The slew ring bearing is the central pivot bearing that enables rotational movement between two assemblies—such as between the undercarriage and upper structure of an excavator or between a carrier frame and an attachment. In the application fields of concrete demolition and special demolition, strip-out and cutting, as well as rock excavation and tunnel construction, a precisely engineered slew ring bearing determines positioning accuracy, working speed, and safety. This applies in particular when handling hydraulic attachments such as concrete demolition shears or when precisely positioning rock and concrete splitters, where controlled rotation and repeatable tool alignment are required.
Definition: What is meant by a slew ring bearing
A slew ring bearing is a slewing bearing with integrated raceways in which rolling elements (balls or rollers) transmit axial loads, radial loads, and overturning moments. It consists of inner and outer ring, seals, lubrication points, and often an integrated gearing for power transmission via a pinion and a slew drive. In construction machinery and demolition equipment, the slew ring bearing connects the rotating assembly to the fixed structure and ensures a defined, low-backlash rotational movement. Depending on the application, terms such as slewing bearing, slewing connection, or rotary bearing are also used.
Function and design of a slew ring bearing
A slew ring bearing transfers forces from one ring to the other via hardened raceways and rolling elements. The typical geometry is a four-point contact ball bearing; alternatively, cross-roller bearings or multi-row roller systems are used for high overturning moments. An internal or external gear meshes with a pinion driven by a planetary gearbox and a hydraulic or electric drive motor. Sealing systems protect the raceways from dust and moisture, and grease nipples supply the contact zones with grease. For attachments such as concrete demolition shears, compact rotation modules with slim slew ring bearings are often used; they allow continuous 360° rotation and safely absorb slewing torques arising during cutting. On carrier machines in demolition—e.g., when rotating the upper structure to align splitting cylinders or stone and concrete splitters exactly to crack lines—the slew ring bearing guides the entire rotary motion, damps peak loads via the rolling elements, and distributes impact loads that occur during breaking, cutting, or splitting. Hydraulic power packs provide the required energy for slew drives and supply lines in stationary or mobile setups, with pressure, flow rate, and return pressure matched to the torque and permissible slew ring bearing load.
Types and selection criteria
The design depends on the load spectrum, available installation space, and required service life. Four-point contact ball bearings are compact and cover combined loads in many demolition and deconstruction applications. Cross-roller bearings offer higher stiffness under varying overturning moments, which is advantageous in selective deconstruction with frequent changes of direction. Three-row roller slew ring bearings are designed for extreme overturning moments and are used in heavy carrier systems, for example with massive shears or tank cutters.
Key selection criteria include permissible axial and radial load, maximum overturning moment, static load rating, dynamic service life, gear type (internal or external), number of teeth and module, friction torque, and permissible rotational speed. In applications with concrete demolition shears, adequate tooth root load capacity is important, because impact torques from concrete breaking are transmitted directly into the gearing. With stone and concrete splitters, repeatability and low rotational backlash are essential to keep the splitting direction under control.
Load assumptions, calculation, and sizing
Sizing a slew ring bearing starts with a realistic load spectrum. This includes the self-weight of the upper structure and attachment, payload, axial loads during lifting and holding, radial loads during slewing, and overturning moments from long booms. Shock and pulsating loads—such as when a concrete demolition shear cuts through a concrete slab or when uneven resistances occur in rock excavation—must be considered with appropriate safety factors. Static and dynamic load ratings are used for service life estimation; for bolted joints, preliminary design and verification of clamping lengths as well as suitable preload forces are crucial. In practice, the gearing is designed so that the slew drive can transmit its maximum torque without premature flank pitting or tooth root fatigue. Generous sizing reduces backlash and improves positioning accuracy during cutting, splitting, and gripping.
Installation, alignment, and bolted joints
The mounting surfaces of the slew ring bearing should be flat, parallel, and sufficiently stiff. Suitable surface finish and flatness are critical so that the rolling elements are loaded evenly. Bolted joints are tightened in a criss-cross pattern in several stages to a defined torque and, where applicable, an angle. A documented tightening procedure, marked bolts, and the use of appropriate lubricants and locking elements increase operational safety. After initial installation, retightening after the first hours of operation is advisable because settling can occur. Especially in special demolition, where tools are frequently changed between concrete demolition shear, combi shear, steel shear, multi cutter, and tank cutter, a clean interface with clear tightening specifications for the slew ring bearing attachment is important.
Lubrication, sealing, and corrosion protection
Regular re-greasing at the specified lubrication points distributes the lubricant along the raceways and protects against wear. The lubrication plan should be adapted to the duty profile: fine concrete dust, moisture, and changing temperatures influence lubricant service life. Seals must remain tight without generating excessive friction. A corrosion-protective primer or suitable coatings on the rings, as well as protecting the gearing with grease films, are particularly important in natural stone extraction and tunnel construction due to humidity and splash water. During extended idle periods, the slew ring bearing should ideally be moved and re-greased to avoid contact corrosion.
