Elevator standards EN 81-20 and EN 81-50

KONE elevators – EN 81-20 and EN81-50 compliance

The EN 81-20 and EN 81-50 European standards for elevator design and manufacture bring considerable benefits in terms of accessibility and safety for both passengers and service technicians.

EN 81-20:2014 sets out revised and updated safety requirements for the construction and installation of elevators, while EN 81-50:2014, defines the test and examination requirements for certain elevator components.

EN 81-20 and EN 81-50 replaced the EN 81-1 and EN 81-2 standards introduced in 1998, and all elevators taken into use after 31 August 2017 are required to comply.

This page gives an overview of the main changes to the safety requirements introduced in EN 81-20 and EN 81-50. For full details, customers should refer to the official standards documents. Please contact your local KONE salesperson for more information.

Safety enhancements for passengers

Requirements related to Unintended Car Movement (UCM) and ascending car overspeed

The protection mechanism's requirements that address the risk of your elevator car moving away from the landing have been enhanced, and the requirement for protection against ascending car over speed has also been extended to cover rescue operations. KONE already has elevator solutions available that include standard features to address unintended lift car movement through automated daily testing of the hoisting machine's brake torque and capacity. KONE elevators also include standard features that address the risk of uncontrolled speed when the lift car is ascending.

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KONE elevators – EN 81-20 and EN81-50 compliance

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Door detection systems

To reduce the risk of your elevator doors striking passengers while they are entering or exiting the lift car, the updated standards require elevators to incorporate a curtain of light mechanism. This non-contact detection system is designed to prevent the doors from closing if an obstruction is detected. Photocell-based mechanisms will not be compliant with the new commercial and residential elevator standards.

KONE elevators – EN 81-20 and EN81-50 compliance

Elevator car door locking mechanism

Elevators are now required to incorporate a car-door locking mechanism that prevents the doors from being opened from inside when the car is outside the unlocking zone – i.e., when it is not in close proximity to the landing doors. This commercial and residential elevator requirement has been introduced to prevent entrapped passengers from accidentally falling into the elevator shaft when attempting to escape from an elevator that has stopped. KONE offers this type of mechanism for all its elevator solutions.

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KONE elevators – EN 81-20 and EN81-50 compliance

Fire classification of elevator car materials

The requirements for the materials used for car floors, walls, and ceilings have been updated in the new EN 81-20:2014 standard. These materials must meet stricter fire classification requirements according to EN 13501-1. The minimum classifications are as follows, where C and Cfl refer to the ‘reaction to fire’ classification, and s and d refer to the classification of materials with regard to smoke and the formation of flaming droplets/particles, respectively:

  • Flooring: Cfl s2
  • Walls: C s2, d1
  • Ceiling: C s2, d0

KONE elevators – EN 81-20 and EN81-50 compliance

Car and landing door and wall strength

The EN 81-20:2014 standard includes updated strength requirements for both landing and car doors, as well as car walls. Doors must now include retainers to keep the door panels in place if the main guiding elements do not operate as intended. Car and landing doors must also be tested to withstand an impact force equivalent to the impact of a person colliding with the door at running speed. The strength requirement of the car walls is such that they must be capable of withstanding forces that are equivalent to a person pushing against them.

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KONE elevators – EN 81-20 and EN81-50 compliance

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Car and shaft lighting

The EN 81-20:2014 standard requires higher levels of lighting for the car interior and the shaft, with the aim to enhance passenger safety and accessibility. In-car lighting must now provide an illumination intensity of 100 lux instead of 50 lux, and emergency in-car lighting 5 lux for one hour instead of 1W for one hour. To enhance safety for service technicians, the new requirement for emergency lighting on the car roof is now 5 lux for one hour. The new requirements for shaft lighting are as follows:

  • Minimum 50 lux 1 meter above the car roof within its vertical projection
  • Minimum 50 lux 1 meter above the pit floor everywhere a person can stand, work, and/or move between the working areas
  • Minimum 20 lux outside of the locations defined above, excluding shadows created by car or components

Safety enhancements for service technicians

Pit and machine-room access, and control-station location

The EN 81-20:2014 standard introduces a number of requirements that aim to make accessing the elevator machine room and working in the pit safer for service technicians. Access aids such as ladders now have defined dimension, strength, and location requirements. The access requirements for pits deeper than 2.5 m are now stricter, and an access door may be required.

