Raised Floors

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The Importance of Insulation for Raised Floor Systems in Data Centers


Introduction

In the digital age, data centers are the backbone of our information infrastructure, housing critical equipment and ensuring seamless operations for businesses worldwide. A crucial component of maintaining an optimal environment within these data centers is the raised floor system. However, to maximize the efficiency and reliability of these systems, proper insulation is essential. This article delves into why insulation is important for raised floor systems in data center applications and recommends Armaflex insulation products from Rafindo as the ideal solution.

Why Insulation is Critical for Raised Floor Systems in Data Centers

1. Thermal Management:

Heat Dissipation: Data centers generate a significant amount of heat due to the high density of servers and other electronic equipment. Proper insulation helps manage this heat, preventing hotspots and ensuring even temperature distribution across the raised floor system.

Energy Efficiency: Insulation reduces the need for excessive cooling, leading to lower energy consumption and operational costs. This is crucial for maintaining a cost-effective and environmentally friendly data center.

2. Moisture Control:

Humidity Regulation: Data centers require precise humidity control to prevent static electricity buildup and corrosion of sensitive equipment. Insulated raised floors help maintain the ideal humidity levels by providing a barrier against moisture ingress.

Condensation Prevention: Proper insulation prevents condensation on cold surfaces under the raised floor, which could otherwise lead to water damage and equipment failure.

3. Noise Reduction:

Acoustic Insulation: Data centers can be noisy environments due to the constant operation of servers and cooling systems. Insulated raised floors help dampen this noise, creating a quieter and more pleasant working environment for technicians and staff.

4. Fire Safety:

Enhanced Fire Resistance: High-quality insulation materials can provide an additional layer of fire protection, helping to contain potential fires and reduce the spread of flames. This is critical for protecting both equipment and personnel in the event of an emergency.

5. Structural Integrity:

Improved Durability: Insulation adds to the overall structural integrity of the raised floor system, making it more robust and capable of supporting the weight of heavy equipment. This ensures long-term reliability and reduces the risk of structural failures.

Armaflex Insulation: The Ideal Choice for Data Centers

When it comes to insulation for raised floor systems in data centers, Armaflex insulation products from Rafindo stand out as the top choice. Here’s why:

1. Superior Thermal Performance:

• Armaflex insulation provides excellent thermal resistance, ensuring efficient heat management and energy savings for your data center.

2. Moisture and Condensation Control:

• With its closed-cell structure, Armaflex effectively prevents moisture ingress and condensation, safeguarding your equipment from potential water damage.

3. Noise Reduction Capabilities:

• Armaflex insulation offers superior acoustic insulation, helping to reduce noise levels and create a quieter working environment.

4. Fire Safety Compliance:

• Armaflex products are designed to meet stringent fire safety standards, providing an added layer of protection for your data center.

5. Durability and Longevity:

• Known for its high-quality materials, Armaflex insulation ensures long-lasting performance and enhances the structural integrity of your raised floor system.

By choosing Armaflex insulation from Rafindo, you are investing in a reliable, efficient, and safe solution for your data center’s raised floor system.

Conclusion

Insulation is a critical aspect of raised floor systems in data centers, offering benefits such as thermal management, moisture control, noise reduction, fire safety, and improved structural integrity. For the best results, consider Armaflex insulation products from Rafindo. With Armaflex, you can ensure that your data center operates efficiently, safely, and cost-effectively, providing a reliable foundation for your digital infrastructure.

Source

https://local.armacell.com/fileadmin/cms/engineered-systems/downloads/en/KnowHow/ArmaFlex_KnowHow.pdf

https://local.armacell.com/en/armacell-europe/applications/data-centres

https://www.datacenterknowledge.com/data-center-construction/how-the-right-data-center-floor-can-improve-efficiency-reliability

Keywords: Insulation for raised floor systems, data center insulation, thermal management in data centers, Armaflex insulation, Rafindo insulation products, moisture control in data centers, noise reduction, fire safety, structural integrity.

