Every 72 hours the equivalent of all the world’s population makes a trip on an elevator.

With its latest solution – a shaftless platform lift – Ascendor is offering an affordable elevator model for private households. Rugged laser sensors from SICK protect the freely accessible area under the cab. With the TiM3xx, SICK offers a configurable sensor which is exceptionally light and efficient. This “mini” sensor is one of the most compact 2D laser scanners on the market and features a design fully suited to industrial applications, meaning it is rugged and resistant to environmental influences.


Statistically, every 72 hours the equivalent of all the world’s population makes a trip on an elevator. Elevators reliably convey both people and objects of all shapes and sizes into the lofty heights and back down to earth again. In doing so, safety is the topmost priority. Brakes ensure that the cab stops immediately, even if the supporting cable is severed or torn. That also makes this type of lift the safest modes of transport in the world.

Even in residences with one or two stories, stairs can quickly become a major obstacle for some – for example, when health-related issues arise. In these cases, an elevator is often the first idea for overcoming the problem, but until now was normally dismissed straight away because the associated structural challenges involved, let alone the enormous costs to the private individual, are seldom feasible.


Yet this is precisely where the latest product development from Ascendor comes in, since elevators do not always have to be installed in a building’s interior. If the elevator is built onto the outside of the building, a lot of space is saved, and it allows easy mounting without having to make costly structural modifications – a convincing argument particularly for buildings retrofitted with elevator installations or extensions, which would also become significantly more affordable.

This idea inspired the engineers at Ascendor GmbH, a company based in Niederwaldkirchen, Upper Austria. The result of their development work is the shaftless “QuattroPorte” platform lift (up to 9 m in height) which costs significantly less than conventional elevators in terms of purchase, mounting, and maintenance.

Because this kind of elevator travels somewhat more slowly and differs from conventional elevator installations in terms of technology, it is primarily the Machinery Directive that is applicable for annual inspection and not the much more stringent requirements of the Lift Directive (the initial technical approval is carried out by means of a type examination by the German Technical Inspection Agency).

And the QuattroPorte makes no compromises when it comes to safety, despite the area under the cab remaining usable. But this requires interruption-free monitoring of the ground-floor area, which may be entered by a person or vehicle while the cab is at the top floor – this is where the TiM3xx 2D laser scanners from SICK come in.

A sensor you can rely on

The TiM3xx is a configurable sensor that is especially compact, light, and efficient. The HDDM technology used in these sensors ensures exceptionally stable measurements. It works by sending out multiple laser pulses and calculating a mean value from their reflections. This approach ensures interruption-free scanning and reliable results in any mounting position, even in the presence of dirt, dust, moisture, and ambient light.

This is a key argument for Ing. Rainer Martl, technical and service manager at Ascendor: “With the QuattroPorte we initially thought about using the parking distance systems that are used in cars, but these weren’t accurate enough for what we wanted to do and they proved unreliable. If a person or object enters the area underneath the cab, under no circumstances should it travel to the ground floor. We therefore carried out intensive trials and tests, from which the TiM3xx  from SICK emerged as the most effective solution.”

Gebäude2.jpgSimple configuration

The TiM3xx gives you 16 pre-configured field sets, each containing three fields (areas that the scanner analyzes) that can be selected via input wiring. You can also set the fields to rectangular, radial, or free-form. What’s more, you can quickly and easily get to grips with adjusting the size of the field shapes. Simply pressing a button starts the automated “touch and teach” teach-in program, and the sensor is configured in less than two minutes. Alternatively, the sensor can be configured on a PC using the SOPAS software.

Rugged and reliable


The 2D laser scanner does its job reliably even in low temperatures and adverse ambient conditions – both wind and inclement weather are no match for it. As Ing. Rainer Martl puts it, “For many sensors, dirt or pollen buildup brought about by wind quickly becomes a problem – but not with this laser scanner.”

The simple configuration of the TiM3xx and its adjustable monitoring zone up to four meters in diameter work very much in our favor. The object sizes being detected and the response time can be defined with utmost precision – exactly what we need for our special lift design. This makes the sensor the key component which ensures that the area underneath the cab can be used.”

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