Our passenger elevators are equipped with multi-component CPU technology that ensures precise and reliable control of every aspect of the elevator's operation. The system uses advanced FPGA (Field Programmable Gate Array) technology for real-time safety monitoring, guaranteeing continuous control and maximum passenger protection.
The intelligent controller automatically optimizes routes, reduces waiting time and ensures smooth acceleration and deceleration. The built-in diagnostic system enables remote monitoring of the elevator's condition and preventive maintenance, which significantly extends the operational life of the equipment.
The lifting mechanism of our passenger elevators is designed for maximum efficiency and durability. Thanks to the 2:1 roping ratio, optimal load distribution is achieved, which reduces component wear and extends the life of the entire system.
The energy-saving technology enables up to 30% electricity savings compared to conventional systems. This is achieved through the combination of a high-efficiency permanent-magnet synchronous motor and an intelligent energy regeneration system that returns the electricity generated during braking back to the grid.
The structure of every elevator is verified using the finite element method (FEM). This guarantees optimal load distribution, durability under dynamic conditions and maximum stability of all load-bearing elements.
Thanks to the advanced vibration and noise suppression system, our elevators provide an exceptionally quiet and smooth ride. The noise level inside the car is below 55 dB, which is comparable to a quiet office.
We use high-quality steel and aluminum alloys treated with anti-corrosion coatings that ensure a long operational life. The guide rails are precision-machined for minimal friction.
The permanent-magnet synchronous motor (PMSM) delivers exceptional efficiency in a minimal size. The direct drive ensures maximum torque from zero speed and precise positioning with an accuracy of up to 1 mm.
The dual braking system has been tested for over 2 million actuation cycles, ensuring absolute reliability. The electromagnetic brakes operate independently and each is capable of stopping the car on its own at full load.
The built-in regeneration system converts the kinetic energy during deceleration and descent back into electrical energy, which is returned to the building grid. This reduces total consumption by up to 30%.
Our passenger elevators are designed with exceptionally compact dimensions, making them ideal for buildings with limited space. The machine-room-less construction eliminates the need for a separate machine room, as the entire drive is integrated into the upper part of the shaft.
The reduced shaft dimension requirements allow installation even in existing buildings where space is limited. The slim profile of the guide rails and the compact control cabinet further optimize the use of the available space.
Energy efficiency is a key priority in the design of our elevators. The LED lighting in the car switches off automatically when not in use, the ventilation enters a low-consumption mode, and the controller goes into sleep mode during prolonged idle periods.
The combination of a high-efficiency IE4-class motor, regenerative drive and intelligent energy management allows our elevators to achieve energy efficiency class A, reducing electricity costs by up to 50% compared to conventional solutions.
The intelligent control system uses machine learning algorithms that analyze the building's traffic and automatically optimize routes. During peak-load hours, the elevator prioritizes the busiest floors, reducing the average waiting time.
The built-in display in the car shows in real time the current floor, the direction of travel, the load and the estimated time of arrival. Remote monitoring via an IoT platform allows the service team to track the elevator's condition 24/7 and respond preventively to any detected anomalies.
Quiet operation is achieved through a comprehensive approach that includes a gearless drive, special anti-vibration mounting elements and precisely balanced rotating components. The noise level inside the car does not exceed 55 dB, and outside the shaft it is 60 dB.
The special sound-insulating panels of the car and the elastic buffers of the guide rollers further reduce the transmission of vibrations to the building structure, ensuring comfort not only for passengers but also for the occupants of adjacent rooms.
The revolutionary ultra-thin permanent-magnet synchronous motor (PMSM) represents the latest generation of drive technology for elevators. With a thickness of only 200 mm, this motor is significantly more compact than conventional solutions while delivering higher torque.
The motor operates without a gearbox and oil, eliminating the need for regular lubricant changes and reducing maintenance costs. Its efficiency exceeds 95%, placing it in the highest energy efficiency class, IE4. The integrated encoder ensures precise car positioning with millimeter accuracy.
Standard configurations for passenger elevators. Custom solutions are available upon request.
| Persons | Load capacity (kg) | Speed (m/s) | Car (mm) | Door (mm) | Shaft (mm) |
|---|---|---|---|---|---|
| 6 | 450 | 1.0 | 1000 x 1250 x 2200 | 800 x 2000 | 1550 x 1600 |
| 8 | 630 | 1.5 | 1100 x 1400 x 2200 | 800 x 2000 | 1650 x 1750 |
| 10 | 800 | 1.0 | 1200 x 1500 x 2200 | 900 x 2000 | 1800 x 1850 |
| 13 | 1000 | 1.75 | 1350 x 1600 x 2200 | 900 x 2100 | 1950 x 1950 |
| 16 | 1275 | 2.0 | 1500 x 1700 x 2200 | 1000 x 2100 | 2100 x 2100 |
| 20 | 1600 | 2.5 | 1600 x 1800 x 2300 | 1100 x 2100 | 2250 x 2200 |
