EOX with extra-reduced shaft head and reduced pit

When building in densely populated urban areas, every millimetre and every second counts. With the option of the extra-reduced shaft head and reduced shaft pit, EOX saves on vertical space and construction time. Shortening the shaft head to a room-height level means that architects and planners no longer have to design the top floor and roof around a higher elevator shaft, and contractors don’t get caught up with ceiling penetrations and superstructures.

In this visualisation, the buildings on the left side of the street feature EOX elevators with a standard shaft head requiring roof superstructures. Buildings on the right feature EOX elevators with extra-reduced shaft head resulting in an obstacle-free roof for terraces, PV panels, etc.

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Starting from 2.500 mm

Measured from the finished floor of the building top level, the shaft head for your EOX elevator can be reduced from the standard ≥3.280 mm to as low as 2.500 mm. 

No complex roof superstructures

The ability to finish the elevator shaft within room height puts an end to “hood”-like roof superstructures, and the top ceiling can be poured as one continuous floor slab.

Architectural design freedom

Architects are free from having to constantly consider an elevator shaft that “sticks out” of the building. In areas with strict building height limits, design-critical space is gained.

Space for PVs, terraces etc.

With the elevator staying below the final floor slab, the building roof becomes an obstacle-free surface that can be used for photovoltaic systems, apartment terraces etc.

Maintenance from the cabin

When the extra-reduced shaft head option is chosen, the EOX cabin comes with a ceiling-integrated foldable working platform, enabling the service technician to perform maintenance safely from the cabin without having to board the cabin roof.

Reduced shaft pit

For the shaft pit, the optional reduction results in a minimum height as low as 450 mm instead of the standard 1.000 mm. Combination of reduced pit option with extra-reduced shaft head is possible, although restrictions may apply.

Available from 450 to 1.000 kg

Both reduction options are available for rated loads from 450 to 1.000 kg. The reduced pit option can be applied to all cabin sizes (incl. flexible dimensions). The extra-reduced shaft head requires standard cabin dimensions.

Certified and quiet

The options for the extra-reduced shaft head and reduced shaft pit are type-tested and conform with EN 81-20/50 and EN 81-21. Noise performance data proves that EOX is a quiet lift system. The entry value (at 630 kg, 1 m/s) of just 24 db(A) in adjacent rooms means that an EOX from next door is quieter than a whisper.

Explore all benefits of the extra-reduced shaft head

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Standard shaft head with roof superstructure

EOX with extra-reduced shaft head

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Maintenance: In a standard-height shaft head the lift technicians board the cabin roof to service the components located in the shaft head. With the help of an inspection remote control and at very slow speed they can move the cabin. Strict safety protocols incl. mandatory wearing of protective gear are applied.

Superstructures limit the use of a building’s roof. Photovoltaic systems have to be planned around it, public or private terraces are difficult to establish. All in all, there’s less space to use or rent with maximum profitability, and the building’s potential market appeal is not fully exploited.

Shaft head: Its purpose is to accommodate components located inside the elevator shaft, e.g. the drive. Besides, if the lift technician has to board the cabin roof to perform routine maintenance, a safety zone of at least 1 m is mandatory. For both reasons, a standard elevator shaft head is usually around 3400 mm. The height is measured from the finished floor level of the top landing.

On buildings with pitched roofs superstructures for the elevator have a sizeable impact on the building’s aesthetics and complicate the construction of the roof.

Construction: Because a standard shaft head usually exceeds the available room height, it literally has to “stick out” of the roof. The resulting superstructure adds complexity to the construction process – from the scheduling, to concrete casting, thermal insulation and waterproofing – and also increases the costs.

Go back to overview

For the regular maintenance of EOX elevators with an extra-reduced shaft head the lift technician does not need to board the cabin roof. Instead, all service tasks are carried out from within the cabin, thanks to a working platform that folds out from the special cabin ceiling. The mandatory safety zone for the technician to retreat in case of unintended car movement is now inside the cabin rather than on top of it, crucially reducing the required shaft head height.

The ceiling-high shaft head reduces construction complexity. Because there is no need for a superstructure on the roof, the final concrete slab can be poured in one go, saving costs and time. The lack of a larger ceiling penetration also improves roofing durability and reduces the risk of water leaks.

Buildings where a pitched roof design is desired or required by building regulations benefit on multiple fronts from EOX with an extra-reduced shaft head: Superstructures on the roof are avoided. Additional costs and construction time is saved. Roof space is freed up for photovoltaic or thermal solar systems. In case of a building refurbishment the extra-reduced shaft head makes EOX an ideal candidate for a retrofit installation, because it will literally fit right under the roof.

Thanks to the extra-reduced elevator shaft head ending with the final roof slab, the unobstructed roof surface can be used to the maximum for photovoltaic systems, HVAC units etc.

The extra-reduced shaft head eliminates architectural constraints in the building design, especially when it comes to devising floor plans and rooftop layouts. Whether it’s the creation of penthouse apartments, private or community terraces, maisonettes or rooftop gardens – there’s a certainty for architects, planners and constructors that the lift won’t get in the way of their creative ideas or execution plans.

For the extra-reduced shaft head option the elevator components located in the shaft head such as the lightweight EOX belt drive are installed in a special, very compact and low build-up layout, further reducing the required space in height.

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Further information on the application of extra-reduced shaft head and reduced pit

The extra-reduced shaft head and reduced pit options are available exclusively for EOX elevators with max. 1 m/s. Reduced shaft pit is applicable to all cabin sizes, including flexible cabin sizes. Extra-reduced shaft head is applicable only to standard dimension cabins: 450 kg (1000×1250 and 1000×1300 mm), 630 kg (1100×1400 mm), 825 kg (1350×1400 mm) and 1000 kg (1100×2100 mm). Minimum achievable shaft head is dependent on the chosen rated load, cabin height, door height and door type as well as door model. For example, the lowest extra-reduced shaft head of 2500 mm is achieved at 630 kg with 2100 mm cabin height and a low-buildup door model of 2000 mm height. Combination of extra-reduced shaft head and reduced pit is possible, although restrictions may apply depending on the specific configuration of your EOX elevator. Your TK Elevator contact will gladly guide you through the planning process for your project.