slider movements, cycle times and load limits are precisely controlled. An integrated overload protection system continuously monitors the machine load and intervenes automatically in critical situations.
In industrial applications, this ensures reproducible operating conditions, minimised downtime and protection of the drive and cutting mechanism.

The rotor bearing is designed to withstand high mechanical loads.
Its recessed design protects it from dust and foreign particles. At the same time, it remains easily accessible from the outside for maintenance work.
This extends service life, reduces unplanned downtime and facilitates maintenance in continuous industrial operation.

The shredder’s feed gate is moved back and forth hydraulically. With the turbo-hydraulic system, this happens even faster. For continuous operation, an additional oil cooling system and a length measurement system are available as optional extras.