Seismic Resistant Raised Floors and Its Relevant Standards


Indonesia Seismic Hazard Map
Indonesia Seismic Hazard Map

Introduction

In earthquake-prone regions (i.e., Indonesia), the importance of seismic-resistant structures is paramount. Raised floors, often found in data centers, offices, and clean rooms, must be designed to withstand seismic forces to ensure safety and functionality. This blog provides an in-depth look at seismic-resistant raised floors, how they are made to be seismic resistant, their benefits, and the relevant standards, including SNI, ASCE 7, and Eurocode.

What is a Seismic Resistant Raised Floor?

A seismic-resistant raised floor is an elevated flooring system specifically designed to remain stable and secure during seismic events. These floors are engineered to prevent damage to the structure and ensure the safety of both occupants and equipment. Key components include durable panels, adjustable pedestals, stringers for additional support, and bracing systems to resist lateral forces.

How are Raised Floors Made to be Seismic Resistant?

Creating a seismic-resistant raised floor involves several key engineering and design practices:

1. Seismic Bracing:

  • Seismic bracing systems provide additional support to the raised floor by anchoring it securely to the building structure. This prevents the floor from shifting or collapsing during an earthquake.
  • Braces are strategically placed to absorb and distribute seismic forces, enhancing the stability of the floor.

2. Robust Pedestals:

  • Pedestals, the vertical supports of the raised floor, are designed to be robust and adjustable. They are made from high-strength materials to withstand seismic forces.
  • These pedestals are anchored securely to the subfloor to prevent movement during an earthquake.

3. Stringers:

  • Stringers are horizontal supports that connect the pedestals and add rigidity to the floor system.
  • They help distribute seismic forces evenly across the floor, reducing the risk of localized failure.

4. High-Quality Panels:

  • Panels used in seismic-resistant raised floors are made from durable materials capable of withstanding significant stress.
  • They are designed to remain intact and securely fastened to the pedestals and stringers during seismic events.

5. Connection Hardware:

  • All components are connected using high-quality hardware that ensures secure and stable connections.
  • This hardware is specifically chosen for its ability to resist seismic forces and prevent dislodging or failure.

Benefits of Seismic Resistant Raised Floors

  • Enhanced Safety: Protects occupants and equipment during earthquakes.
  • Operational Continuity: Minimizes downtime and damage to critical infrastructure.
  • Compliance with Standards: Meets local and international seismic standards.
  • Longevity and Durability: Designed to withstand seismic forces, reducing maintenance and replacement costs.

Relevant Seismic Standards

Understanding and adhering to seismic standards is crucial for the design and installation of raised floors. Here’s a look at some of the key standards:

SNI (Indonesian National Standard)

SNI 1726:2019 outlines the criteria for designing buildings and other structures to withstand earthquakes in Indonesia. For raised floors, it emphasizes the importance of:

Structural Integrity: Ensuring that raised floors are securely anchored.

Material Strength: Using high-quality materials that can withstand seismic forces.

Testing and Certification: Regular testing to ensure compliance with SNI standards.

Design Requirements: Specifications on load-bearing capacities and how to handle different seismic zones within Indonesia.

Construction Practices: Guidelines on the best practices for constructing raised floors to ensure they are seismic resistant.

ASCE 7 (American Society of Civil Engineers)

ASCE 7-22 is the latest version of the standard providing minimum design loads for buildings and other structures in the United States. It includes:

Seismic Design Categories (SDCs): Classification of structures based on their risk and seismic activity in the region.

Load Combinations: Guidelines on combining seismic loads with other forces like wind and gravity.

Component Design: Specific requirements for nonstructural components, including raised floors, to ensure they remain intact during seismic events.

Performance-Based Design: Allows for the use of advanced modeling techniques to predict how structures will perform during seismic events.

Detailed Site Analysis: Includes guidelines for conducting site-specific seismic hazard analyses to better design for localized conditions.

Eurocode (European Standard)

Eurocode 8 (EN 1998) deals with the design of structures for earthquake resistance within the European Union. Key aspects include:

Design Principles: Ensuring that structures can sustain limited damage during minor earthquakes and avoid collapse during major ones.

Ductility and Strength: Requirements for the materials and construction techniques to ensure they can absorb and dissipate energy.

Detailed Specifications: For various types of structures, including nonstructural components like raised floors.

Seismic Action Representation: Guidelines on how to represent seismic action through models and simulations.

Material Quality Control: Emphasizes the use of high-quality materials and regular testing to ensure compliance and durability.