Inspection, maintenance, and service life
A scheduled inspection includes checking rotational resistance and smooth running, measuring axial and radial play, visually inspecting the seals, and verifying bolt preload. On attachments with a rotation function—e.g., concrete demolition shears with a 360° rotation module—the rotational backlash should be assessed regularly to secure cut quality. Changes in noise, uneven slewing motions, or increasing power demand of the slew drive can be early indicators of wear. Service life strongly depends on the application; low-shock guidance, adjusted slewing speeds, and smooth working increase it significantly.
Typical damage and causes
Common damage patterns include raceway indentations due to overload or prolonged dwelling under load, pitting and spalling on raceways, worn or broken seals, flank damage on the gearing, and loosened bolts. Causes often include insufficient lubrication, improper mounting surfaces, unsuitable bolt preload, moisture ingress, or operation beyond the intended loads. When using steel shears or tank cutters, high alternating moments occur; this demands particular attention to gear condition and pinion wear. In concrete demolition, peak impacts when biting off components can cause local overloads; a measured working approach and correctly set hydraulic pressures counteract this.
Use in concrete demolition and special demolition
In the deconstruction of structures, the slew ring bearing enables quick alignment of the upper structure and precise positioning of attachments. Concrete demolition shears benefit from precise 360° orientation to optimally intersect reinforcement and load paths. Those who separate selectively reduce additional loads on the slew ring bearing, as shears grip and cut cleanly rather than tearing. When placing stone and concrete splitters, smooth slewing ensures that the splitting wedges seat straight and the split propagates more predictably. In strip-out and cutting, the rule is: uniform slewing motions with moderate drive torque protect the gearing and raceways and increase repeatability.
Use in rock excavation, tunnel construction, and natural stone extraction
In rock, loads and resistances vary widely, resulting in changing overturning moments. A stiff slew ring bearing with effective seals is advantageous here. In tunnel heading and humid environments, corrosion-resistant surfaces and tight sealing systems protect against premature wear. Even with stationary splitting portals or rotating masts operated by hydraulic power packs, the slew ring bearing keeps alignment stable so that splitting forces are safely introduced into the rock. In natural stone extraction, smooth slewing when approaching separation joints is crucial to prevent cracks from propagating uncontrollably.
Interfaces to attachments and hydraulics
The interface between slew ring bearing, slew drive, and attachment requires matched flanges, fitted seats, and defined tolerances. For concrete demolition shears, combi shears, multi cutters, or steel shears, mass, moment of inertia, and working torques must be included in the design. A slew drive with sufficient gear reduction provides well-controllable torque without overloading the gearing. The hydraulic supply—whether from the carrier or via separate hydraulic power packs—should provide flow and pressure so that the desired rotational speed and holding force are achieved without excessive heating or cavitation. Pressure relief valves and check valves support the upper structure against back-rotation, which is especially important for asymmetric loads in deconstruction.
Noise, vibration, and precision
A well-maintained slew ring bearing runs quietly and with low vibration. Noise spikes indicate impact marks or tooth engagement problems. For precise work—such as when reinforcement needs to be cut accurately with a concrete demolition shear—uniform tooth engagement and minimal reversal backlash are crucial. A finely controllable slew drive with a well-matched hydraulic characteristic curve improves response when starting and stopping and protects the bearing points from impact loads.
Safety and operating practice
Safe operation of a slew ring bearing is based on transparent workflows: pick up loads smoothly, slew with moderate acceleration, and avoid oscillations. Before working in exposed areas, a visual check for leaks, loosened fasteners, or unusual noises is advisable. Adjustments to hydraulic pressures and flow should only be made by qualified personnel. Legal requirements and technical rules vary by country; inspection intervals and maintenance documentation increase availability and reduce the risk of failures.
Sustainability and repair
A long-lived slew ring bearing conserves resources. Regular re-greasing, timely seal replacement, and early detection of gear wear extend service life. Repairs—such as replacing the pinion, re-setting bolt preload, or changing seals—are feasible in many cases and reduce downtime. As part of modernizations, the slew ring bearing can be adapted to new duty profiles with an adjusted gear ratio or optimized lubricants, for example if the machine is increasingly used with concrete demolition shears or stone and concrete splitters.
Terms in the context of Darda GmbH
In combination with products from Darda GmbH—such as concrete demolition shears, stone splitting cylinders, combi shears, steel shears, multi cutters, or tank cutters—the slew ring bearing provides precise rotational positioning and safe transmission of torque into the carrier. For applications in concrete demolition and special demolition, in strip-out and cutting, as well as in rock excavation, tunnel construction, and natural stone extraction, careful design, installation, and maintenance of the slew ring bearing are essential foundations for productive, clean, and safe work.