The standard also requires a control station to be located in the pit, to prevent technicians from having to use ladders or stools in order to reach the components under the car. The control station must be located near the pit’s refuge spaces. There must also be a reset function outside the shaft.

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KONE elevators – EN 81-20 and EN81-50 compliance

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Access, inspection, and rescue doors, and counterweight safety gear

The EN 81-20:2014 standard requires access or inspection doors instead of inspection “trapdoors” to address safe and easy access for technicians. The new requirements are as follows:

  • Machine-room shaft access doors shall have a minimum height of 2 m and a minimum width of 0.6 m.
  • Pulley-room access doors shall have a minimum height of 1.4 m and a minimum width of 0.6 m.
  • Access trapdoors for technicians to machine and pulley rooms shall give a clear passage of at least 0.8 m x 0.8 m and shall be counterbalanced.
  • Emergency doors shall have a minimum height of 1.8 m and a minimum width of 0.5 m.
  • Inspection doors shall have a maximum height and width of 0.5 m.

The new standard also requires the counterweight to be fitted with a safety gear in cases where there are accessible spaces under the pit – for example, where the pit is located above a parking garage or basement storage space.

KONE elevators – EN 81-20 and EN81-50 compliance

Car roof and pit refuge spaces

The volumes requirements for the safety refuge spaces on the car roof and in the pit have been increased. The new volumes are as follows:

  • Upright position: 0.4 x 0.5 m (horizontal dimensions), 2 m (height)
  • Crouching position: 0.5 x 0.7 m (horizontal dimensions), 1 m (height)
  • Laying position: 0.7 x 1.0 m (horizontal dimensions), 0.5 m (height) for pit only

The EN 81-20:2014 standard now requires that the landing door providing access to the pit must be able to be opened from the shaft so that technicians can exit the elevator shaft, even if the relevant landing door would be closed.

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KONE elevators – EN 81-20 and EN81-50 compliance

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Car roof balustrades

Balustrades located on the elevator car roof now have defined strength requirements and updated height requirements. These new requirements have been introduced to reduce the risk of technicians falling into the shaft while working on the car roof. The new requirements are as follows:

  • Where the distance between the inner edge of the balustrade handrail and the shaft wall is up to 500 mm, the balustrade must have a minimum height of 700 mm.
  • Where the distance between the inner edge of the balustrade handrail and the shaft wall exceeds 500 mm the balustrade must have a minimum height of 1100 mm.

KONE elevators – EN 81-20 and EN81-50 compliance

Horizontal projection into the shaft

Any horizontal projection (ledge) from a wall into the shaft, or horizontal beam greater than 150 mm wide – including separator beams – must be protected so that a person cannot stand on it, except when access is prevented by a balustrade on the car roof that meets the requirements stated above. This exception does not apply for ledges around the pit, for example with a partially enclosed elevator shaft.

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Changes affecting building design

The EN 81-20:2014 standard introduces some changes to the requirements that the building designer is required to fulfill. These changes all apply to the elevator shaft, and are as follows:

  • All glass used in the elevator shaft must be laminated.
  • Shaft ventilation is now the responsibility of the building designer, whether for commercial or residential elevators. The elevator manufacturer must provide all the necessary information about, for example, the heat emissions of elevator components when undertaking either commercial or residential elevator projects, whether planning or installing. This approach facilitates energy-efficient building design and planning, where ventilation requirements are determined based on the most energy-efficient solution, while at the same time taking into account working conditions for technicians working in the elevator shaft, and the comfort of passengers inside the cab of your elevator.
  • A fire extinguisher can be located in the shaft. Activation of the sprinkler shall only be possible, when the elevator is stationary at a landing and the main switches of the elevator and lighting circuits are automatically switched off by the fire or smoke detection system.
  • Contact KONE regarding planning and installing your elevator today. We can help you plan elevator dimensions for either your commercial or residential elevator project. Consider location code variations and regulations when planning your elevator size and dimensions (whether specified in inches, square feet, or square metres). Visit your local KONE website for the latest project-specific details, including building dimensions, CAD drawings, CSI specifications, electrical data, reaction loads, and building access requirements.

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