Implementing Seismic Resistant Raised Floors

To ensure your raised floor system meets the necessary seismic standards, follow these steps:

1. Assessment: Conduct a thorough site assessment to understand the seismic risks.

2. Design: Work with experienced engineers to design a raised floor system that meets or exceeds the relevant standards.

3. Material Selection: Use high-quality materials that comply with SNI, ASCE 7, and Eurocode requirements.

4. Installation: Ensure proper installation with secure anchoring, bracing, and connection hardware.

5. Regular Maintenance: Perform regular inspections and maintenance to ensure ongoing compliance and functionality.

Why Choose MIRA Saito Seismic Resistant Raised Floor System?

When it comes to ensuring quality and adherence to national standards, the MIRA Saito Seismic Resistant Raised Floor System stands out for several reasons:

1. Superior Engineering:

  • MIRA Saito uses state-of-the-art engineering techniques to design raised floors that meet the highest standards of seismic resistance.
  • The system is thoroughly tested to ensure it can withstand significant seismic forces, providing peace of mind in earthquake-prone areas.

2. Compliance with International Standards:

  • MIRA Saito systems comply with SNI, ASCE 7, and Eurocode standards, ensuring that your raised floor meets all necessary regulations and guidelines.
  • This compliance is verified through rigorous testing and certification processes.

3. High-Quality Materials:

  • Only the best materials are used in the construction of MIRA Saito raised floors. These materials are chosen for their strength, durability, and ability to withstand seismic forces.
  • The use of high-quality materials ensures longevity and reduces the need for frequent maintenance or replacement.

4. Advanced Seismic Bracing:

  • The MIRA Saito system incorporates advanced seismic bracing techniques to enhance the stability of the raised floor.
  • These bracing systems are designed to absorb and distribute seismic forces effectively, reducing the risk of damage during an earthquake.

5. Customizable Solutions:

  • MIRA Saito offers customizable raised floor solutions tailored to the specific needs and requirements of your facility.
  • This flexibility ensures that your raised floor system is perfectly suited to your environment and operational needs.

6. Expert Support and Installation:

  • As MIRA Saito’s official partner in Indonesia, Rafindo provides expert support throughout the design, installation, and maintenance processes.
  • Their experienced professionals ensure that your raised floor system is installed correctly and functions optimally.

Conclusion

Seismic-resistant raised floors are essential in ensuring the safety and continuity of operations in earthquake-prone areas. By adhering to standards like SNI, ASCE 7, and Eurocode, you can ensure that your raised floor system is robust, reliable, and capable of withstanding seismic forces. Choosing a trusted provider like MIRA Saito further guarantees quality, compliance, and long-term durability, providing peace of mind and enhanced safety for your facility.

Keywords: Seismic resistant raised floor, SNI 1726, ASCE 7-22, Eurocode 8, earthquake-resistant flooring, raised floor standards, seismic design, structural integrity, operational continuity, safety in earthquake-prone areas, seismic bracing, robust pedestals, high-quality panels, connection hardware, MIRA Saito raised floor system.

Understanding Raised Floors: A Comprehensive Guide by Rafindo


What is a Raised Floor?

A raised floor, also known as an access floor, is an elevated flooring system installed above the building’s original concrete slab floor, creating a hidden void for the passage of mechanical and electrical services. This innovative flooring solution is commonly used in various commercial and industrial environments, including data centers, offices, laboratories, and control rooms.

Key Benefits of Raised Floors

  • Improved Cable Management: One of the primary advantages of raised floors is the enhanced organization and management of cables, wires, and other utilities. By providing a dedicated space beneath the floor, it eliminates the clutter of cables, ensuring a clean and safe environment.
  • Enhanced Cooling and Airflow: Raised floors facilitate efficient cooling and ventilation. The underfloor space can be used to distribute conditioned air, significantly improving the overall airflow and cooling efficiency of the room, which is particularly crucial in data centers and server rooms.
  • Flexibility and Accessibility: Raised floors offer unparalleled flexibility. They allow for easy reconfiguration and access to the underfloor services, making maintenance and future upgrades straightforward and cost-effective. This adaptability is ideal for dynamic office spaces and rapidly changing technological environments.
  • Aesthetic Appeal: By concealing unsightly cables and equipment, raised floors contribute to a clean and professional appearance. This not only enhances the aesthetic appeal but also creates a safer and more organized workspace.

