Handheld tool

Handheld tools are compact, hand-guided devices that are applied directly to the structural element or rock. In professional deconstruction, natural stone extraction, and in tunnel construction as well as special foundation work, they ensure precise work in confined spaces—often where a carrier machine cannot be used. Combined with a hydraulic power pack—or compact hydraulic power units—they enable controlled separating, splitting, cutting, and crushing of concrete, reinforced concrete, natural stone, and metal—for example with concrete demolition shear, rock wedge splitter and concrete splitter, combination shears, Multi Cutters, steel shear, or tank cutters.

Definition: What is meant by a handheld tool

A handheld tool is a hand-guided, usually mobile work device applied and controlled by one person. In demolition and extraction technology, these are often hydraulic tools supplied via an external hydraulic power pack. They feature compact dimensions, limited weight, ergonomic grips, and safe two-hand operation. In contrast to an excavator attachment, the force output remains within a manageable range—yet with high efficiency and precise control, for example when splitting concrete or rock, severing reinforcement, or cutting thin-walled metal structures.

Handheld tools for concrete and rock: types and operating principles

Depending on the task, handheld tools differ by their action: splitting, cutting, shearing, or pressing. Hydraulic splitters work with wedge sets or cylinders that create controlled cracking in the structural element. Shear and jaw tools transmit high cutting and crushing forces into concrete and steel. Tank cutters and specialized shears aim for defined cut edges in metallic hollow bodies. The result is a finely metered, low-vibration and often low-shock working method that is especially suited to sensitive environments with low vibration levels.

Overview of relevant handheld tools and their tasks

In the environment of Darda GmbH, various hand-guided tool types have become established that target different materials and tasks—from selective concrete removal to precise metal cutting.

Rock and concrete splitters

Rock wedge splitter and concrete splitter transmit high splitting forces via wedges or cylinders into a pre-drilled borehole. The structural element opens along defined lines without large-scale shock, as typical for hydraulic rock and concrete splitters. This is advantageous for work near the load-bearing structure, in special demolition, during gutting works, as well as in rock excavation and tunnel construction. Compared to percussion hammer methods, there is less noise and dust, and crack propagation remains controlled.

Concrete demolition shear

Concrete demolition shear are shear tools for downsizing concrete components and exposing reinforcement. They combine compressive and shear forces, work precisely on edges, openings, and breakthroughs, and are suitable for concrete demolition in confined areas or during gutting works. Controlled force transmission reduces the risk of unwanted spalling on adjacent structural elements.

Combination shears and Multi Cutter

Combination shears and versatile handheld Multi Cutters cover a broad spectrum: from severing thin-walled metal sections to cutting lines, railings, or light steel structures. They are used by hand when excavator-mounted tools would be too large or access is restricted, often corresponding to a hydraulic shear in a compact format.

Rock splitting cylinders

Rock splitting cylinders act similarly to splitters but focus on rock. In natural stone extraction or rock excavation, blocks can be released along the grain structure. The method minimizes shocks and produces clean separation faces.

Steel shear

Steel shear cut reinforcement, sections, and sheet metal. They are used in selective removal of steel portions, for removing built-in parts, and in special demolition scenarios that require exact cuts with minimal sparking and low heat input.

Tank cutters

Tank cutters are designed for opening and dismantling tanks and pipelines. Together with suitable procedures and safety measures, they produce defined cut edges—even in areas with elevated requirements for low sparking and process control.

Hydraulic power packs: the energy source for handheld tools

Hydraulic power packs supply handheld tools with pressure and flow. Matching pump capacity, pressure limitation, oil cooling, and coupling systems is crucial for efficiency, continuous duty, and tool life. In practice, power packs are selected so that maximum tool performance is achievable without impairing handling.

Design and interfaces

• Flow rate and working pressure matched to the handheld tool (e.g., splitting force, shear performance, stroke speed)
• Robust hydraulic hose lines and coupling pieces with a secure locking system
• Thermal management for continuous load and high ambient temperatures
• Weight and portability for work in existing structures or underground

Selection criteria: determining the right handheld tool

The choice of handheld tool depends on the material, component geometry, accessibility, and targets for emissions, vibration, and cycle times. The following criteria support the decision:

1. Material and structure: concrete strength, reinforcement ratio, rock type, wall thickness, cavities.
2. Work objective: splitting, separating, edge finishing, creating openings, selective deconstruction.
3. Environmental requirements: noise emission, dust exposure, low vibration levels, low sparking, ground vibration monitoring.
4. Accessibility: room height, shafts, confined spaces, overhead work.
5. Performance data: splitting force, shear force, jaw opening, stroke rate, cycle times.
6. Ergonomics: tool weight, balance, grip design, operating forces.
7. Supply: hydraulic power pack, hose lengths, construction site power supply at the point of use.

