Attachment shear

The attachment shear is a hydraulically powered excavator attachment used for cutting, downsizing, and dismantling steel, reinforcement, and reinforced-concrete components. It is used in concrete demolition, industrial deconstruction, strip-out, and for cutting sections, tanks, and pipes. In practice, it is often combined with concrete pulverizers, combination shears, or hydraulic wedge splitters to select the method that is technically suitable and compliant with occupational safety depending on the construction phase and material.

Definition: What is an Attachment Shear

An attachment shear is a hydraulic cutting tool that is mounted on carriers such as excavators or carrier vehicles and drives its blades against each other via one or more hydraulic cylinders. Depending on the configuration, the attachment shear cuts steel beams, reinforcement, sheet metal, and lines, or downsizes reinforced-concrete components. In construction and deconstruction practice one refers to demolition shears, scrap shears, steel shears, combination shears, and multi cutters. It is distinct from the concrete pulverizer, which primarily breaks and pulverizes concrete, and from hydraulic wedge splitters, which split rock and concrete in a controlled manner.

Design and Operating Principle of an Attachment Shear

An attachment shear consists of a main body, a rotatable head (with or without 360° endless rotation), moving arms with cutting blades, one or more hydraulic cylinders, as well as bearings and wear parts. The carrier’s hydraulics provide flow and pressure; the cylinder closes the shear and generates cutting force. Blade geometry, jaw opening, and force transmission determine how efficiently sections, reinforcement, or sheet metal are cut. Rotating heads facilitate proper lead-in positioning; replaceable blades and wear-resistant inserts increase service life. On combination shears, interchangeable jaws (cutting, pulverizing, or combination jaws) provide high flexibility.

Types and Variants

The suitable design depends on the material, work method, and carrier. Key variants include:

Steel Shear, Combination Shear, and Multi Cutter

Steel shears are designed for cutting steel: beams, sections, reinforcement, cable reels, tank shells. For this purpose, Steel Shears for cutting steel are used. Multi Cutters for mixed demolition combine strong cutting edges with robust guidance for mixed demolition. Combination shears can be reconfigured with different jaws for cutting, crushing, and secondary demolition, making them suitable for changing tasks in strip-out and specialized deconstruction.

Distinction from the Concrete Pulverizer

Concrete pulverizers work by pressing, crushing, and pulverizing. They separate concrete from reinforcement and reduce components to manageable fractions—ideal for primary and secondary demolition. Attachment shears, by contrast, target the metallic structure. On many projects both tools are combined: the concrete pulverizer for breaking, the attachment shear for subsequent exposed cutting of reinforcement. For low-vibration methods, hydraulic wedge splitters or rock wedge splitters are also considered.

Rotation and Mounting

There are rotating shears (360°) for precise positioning as well as rigid designs for robust applications. Mounting is via adapter plates or a quick coupler; the hydraulics are connected via supply and return and, if applicable, a case-drain line.

Fields of Application and Typical Uses

The attachment shear covers a broad spectrum and is used in the following fields of application:

• Concrete demolition and specialized deconstruction: Cutting reinforcement, cutting embedded components, dismantling steel sections and beams. Frequently combined with concrete pulverizers for component-appropriate separation of concrete and steel.
• Strip-out and cutting: Selective cutting of lines, cable trays, trapezoidal sheets, façade and hall profiles. Combination shears and multi cutters enable flexible workflows.
• Rock works and tunnel construction: Cutting lattice arches, support profiles, reinforcement mesh, and steel beams. For the rock itself, hydraulic wedge splitters or rock wedge splitters are generally more suitable.
• Natural stone extraction: Here the attachment shear cuts auxiliary steel and gabions; the actual loosening is more often done with hydraulic wedge splitters.
• Special applications: Tank cutters and specialized shears for controlled cutting of tanks, pressure vessels, and pipelines, observing the relevant safety requirements.