Applications of Raised Floors

  • Data Centers: Data centers benefit significantly from raised floors due to the critical need for efficient cable management, cooling, and adaptability to technological advancements.
  • Commercial Offices: In modern office spaces, raised floors provide the flexibility to accommodate evolving technology needs and office layouts, ensuring a future-proof solution.
  • Control Rooms and Laboratories: These environments require stringent organization and accessibility to various utilities, making raised floors an ideal choice for maintaining order and efficiency.

Why Choose Rafindo for Your Raised Floor Needs?

At Rafindo, we specialize in providing high-quality raised floor solutions tailored to meet the specific needs of our clients. Our team of experts ensures seamless installation and maintenance, guaranteeing optimal performance and longevity of your raised floor system. With Rafindo, you can expect:

  • Quality Products: We offer a wide range of raised floor panels and accessories, sourced from reputable manufacturers to ensure durability and reliability.
  • Expert Installation: Our experienced technicians are trained to install raised floors efficiently and accurately, minimizing disruption to your operations.
  • Custom Solutions: We understand that every project is unique. That’s why we provide customized raised floor solutions designed to meet your specific requirements and preferences.

Conclusion

Raised floors are an essential component in modern commercial and industrial spaces, offering numerous benefits including improved cable management, enhanced cooling, and greater flexibility. Rafindo is committed to delivering top-notch raised floor solutions that meet the highest standards of quality and performance. Contact us today to learn more about how we can help you achieve a more efficient and organized workspace.

By following this guide, you can improve your understanding of raised floors and discover how Rafindo can provide the ideal solution for your needs. For more information, visit our website or reach out to our dedicated team.

Sources

1. https://www.spectracf.com/raised-floor-systems-explained/

2. https://www.techtarget.com/searchdatacenter/definition/raised-floor

3. https://www.raisedfloor.co.uk/what-is-raised-access-flooring/

Pentingnya Sertifikasi LEED dan Green untuk Raised Floor


LEED Certificate Logo
LEED Certificate Logo

Apa Itu Sertifikasi LEED dan Green?

Sertifikasi LEED (Leadership in Energy and Environmental Design) dan sertifikasi Green adalah dua standar yang diakui secara internasional untuk desain, konstruksi, operasi, dan pemeliharaan bangunan hijau yang ramah lingkungan. Sertifikasi ini diberikan kepada bangunan yang memenuhi kriteria tertentu dalam hal efisiensi energi, penggunaan air, kualitas udara dalam ruangan, dan penggunaan bahan bangunan yang berkelanjutan.

Manfaat Raised Floor dalam Mendukung Sertifikasi LEED dan Green

1. Efisiensi Energi

Raised floor memungkinkan distribusi udara yang efisien di bawah lantai, yang dapat meningkatkan kinerja sistem HVAC (Heating, Ventilation, and Air Conditioning). Dengan demikian, bangunan dapat mengurangi konsumsi energi dan meningkatkan efisiensi termal, yang merupakan salah satu kriteria utama dalam sertifikasi LEED.

2. Penggunaan Material Ramah Lingkungan

Raised floor modern sering dibuat dari bahan yang ramah lingkungan dan dapat didaur ulang. Menggunakan bahan yang berkelanjutan membantu bangunan memenuhi persyaratan material dalam sertifikasi LEED dan Green.

3. Kualitas Udara dalam Ruangan

Sistem raised floor membantu dalam mengatur sirkulasi udara dan mengurangi polusi udara dalam ruangan dengan menyembunyikan kabel dan pipa yang bisa mengumpulkan debu dan partikel berbahaya. Ini berkontribusi pada lingkungan yang lebih sehat dan memenuhi standar kualitas udara dalam sertifikasi Green.

4. Manajemen Limbah Konstruksi

Raised floor dapat dipasang dengan gangguan minimal terhadap struktur bangunan yang ada, mengurangi limbah konstruksi. Proses ini mendukung poin dalam sertifikasi LEED terkait dengan pengurangan limbah dan manajemen konstruksi yang efisien.