Application areas and typical uses

Handheld tools cover core tasks in Darda GmbH’s application areas. They act selectively and with control and are particularly suitable in sensitive or hard-to-access situations.

Concrete demolition and special demolition

Concrete demolition shear and combination shears remove component segments and prepare further processing steps. Rock wedge splitter and concrete splitter create crack lines along which massive elements can be removed without shocks.

Gutting and cutting

Multi Cutters, steel shear, and tank cutters sever built-ins, lines, sections, and vessels. The work proceeds in a targeted manner, often with low sparking and reduced dust generation.

Rock excavation and tunnel construction

Rock splitting cylinders and splitters release rock precisely. The method protects the surroundings, reduces vibration, and is predestined for controlled breakouts.

Natural stone extraction

Defined split lines allow raw blocks to be obtained without unnecessarily damaging the natural structure. This improves yield and quality.

Special operations

In special situations—such as sensitive structures, facilities, or limited energy supply—hand-guided hydraulic tools provide a combinable, modular solution with high control.

Workflow: from preparation to a clean separation cut

A structured workflow increases quality and safety. It varies by tool type but follows similar principles.

Preparation

• Inspect the structural element: material, thickness, reinforcement layout, built-in components.
• Set boreholes (for splitters): diameter, penetration depth, spacing.
• Set up supply: hydraulic power pack, hose routing, perform a leakage test.
• Define a protection zone: barriers, signals, shoring.

Execution

• Position the tool; check holding and counterhold.
• Build force gradually; monitor crack formation or cut progress.
• Proceed segment by segment: keep split or cutting lines; unload the structural element.
• Secure debris and organize debris removal.

Post-processing

• Trim edges and remaining steel by cutting or shearing.
• Close boreholes or prepare surfaces for subsequent trades.
• Clean tools; perform visual and functional checks.

Safety and ergonomics

Safe, ergonomic handling takes priority. Handheld tools are fundamentally operated with both hands; controls prevent unintentional activation. Appropriate safety equipment is mandatory, and dust suppression and noise control should be integrated into work planning. When working on tanks, pipelines, and hollow bodies, additional general precautions against residual contents, ignition sources, and atmospheric risks apply.

Practical tips

• Use only function-tested coupling pieces and hydraulic hose lines; perform regular visual inspections.
• Choose a stable working position; route hoses to avoid trip hazards.
• For splitting: symmetrical borehole patterns; do not force an overload.
• For shearing: secure the structural element against uncontrolled tipping.

Material and component specifics

In reinforced concrete, reinforcement ratio and concrete strength determine whether to cut first or split first. Concrete demolition shear are suitable for combined concrete breaking with exposure of the steel. Rock wedge splitter and concrete splitter are advantageous in massive concrete when low vibration levels are important. In natural stone, the split line often follows the grain structure; in layered or jointed rock, orientation is decisive.

Care, maintenance, and transport

Regular cleaning and functional checks extend service life. Seals, wedges, cutting edges, and moving parts are wear parts and are inspected on a scheduled basis. For transport, protective caps for couplings, sturdy boxes, and secured hose routing help. Hydraulic power packs are checked for oil level, filter condition, and cooling performance.

Emissions, sustainability, and environmental compatibility

Hand-guided hydraulic methods often reduce vibration and dust-intensive percussive work. In sensitive areas—such as existing buildings or underground—this is a key advantage. The choice of cutting and splitting methods can influence waste volumes, facilitate material separation, and thus support recycling.

Performance limits and alternatives

Handheld tools reach limits with very large cross-sections or extremely reinforced structures. In such cases, multiple splitting or cutting passes, a combination with carrier machines, or alternative methods are advisable. The decision depends on safety requirements, construction sequence, and the applicable environmental requirement (construction).

Legal and normative notes

Work with handheld tools in deconstruction and natural stone extraction touches general regulations on occupational safety, noise, dust, hazardous substances, and—depending on use—on ATEX zone requirements. These specifications must always be reviewed on a project-specific basis and integrated into work organization. Manufacturer information, inspection intervals, and general safety rules must be observed.