Vibration Compressor

A patented engineering concept by Pavol Nemeš designed to improve compression efficiency through a different mechanical principle and practical industrial application.

Patent SK 288877

Presented at MSV Brno 2025

Serial produktion

Up to ~30% higher efficiency potential (reported)
Strong performance at low input power (prototype benchmarks)
Adjustable output via eccentric weights (simple regulation)

See Media Proof

Overview

The Vibration Compressor is the flagship invention in the Nemesys portfolio — built around a simple but unconventional idea: use controlled vibration and centrifugal force to drive reciprocating work efficiently. Instead of relying on classic motor-crank architectures, the system transfers force from an eccentric weight mechanism through linkages to opposed pistons, enabling compression or pumping with a strong focus on improved energy balance. Prototype measurements and published benchmarks indicate significant efficiency potential, and the concept has been publicly presented and moved into industrial manufacturing collaboration.

How the Vibration Compressor Works

Eccentric weights generate controlled force as they rotate, creating a usable centrifugal effect.
Linkages transfer the motion into a stable reciprocating drive.
Opposed pistons perform compression/pumping cycles in cylinders.
Output can be regulated by adjusting the eccentric setup and operating speed for different loads.

Performance snapshot

Comparison with a regular compressor

Parameter	Vibration compressor	Standard compressor (Scheppach)
Power consumption	270 W	1.1 kW
Maximum pressure	11 bar	8 bar
Maximum flow	100 L/min	161 L/min
Air tank volume	24 L	24 L
Efficiency	+30%	Standard

* Reported prototype benchmark values. Results depend on configuration and operating conditions.

Industrial Applications of the Vibration Compressor

Industrial compressed-air systems

Use in factories and production halls to power pneumatic tools, production lines, and robotic actuators.

Construction & mining

Powering pneumatic hammers, drilling rigs, and soil-compaction equipment for roads, tunnels, and infrastructure projects.

Bulk material conveying (Food, Chemical & Materials)

Pneumatic conveying of powders and granulates in closed pipelines using compressed air (e.g., sugar, flour, polymers, cement).

HVAC & refrigeration

Use in refrigeration cycles, air-handling units, heat-recovery (recuperation) systems, and air-cleaning solutions to ensure efficient airflow.

Water & wastewater management

Pumping and transfer operations in water systems and wastewater treatment plants supporting biological processing.

Medical & laboratory equipment

Controlled airflow and pumping for ventilators, sterilizers, laboratory pumps, and gas/air analyzers.

Agriculture & greenhouses

Irrigation support, pneumatic seeding/dispensing concepts, and process-air needs in modern greenhouse operations.

Fire & rescue systems

Compressed-air equipment, inflatable rescue structures, and rapid air-handling solutions for emergency response.

Automotive manufacturing & transport

Pneumatic tools and equipment on production lines, filling/assembly operations, and compressed-air brake systems in heavy vehicles.

Aerospace & aviation

Pressure control and testing systems for altitude simulation, stabilization concepts, and sealed-environment technologies.

…and many other applications.

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