Aplikasi Raised Floor dalam Bangunan Bersertifikat LEED dan Green

1. Data Center

Data center memerlukan pendinginan dan manajemen kabel yang efisien. Raised floor menyediakan solusi ideal untuk distribusi udara dan pengaturan kabel, membantu data center memenuhi kriteria efisiensi energi dan manajemen material.

2. Kantor Komersial

Raised floor memberikan fleksibilitas untuk pengaturan ulang ruang kantor dan integrasi teknologi baru tanpa perlu merusak struktur bangunan, yang sangat penting untuk mempertahankan sertifikasi hijau.

3. Laboratorium dan Ruang Kontrol

Lingkungan ini membutuhkan pengaturan dan aksesibilitas yang ketat untuk berbagai utilitas. Raised floor membantu dalam menciptakan ruang kerja yang teratur dan efisien, sesuai dengan standar kualitas udara dan efisiensi energi.

Mengapa Memilih Rafindo untuk Kebutuhan Raised Floor Anda?

Di Rafindo, kami berkomitmen untuk menyediakan solusi raised floor berkualitas tinggi yang mendukung tujuan keberlanjutan dan sertifikasi hijau Anda. Berikut adalah alasan untuk memilih kami:

  • Produk Berkualitas: Kami menawarkan berbagai panel raised floor dan aksesori yang dibuat dari bahan berkualitas tinggi dan ramah lingkungan.
  • Instalasi Profesional: Teknisi berpengalaman kami terlatih untuk memasang raised floor dengan efisien dan akurat, memastikan minimal gangguan pada operasi Anda.
  • Solusi Kustom: Kami memahami bahwa setiap proyek unik. Oleh karena itu, kami menyediakan solusi raised floor yang disesuaikan untuk memenuhi kebutuhan dan preferensi spesifik Anda.

Kesimpulan

Sertifikasi LEED dan Green menjadi semakin penting dalam dunia konstruksi modern, dan raised floor memainkan peran kunci dalam membantu bangunan mencapai standar ini. Dengan memilih Rafindo, Anda mendapatkan solusi raised floor yang tidak hanya berkualitas tinggi tetapi juga mendukung upaya keberlanjutan Anda. Hubungi kami hari ini untuk mempelajari lebih lanjut tentang bagaimana kami dapat membantu Anda mencapai lingkungan kerja yang lebih efisien dan ramah lingkungan.

Dengan panduan ini, Anda dapat memahami pentingnya sertifikasi LEED dan Green serta bagaimana raised floor dapat mendukung pencapaian sertifikasi tersebut. Untuk informasi lebih lanjut, kunjungi situs web kami atau hubungi tim kami yang berdedikasi.

Source

https://www.usgbc.org/tools/leed-certification/commercial

https://en.wikipedia.org/wiki/LEED

Mengenal Standar PSA dan MOB untuk Raised Floor


PSA MOB Standard for Access Floor

Apa Itu Standar PSA dan MOB?

Standar PSA (Publicly Available Specification) dan MOB (Mobility) adalah spesifikasi yang diakui secara internasional untuk memastikan kualitas dan kinerja raised floor. Kedua standar ini menilai aspek kekuatan, daya tahan, dan stabilitas raised floor di berbagai kondisi operasional. Memiliki raised floor yang memenuhi standar PSA atau MOB berarti Anda memilih produk yang telah terbukti andal dan tahan lama untuk berbagai aplikasi komersial dan industri.

Keunggulan Raised Floor Bersertifikasi PSA dan MOB

1. Kekuatan yang Teruji

Raised floor yang telah memenuhi standar PSA dan MOB dirancang untuk menahan beban berat dan tekanan tinggi. Ini sangat penting untuk area yang sering dilalui banyak orang atau peralatan berat seperti data center dan ruang server.

2. Stabilitas yang Andal

Raised floor bersertifikasi PSA dan MOB menawarkan stabilitas yang luar biasa, mengurangi risiko kerusakan dan memastikan keamanan di tempat kerja. Stabilitas ini sangat penting untuk menjaga keamanan peralatan dan personel.

3. Daya Tahan Tinggi

Produk yang memenuhi standar PSA dan MOB telah melalui pengujian ketat untuk memastikan daya tahan dalam jangka panjang. Ini berarti investasi Anda dalam raised floor akan bertahan lama dan memberikan nilai tambah yang signifikan.

