Screw coupling

The screw coupling is a fundamental element in hydraulics for creating permanently leak-tight, vibration-resistant connections between hose lines and components. On jobsites from concrete demolition to rock excavation, a connection must remain reliable even when dust, vibration, and changing temperatures act on the system. In the Darda GmbH environment, screw couplings are used in particular on Darda hydraulic power units, hose assemblies, and tool connections—such as with concrete demolition shears, rock and concrete splitters, rock-splitting cylinders, combination shears, multi cutters, steel shears, and tank cutters.

Definition: What is meant by screw coupling

A screw coupling is a detachable, pressure-tight connection between two hydraulic lines or between a line and a hydraulic component that is screwed together via threads. Sealing surfaces such as a cone, O-ring, or flat seal provide tightness; the threaded connection transmits the mechanical forces. Compared with quick couplings, screw couplings offer especially high resistance to vibration, pressure surges, and tensile loads—properties required in concrete demolition, special demolition, natural stone extraction, and tunnel construction.

Design and operating principle

A screw coupling typically consists of a nut and a nipple (or female and male thread), a defined sealing geometry, and support for the line. When tightened, the sealing surface is compressed in a controlled manner, creating a form- and force-fit connection. Correct alignment of the sealing faces and the specified tightening torque are crucial to avoid both over-stretching and under-compression. In practice, the thread is first positioned hand-tight and then tightened to specification with suitable tools.

Thread and sealing systems

In hydraulics, metric and imperial thread profiles are used alongside different sealing principles. Common are conical seals (e.g., 24° cone), flat-sealing systems with an O-ring at a face-side sealing edge, or tapered threads with metal-to-metal sealing. The selection influences ease of assembly, reusability, and sealing reliability. Important: Thread standards must not be mixed—even small deviations lead to leakage or thread damage.

Nominal size and flow

The nominal size of the screw coupling determines the free cross-section. Too small a nominal size causes pressure losses, heating of the fluid, and sluggish movements of attachments, whereas oversized cross-sections consume unnecessary weight and installation space. For tools such as concrete demolition shears and rock and concrete splitters, select the nominal size so that the required flow rate is transmitted with minimal pressure loss.

Pressure ratings and temperature resistance

Screw couplings in high-pressure hydraulics must safely absorb pressure spikes from switching events. The temperature resistance of the body and sealing elements influences service life—especially in outdoor use for strip-out, cutting applications, and rock excavation. Seal materials are selected to match the hydraulic oil and the temperature window.

Use in concrete demolition, special demolition, and rock excavation

Concrete demolition shears

With concrete demolition shears, cyclic load reversals and pressure surges occur, for example when closing/opening the jaws or crushing reinforced concrete. Screw couplings with vibration-proof threading and robust sealing systems reduce leaks and downtime. Dust caps prevent contamination during tool changes. In combination with Darda hydraulic power packs, appropriate coupling sizing enables low-loss oil supply and precise control of the tool.

Rock and concrete splitters

During splitting, high pressure acts hydraulically on the splitting wedge or rock splitting cylinder. Here an absolutely leak-tight, torsionally stable connection is critical so that the pressure remains constant under rough conditions. Screw couplings with suitable pressure rating, corrosion-resistant material, and good contamination protection increase process reliability in natural stone extraction and special operations in tunnel construction.

Other attachments

Combination shears, multi cutters, steel shears, and tank cutters benefit from compact, flow-optimized couplings. A short overall length facilitates handling in confined spaces, for example during strip-out and cutting in existing buildings. Double shut-off systems (shut off on both sides) minimize oil discharge when disconnecting lines.

Selection criteria for practice

• Pressure and safety reserve: Design for the maximum system pressure including expected pressure spikes, with an adequate safety margin.
• Flow and cross-section: Nominal size according to flow rate; short, flow-optimized geometry to reduce pressure losses.
• Sealing system: Select O-ring, cone, or flat seal to suit the medium, temperature, and assembly specifications.
• Material and corrosion protection: Surface coating or corrosion-resistant materials for outdoor use and humid, dusty environments.
• Vibration and anti-rotation security: Nuts with locking features or defined counter-hold surfaces.
• Compatibility: Uniform thread standards and coupling profiles within Darda GmbH equipment to avoid chains of adapters.
• Serviceability: Well-accessible hex flats, clear marking, available replacement seals.
• Environmental protection: Double shut-off, low-drip design and clean coupling processes to minimize oil loss.

Installation and commissioning

Recommended procedure

1. Depressurize the system and release residual pressure.
2. Clean sealing faces and threads; remove protective caps only immediately before connection.
3. Align the coupling axially, start the thread hand-tight, strictly avoid cross-threading.
4. Tighten with suitable tools to the specified tightening torque; use a counter-hold to prevent hose twisting.
5. Leak test under operating conditions; in case of seepage, relieve the connections, eliminate the cause, and test again.

Common failure modes

• Leakage after temperature changes: sealing material unsuitable or settling effects—replace the seal, check tightening torque.
• Damaged O-rings due to dirt particles: improve cleaning, consistently use dust caps.
• High pressure loss: nominal size too small or coupling restricted—match cross-section to flow rate.
• Cracking at threads: excessive tightening torque or wrong tool—adjust assembly procedure.

Maintenance, cleaning, and service life

Regular visual inspection, careful cleaning of coupling faces, and the use of intact protective caps extend service life. When changing tools—for example when switching between concrete demolition shears and rock and concrete splitters—seals should be kept in stock as wear parts. Lightly wetting the O-rings with a compatible medium eases tightening and protects the sealing edge. Important is depressurized disconnection to avoid damaging sealing lips and uncontrolled oil losses.

Hydraulic power packs, hose lines, and interfaces

The coupling interface between hydraulic power pack, hose bundle, and tool determines energy efficiency and precision. A systematic interplay of suitable nominal size, short line lengths, and flow-optimized screw couplings reduces heating and increases actuator response speed. For Darda tools, consistent standardization of connections is recommended so that switching between different attachments does not require chains of adapters.

Special requirements in tunnel construction and special operations

Confined spaces, long hose runs, and high dust loads place special demands on screw couplings. Flat-sealing, compact designs and corrosion-resistant surfaces make work easier. In underground environments, low-drip coupling and clean handling are important to avoid contaminating the surroundings. Couplings with smooth outer contours reduce the risk of snagging on reinforcement or rock protrusions.

Cleaning and contamination control

Dirt particles act like abrasives and promote seal wear, valve blockages, and premature failures. Therefore: use protective caps, clean coupling faces with a lint-free cloth before each connection, do not place couplings in dust, and cap hoses during transport. Especially with concrete demolition shears and rock and concrete splitters, fine dust is generated that could enter the system without consistent cleanliness.

Practical tips for long service life

• Uniform labeling of lines and couplings to avoid mix-ups.
• Carry replacement seals and protective caps in the tool case.
• Avoid hose twisting by counter-holding; consider rotary unions for frequent changes.
• Regular leak checks in both warm and cold operating conditions.
• Monitor hysteresis and sluggishness in operation—often indications of undersized nominal sizes or restricted couplings.
• Protect couplings from the elements; moisture and de-icing salt accelerate corrosion.