Selection Criteria and Sizing

Appropriate sizing is crucial for performance, cost-effectiveness, and safety. Important criteria include:

• Carrier machine: Operating weight and hydraulic capacity (flow, pressure), plus any quick coupler and tiltrotator.
• Cutting force and jaw opening: Matched to material thicknesses, section shapes, and component heights.
• Blade geometry: V-shaped, straight, serrated; replaceable blades for quick service.
• Rotation: 360° rotator for precise positioning; rigid version for heavy cuts.
• Hydraulic requirements: Supply/return, case drain if needed; observe pressure limiting and return filtration.
• Weight and balance: Transport, reach, and excavator stability.
• Environmental constraints: Noise, dust, vibrations; with strict limits, hydraulic wedge splitters are often advantageous.
• Work method: Combined use with concrete pulverizers or multi cutters to optimize cycle times and material separation.

Cutting and Downsizing Principles

Efficiency results from the interaction of blade guidance, force transmission, and material behavior.

Shear Cutting in Steel

In shear cutting, material is separated by shear stress. A tight cutting clearance, sharp blades, and a stiff main body minimize spreading and facilitate the clean separation of sections and reinforcement.

Working on Reinforced Concrete

For reinforced concrete, a combined approach is often advisable: first break the concrete with a concrete pulverizer to expose reinforcement, then cut with the attachment shear. This reduces tool loading and improves recycling separation.

Tanks, Pipes, and Sheet Metal

For tanks and pipelines, tank cutters or suitable multi cutters may be used. Before working on vessels, always observe recognized safety measures (e.g., atmospheric testing, emptying, cleaning, grounding) to minimize ignition and health hazards.

Operation, Safety, and Environmental Protection

Safe operation is based on qualified personnel, equipment in good condition, and an adapted work method. The notes are of a general nature and do not replace project-specific instructions.

• Work preparation: Identify hazards, define exclusion zones, stabilize loads.
• Equipment inspection: Before use, check for leaks, cracks, pins, and blade condition.
• Cutting strategy: Ensure access, relieve components, plan cutting sequence.
• Emissions: Suppress dust; consider vibrations. In sensitive areas, use hydraulic wedge splitters where appropriate.
• Material separation: Sort steel, concrete, and composites for recycling.

Maintenance, Wear, and Service Life

Regular care increases productivity and reduces downtime. Blades and bearings are typical wear points.

1. Daily visual inspection and lubrication in accordance with the operating manual.
2. Blade check: rotate or replace edges; check pins for play.
3. Hydraulics: clean couplings, maintain pressure/flow, monitor filter condition.
4. Rotator and bearings: keep slew bearings free of play; monitor seals.
5. Documentation: record maintenance intervals and repairs in a traceable way.

Installation and Hydraulic Interfaces

Integration with the carrier is mechanical via adapters or a quick coupler and hydraulic via suitable lines.

• Mounting: Adapter plate matched to excavator kinematics; observe the quick coupler.
• Hydraulics: Supply and return with sufficient cross-section; case-drain line if applicable.
• Settings: Configure pressure limiting, flow, and priority valves according to specifications.
• Power supply: For handheld auxiliary tools on the project, hydraulic power packs may be required.

Practice-Oriented Combinations in Deconstruction

An efficient workflow combines tools according to material and project phase:

• Inner-city deconstruction: Concrete pulverizer for primary demolition; attachment shear for reinforcement and sections; with strict constraints, add hydraulic wedge splitters.
• Industrial demolition: Steel shears and multi cutters for sections, sheet metal, and lines; specialized Tank Cutter for vessels.
• Tunnel and rock works: Splitting technology (rock wedge splitters) for rock; attachment shear for support and stabilization steel.

Distinction and Complement to Other Tools from Darda GmbH

The attachment shear is the tool of choice for precise cutting of metal. Where concrete must be broken and pulverized, concrete pulverizers are suitable. If low-vibration work is required—e.g., in sensitive areas, listed buildings, or with adjacent use—hydraulic wedge splitters and rock wedge splitters excel. Depending on the project, combination shears, multi cutters, steel shears, and tank cutters can be sensible additions, while hydraulic power packs ensure the energy supply for supplementary hydraulic tools.