Innovative position system for construction lasers / Axis2Move

The new system enables an easier, faster, and more precise alignment of rotary and cross-line lasers.

Introduction

The technology is an innovative laser positioning system that enables a significantly simplified and more precise alignment of construction lasers.

The ‘Positioning System for Construction Lasers’ is used in the construction industry (e.g., for interior finishing, drywall construction, kitchen installation, installation of building components, and alignment of facade elements). In general, the system offers cross-industry advantages for any surveying or positioning tasks where the precise alignment of one or more vertical laser planes is crucial.

Background

The prior art does not include any positioning systems for construction lasers that can be moved in multiple axes by rotating and shifting to position vertical laser planes.
Rotary or cross-line lasers often have to be manually positioned and painstakingly adjusted, which leads to inaccuracies and increases the time required.

Solution

The purpose of the new technology is to counteract the disadvantages of the state of the art and to provide a laser positioning system that increases, simplifies, and, above all, ensures the repeatability of the accuracy of vertical laser plane positioning.

We have built a system and developed a method on which a commercially available cross or rotary laser can be mounted. A special laser is not required.
A patent application for the system and the method is already pending.

With this system, the laser can be remotely rotated and adjusted along multiple axes to align the vertical laser planes with measurement points. Subsequently, measurements can be taken from these planes to the object or structure, and deviations can be determined.
It is possible to precisely align two laser planes at a 90-degree angle. Additionally, aligning the vertical laser plane to two opposing, distant measurement points is feasible—regardless of whether these points are on the floor, walls, or ceiling.

Have you recognized the potential of our technology and would like to collaborate with us?
We look forward to hearing from you as an investor or licensee.

Advantages

Improved ease of use thanks to simplified system alignment options
Simplified positioning of elements
Any material allowances or dimensional deviations can be determined during measurement, i.e. before installation
Significant reduction in time and acceleration of complex assembly and alignment work
Increasing the accuracy of dimensional chains in the ceiling area
Potential external commissioning of surveying companies unnecessary
Sustainability effect of the system: less material is required thanks to optimised calculation of the material thickness
Cost benefits

Application Areas

Significantly simplified alignment and installation of building elements, interior walls and ceiling installations
Mechanical engineering (e.g. alignment of machines, products and components in the production hall)
Machine control (plastering machine for optimum material thickness and alignment of the walls to each other)
The system enables new laser systems to be optimally positioned

Substainability Goals (SDGs)

Technology Readiness Level (TRL 1 - 9)

Career / Development

As part of our corporate group, PMH Baudienstleistungen GmbH faces a wide range of challenges. In structural fire protection, one of the key challenges is the precise and repeatable installation of fire protection curtains.
With the positioning system for construction lasers, we have achieved a groundbreaking improvement in the installation process.
Our goal is to establish a market-ready version of the positioning system as the standard for installing fire protection systems and other building components.
Feel free to stop by and learn more about our projects!

Contact

PM4 Innovation GmbH
Mail: info@pm4-innovation.gmbh
CEO: Michael Pohlmey