4. Fleksibilitas dan Kemudahan Akses

Raised floor dengan sertifikasi PSA dan MOB memberikan fleksibilitas dalam penataan ulang dan aksesibilitas ke infrastruktur bawah lantai. Ini sangat berguna untuk ruang yang membutuhkan perubahan konfigurasi secara berkala.

Aplikasi Raised Floor Bersertifikasi PSA dan MOB

Data Center

Data center memerlukan raised floor yang kuat untuk menahan beban server dan peralatan TI. Standar PSA dan MOB memastikan raised floor dapat menangani beban ini dengan aman dan efisien.

Ruang Server

Raised floor di ruang server membantu dalam manajemen kabel dan pendinginan. Standar PSA dan MOB memastikan lantai dapat mendukung kebutuhan operasional ini tanpa mengorbankan stabilitas dan keamanan.

Kantor Komersial

Di lingkungan kantor komersial, raised floor memberikan fleksibilitas untuk perubahan tata letak dan instalasi teknologi baru. Standar PSA dan MOB memastikan lantai tetap aman dan stabil meskipun ada perubahan.

Laboratorium dan Ruang Kontrol

Raised floor di laboratorium dan ruang kontrol harus kuat dan stabil untuk mendukung peralatan sensitif. Standar PSA dan MOB memastikan bahwa lantai dapat memenuhi kebutuhan ini dengan andal.

Mengapa Memilih Rafindo untuk Raised Floor Bersertifikasi PSA dan MOB?

Di Rafindo, kami menawarkan raised floor bersertifikasi PSA dan MOB untuk memastikan Anda mendapatkan solusi yang memenuhi standar kualitas tertinggi. Berikut beberapa alasan untuk memilih kami:

Produk Berkualitas Tinggi

Raised floor kami dibuat dari bahan berkualitas tinggi yang telah lulus pengujian ketat sesuai standar PSA dan MOB. Ini memastikan daya tahan dan kinerja optimal dalam jangka panjang.

Layanan Profesional

Tim teknisi berpengalaman kami siap memberikan layanan instalasi yang cepat dan efisien, memastikan raised floor Anda terpasang dengan benar dan siap digunakan.

Solusi Kustom

Kami memahami bahwa setiap proyek memiliki kebutuhan unik. Oleh karena itu, kami menawarkan solusi raised floor yang dapat disesuaikan dengan spesifikasi dan preferensi Anda.

Kesimpulan

Standar PSA dan MOB memberikan jaminan kualitas dan kinerja untuk raised floor di berbagai aplikasi komersial dan industri. Dengan memilih Rafindo, Anda mendapatkan raised floor yang memenuhi standar internasional ini, memberikan keamanan, stabilitas, dan daya tahan yang Anda butuhkan. Hubungi kami hari ini untuk mengetahui lebih lanjut tentang solusi raised floor bersertifikasi PSA dan MOB yang kami tawarkan.

Dengan artikel ini, Anda bisa memahami pentingnya standar PSA dan MOB untuk raised floor dan bagaimana Rafindo dapat menyediakan solusi yang memenuhi standar tersebut. Untuk informasi lebih lanjut, kunjungi situs web kami atau hubungi tim kami yang berdedikasi.

Sumber

https://theafa.com/specification

https://www.rmf-services.co.uk/_userfiles/pages/files/psaafaguidemay2021.pdf

Spesifikasi Umum Raised Floor


Pada umumnya ketika memikirkan raised floor untuk proyek yang sedang kita kerjakan, timbul pertanyaan pertanyaan sebagai berikut:

  1. Berapa ketinggian raised floor dan area void yang diperlukan untuk jalur infrastruktur?
    Untuk menentukan ini, ada beberapa faktor yang perlu di pikiran, misalnya:
    – total ketinggian slab to slab sehingga diketahui apakah tinggi raised floor to slab masih mencukupi setelah raised floor terpasang.
    – Kebutuhan tinggi minimal untuk infrastruktur yang akan diletakan di bawah lantai, dan berapa space yang dibutuhkan, misalnya untuk angin A/C bisa bersirkulasi dengan optimal. Hal hal seperti ini bisa di konsultasikan dengan tim produk yang akan dipasang.

