BIM

BIM has two explanations – “Building Information Model” and “Building Information Modeling”.

3D MODELING

BIM

Deformation analysis

Reverse engineering

Management systems for airports

Asset Management

Control systems for roads

Application of 3D scanners

BIM – Building Information Modeling

3D-visualization – development of BIM-models allows to achieve various goals, the orientation and level of complexity of which may depend on the level of detail of the model and the amount of information available. The most common way to use BIM-models is visualization of the objects being designed. It is a way to combine and choose the best and most suitable design solutions, to present the project to the customer or to the authorities supervising the project.

Change management – Centralized storage of all data in the BIM-model allows you to immediately display any kind of changes, for example, floor plans, profiles, facades of a building. Such an approach not only speeds up the process of developing documentation, but also helps to carry out automatic coordination , eliminating the possibility of project errors occurring.

Building simulation – BIM-models include not only architectural data, but also information about other design sections, such as the classification of elements by load-bearing functions, elements of engineering networks and even information attributable to eco-resistant design and imitation of processes occurring in buildings.

Data management – Not all information contained in BIM-models can be presented graphically. For example, the data to be included in catalogs and specifications helps to determine the labor costs necessary for the implementation of a project. Also, financial indicators, which at any time allow to determine the value of the project estimate, are part of BIM.

Building operation – All data in the BIM-model can be used not only at the design and construction stages, but throughout the life cycle of the project, thus reducing the operating costs of the project, which are definitely several times higher than the project implementation costs.

EXAMPLES OF WORK DONE

EQUIPMENT AND SOFTWARE

3Dscan is the largest “park” of professional technical equipment and software for 3D scanning and geophysical research in the Baltic States. Depending on the task, our certified team of specialists will determine the necessary equipment to achieve the best result.

  • Quantum Max ScanArms combines the advantages of a laser line probe and a portable coordinate measuring machine (CMM arm).

    Price on request

  • Great for capturing all kinds of medium-sized objects, such as a motorcycle exhaust system, measurements of the human body or furniture.

    13700,00 

  • Metrology-level desktop 3D scanner for quality control, inspection, jewellery, medical/dental components, etc.

    27900,00 

  • Laser layout projector for production, Tracer Laser Projectors provides formwork and lattice projection for industrial applications.

    Price on request

How to order 3Dscan.lv services?

To order survey work, laser scanning or geo-surveying, as well as technical inspection or other surveys at your sites, call our office:

+371 27 86 0000 or send an application to e-mail: info@3dscan.lv.

SV Solutions CONTACTS OF THE MAIN OFFICE.

UNIJAS STREET 15C, RIGA

UNIJAS STREET 15C, RIGA

Latvia, LV-1039

Latvia, LV-1039

I-V 09:00 – 18:00

I-V 09:00 – 18:00

VI-VII closed

VI-VII closed

Call us

Call us

+371 27 86 0000

+371 27 86 0000

Write to us

Write to us

info@3dscan.lv

info@3dscan.lv