Reliable and proven architectural bim services

BIM 3D (Building Information Modeling) is an innovative design method that allows you to create a model that contains comprehensive information about the object. When carrying out works, the design features of the building, parameters of engineering networks, characteristics of the materials used, and basic logistics indicators are taken into account.

 

The key feature of BIM design is an integrated approach that reduces the time required to prepare documentation and improves its quality. The use of specialized SOFTWARE guarantees a well-coordinated interaction of specialists, minimizes the risk of errors, time and financial losses.

Sequence of work when creating a BIM model

The formation of an isometric model in the framework of BIM design is carried out in stages.

1.    Preparation of primary components. Development of basic blocks — integral modules used in the formation of the Assembly: window frames, door structures, railings.

2.    Working with load-bearing elements. Preparation of parts used in construction: piles, lintels, floor slabs, partitions. Creating a solid or modular building Foundation. In the first case, a single model is developed, in the second-an Assembly.

3.    Forming an isometric projection. When the creation of BIM models is complete, it remains to put them together, getting a complete 3D object.

Individual models can participate in the final build. Components are positioned using a binding system. It guarantees precise placement of parts, eliminates misalignments and distortions.

BIM-design of engineering systems is carried out in the presence of a 3D model of the building. The engineer lays heating lines, drainage pipes, and highways. Forms the gas network and ventilation system.

BIM capabilities allow you to model lines of any configuration. The network adapts to the architectural features of the building, is easy to install, and is laid in a short time. All this and much more can be viewed at architectural bim services which has been providing high-quality services for more than one year.

Projects in BIM design contain additional information about the type and brand of materials used, delivery times, and logistics solutions.

 

When working on a building model, you can use temporary indicators. They are intended for solving specific tasks and are deleted after the goal is completed.

Stages of BIM operation

Typical BIM design in construction involves several stages.

·         Modeling. Engineers create a model that contains the architectural components of the building.

·         Software processing. The designed model is uploaded to the profile software package. Projections are taken from it, and drawings are prepared with the necessary views and sections. Using additional components The SOFTWARE helps you create a list of work volumes, estimates, and documents for organizing construction.

·         Design of engineering systems. Based on information about construction, specialists develop engineering networks. They can calculate lighting parameters, estimated heat losses, and the amount of energy needed to heat existing areas.

·         Preparation of projects for the organization of construction and production of works. By accumulating the available data. BIM allows you to generate and implement a schedule of work, prepare a complete list of related documentation.

·         Shortfall in logistics. The building model is supplemented with information about the materials used (types, volume, etc.).

The BIM model is used after construction is completed. It simplifies the operation and maintenance of the facility, and can be connected to existing sensors.

The operator working with the model monitors the processes occurring in the premises. This prevents premature wear of the equipment and allows you to take timely measures in case of an emergency situation.

What does BIM design solve in the construction industry?

The use of BIM technology and models allows you to avoid many problems in construction.

·         Non-compliance with market requirements. The BIM model provides a full range of data. It is highly detailed and helps you evaluate architectural, operational, and technological solutions.

·         Incorrect assessment of risks and resources required. Studying the design model provides a comprehensive understanding of logistics chains, the amount of material used, and labor costs. Investors know exactly how much it will cost to build a new house or industrial building. They can choose the best approach for working with the object and implementing their decisions.

·         Uncoordinated actions. All project participants have access to the main model. They are provided with information about deadlines, results achieved, and difficulties encountered.

·         Late payments. The project is prepared according to the established schedule. Well-coordinated interaction of structures guarantees timely order fulfillment.

·         Deviation from the project. Technical solutions in the field of construction, engineering and operation are subjected to in-depth analysis. The BIM system has advanced verification algorithms that detect most errors.

The actions of project participants in relation to the model are strictly recorded. This approach excludes poor-quality performance of work and guarantees compliance with the terms of the contract.

Benefits of BIM for project participants

The parties involved in the implementation of the project solution receive many advantages.

·         Informative model. BIM Assembly— information storage that contains all construction data. It is used to create progressive design solutions that prevent resource overruns and inefficient use of labor.

·         Excellent visualization. Investors get a clear idea of the architecture of the building. The data can be used to prepare classic presentations and virtual tours.

·         Efficiency of actions. BIM technology speeds up the preparation of project documentation in comparison with classical development methods. The customer receives the finished project in a short time.

·         Quality assurance. Existing errors are identified during the design process, not at the site. Installers and builders receive verified documents with accurate data.

·         Compliance with applicable regulations. BIM allows you to use standard nodes, ensures accurate compliance with the requirements of industry regulations. The engineers will use a complete set in their work.

·         Real-time tracking. Investors and responsible specialists can monitor how the work is progressing. They have access to a lot of tools that simplify control over personnel.

·         Processing of additional data. The system provides automatic uploading of surveys and test results. If necessary, a detailed report is generated that includes the requested information.

·         Easy calibration of construction machines. The project may contain parameters for configuring special equipment used on the construction site.

·         Solving financial issues. Specialists can adjust estimates and statements according to the current economic situation. This will eliminate problems in the event of higher prices for materials or higher prices for certain services in the labor market.

·         Interaction with contractors. Within the framework of the BIM project, databases of contractors are created. This simplifies the work of the accounting Department and speeds up the process of concluding contracts. A new way of controlling construction development programs is being formed.

·         Quick sale of buildings. A building built using BIM technology is easier to sell or rent out. Such facilities are easy to operate, and there are no problems during their maintenance, repair, or reconstruction.

 

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