    Apabila di ruangan sudah ada jendela, saklar dan stop kontak, maka perlu di cek posisi item item tersebut setelah dikurangi ketinggian lantai raised floor, apakah masih pada ketinggian yang nyaman untuk pengguna?

    Setelah memutuskan ketinggian raised floor, hal lainnya yang perlu dipikirkan adalah jalur ramp dan tangga. Untuk ramp, standard internasionalnya adalah 1:12, yaitu untuk ketinggian 10 cm maka panjang ramp nya adalah 120 cm. Namun, apabila ruangan sepanjang itu tidak tersedia, kami bisa menyarankan penerjalan sampai rasio 1:6.
    untuk mengetahui lebih lanjut mengenai desain ramp, silakan merefer ke artikel berikut ini:
    https://www.archdaily.com/895487/how-to-design-and-calculate-a-ramp

    Sedangkan untuk penggunaan tangga hanya diperlukan jarak standard pada umumnya.
  2. Bahan yang di perlukan. Di Indonesia, umumnya raised floor menggunakan jenis pilihan cementitious steel panel dan jenis calcium sulphate. Meskipun keduanya sama sama raised floor, ada perbedaan yang cukup banyak diantara kedua nya. Pastikan dengan user dan konsultan mengenai produk mana yang dibutuhkan untuk digunakan di proyek Anda.

    Bahan lain nya adalah tipe aluminium solid panel dan perforated panel. Type yang terakhir ini khusus dipakai untuk ruangan tertentu dengan kebutuhan khusus, misalnya clean room dan laboratorium.

    Dimensi panjang dan lebar tile raised floor yang umum dipakai di Indonesia adalah 600 x 600 mm, namun ada juga tile dengan ukuran 24″ X 24″ dan 500 mm x 500 mm yang umum digunakan di Amerika dan Jepang. Pastikan anda menggunakan ukuran 600 x 600 mm untuk kemudahan anda di masa mendatang ketika suatu saat diperlukan penggantian atau penambahan.
Raised Floor System at various installation site: Computer Room, Electrical Room, Office

Apa Itu Raised Floor?


Raised Floor System adalah sistem lantai yang memberikan flexibilitas dan jalur (pathway) untuk infrastruktur Mekanikal Elektrikal yang diperlukan pada gedung kantor, pabrik, data center dan fasilitas lainnya. Sistem lantai ini menggunakan kaki untuk menambah ketinggian sesuai namanya, Raised Floor system.

This image has an empty alt attribute; its file name is raised-floor-500x500-1-edited.jpeg
Penjelasan Lengkap Raised Floor, Lantai Ruang Server Dan Data Center –  Analisa Harga Satuan

Raised Floor System terdiri dari
1. Panel lantai yang umumnya berukuran 60 cm x 60 cm dengan ketebalan 30 ~ 35 mm
2. Pedestal
3. Stringer

Dibagian bawah raised floor system, dapat digunakan untuk jalur kabel tray untuk listrik, telepon maupun data. Selain kabel tray, umumnya di bawah raised floor dapat ditemukan pipa pipa untuk A/C maupun plumbing.

Pada ruang data center atau ruang server, raised floor mempunyai fungsi tambahan sebagai ducting A/C untuk mendinginkan perangkat komputer. Salah satu teknik paling efisien dalam pendinginan ruang komputer, desainer menggunakan cold aisle dan hot aisle untuk menyalurkan udara A/C ke rak server dan perangkat yang bergantung pada raised floor system.

Beberapa spesifikasi raised floor yang harus dipenuhi adalah sebagai berikut:
1. Kekuatan terpusat dan merata sesuai kebutuhan barang diatasnya
2. Safety factor
3. Antistatic conductivity
4. Keakuratan dimensi serta squareness dari produk tersebut
5. Sistem anti karat dan umur produk

Spesifikasi serta standard produk raised floor dapat dilihat lebih lengkapnya melalui standard PSA MOB PF2 PS/SPU

Ketinggian raised floor dapat bervariasi dari tinggi FFL 10 cm sampai > dari 150 cm

Sumber

  1. https://www.raisedfloor.co.uk/what-is-raised-access-flooring/
  2. https://www.techtarget.com/searchdatacenter/definition/raised-floor
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