Assembly hall of a comprehensive school
Using acoustic and electroacoustic modeling in the EASE program, the best connection between electroacoustics and acoustics of the hall was created.
The locations of the Akustov Audek-NG panels were selected, as well as the suspension points of the acoustic systems with direction angles.
The implementation of the project for finishing and installing technological equipment (sound amplification equipment, video projection equipment, stage lighting) according to our project, was carried out by our company.
The installation of acoustic panels was carried out on a special frame. Suspended ceiling acoustic materials are installed on a special frame.
Our company has completed a full range of finishing works in the assembly hall to meet all the criteria for acoustic finishing.
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Large assembly halls are equipped with a special system of additional sound amplification. This is necessary to ensure unique sound input and transmission at any point. There are assembly halls where natural sound is enough, for example, in schools or small cultural centers, such premises are small.
The first and important parameter that is taken into account in acoustic design is the area of the potential assembly hall. When it is small, there is no need. The second significant factor is the number of spectators. A large number of visitors will distort natural vibrations, will not allow echo to form, and will create other interference that deforms the sound.
1. Defining system requirements: Before you begin designing, you need to define the system requirements. This may include power, frequency range, number of channels, etc.
2. Selecting components: Once you have defined the requirements, you need to select the system components. These may include amplifiers, speakers, mixing consoles, cables, etc. It is important to select components that meet the requirements and provide the best sound quality.
3. Designing the circuit: This step requires you to design a system circuit that includes all the components and how they are connected. The circuit must be logical and efficient to ensure the best sound quality.
4. Testing the system: Once the circuit has been designed, you need to test the system to ensure it is working. This may include checking all the components and connections, as well as testing the sound at different power levels.
5. Tuning the system: Once you have successfully tested the system, you need to tune it for the best sound quality. This may include adjusting volume levels, channel balance, phase correction, etc.
Designing sound reinforcement systems for any facilities: assembly halls, theaters, community centers, concert venues.
We design together with acoustic calculations, which is required for examination and verification of the correctness of the arrangement of acoustic systems.
- we develop projects of the "P" and "RD" stages for MGE and DONM, taking into account all requirements;
- we develop projects for SOUE
High-quality acoustics in a house or apartment will allow you to enjoy watching TV series, movies or listening to music. With its help, the sound becomes more pleasant, clear, and spectacular. However, for these purposes, it is necessary to properly install and configure the equipment itself.
The owner of the home can do this on his own, but he will spend a lot of nerves and time. Therefore, a more reasonable solution would be to contact specialists. Our company installs a sound system at an affordable cost. We guarantee quality and strict adherence to deadlines.
