OUR PRODUCTS & SERVICES
FREE STANDING
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a free-standing electrical panel refers to a self-supporting enclosure that houses electrical components for power distribution and protection within a building.
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A free-standing electrical panel is a self-supported box that contains electrical parts for distributing and
A free-standing electrical panel is a self-supported box that contains electrical parts for distributing and protecting power. Unlike wall-mounted ones, these
A free-standing electrical panel is a self-supported box that contains electrical parts for distributing and protecting power. Unlike wall-mounted ones, these panels can stand independently, providing more flexibility in placing them around
A free-standing electrical panel is a self-supported box that contains electrical parts for distributing and protecting power. Unlike wall-mounted ones, these panels can stand independently, providing more flexibility in placing them around a building, particularly in big commercial areas or
A free-standing electrical panel is a self-supported box that contains electrical parts for distributing and protecting power. Unlike wall-mounted ones, these panels can stand independently, providing more flexibility in placing them around a building, particularly in big commercial areas or industrial locations. They are easier to reach for maintenance but require more floor area
A free-standing electrical panel is a self
A free-standing electrical panel is a self-supported box with electrical parts for distributing power. Standalone,
A free-standing electrical panel is a self-supported box with electrical parts for distributing power. Standalone, it offers flexibility in placement, common in large commercial or industrial
A free-standing electrical panel is a self-supported box with electrical parts for distributing power. Standalone, it offers flexibility in placement, common in large commercial or industrial sites. Accessible for maintenance, needs more space.
LASER CUTTING
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Laser cutting is a technology that utilizes a focused laser beam to cut various materials with high precision.
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Light Amplification: "Laser" stands for Light Amplification by Stimulated Emission of Radiation. The laser system generates a highly concentrated beam of light.
Material Interaction: This powerful laser beam is directed towards the material to be cut. The intense heat from the laser beam melts, vaporizes, or burns through the material along the desired cutting path, creating a clean and precise edge.
Computerized Control: The entire process is controlled by a computer numerical control (CNC) system. This ensures the laser beam follows the programmed cutting path with exceptional accuracy, allowing for intricate designs and complex shapes.
Benefits of Laser Cutting:
High Precision: Laser cutting offers unmatched precision compared to traditional cutting methods. You can achieve intricate details and clean edges with minimal material waste.
Material Versatility: Lasers can cut a wide range of materials, including metals, plastics, wood, glass, and even some fabrics (compatibility may vary).
Fast and Efficient: The laser cutting process is relatively fast, making it suitable for high-volume production runs.
Clean Cuts: Laser cutting minimizes burrs or rough edges, often eliminating the need for secondary finishing processes.
Complex Designs: The ability to follow intricate computer-controlled paths allows for the creation of complex shapes and designs.
Applications of Laser Cutting:
Metal Fabrication: Laser cutting plays a crucial role in metal fabrication for cutting sheet metal, tubes, and profiles for various applications.
Prototyping: Laser cutting is ideal for creating rapid prototypes due to its speed and precision.
Signage and Displays: The ability to cut intricate designs makes laser cutting perfect for creating signage, displays,and other promotional materials.
METAL DOOR MATERIAL
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Metal doors offer a combination of strength, security, and fire resistance, making them a popular choice for various applications. But with different metal options available, selecting the right material is crucial.
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Door Construction: Solid core metal doors offer the highest level of security and noise reduction. Hollow metal doors with honeycomb cores are lighter and more cost-effective, but provide less sound insulation.
Door Gauge: The thickness of the metal (gauge) affects the door's strength and weight. Higher gauge numbers indicate a thinner material (e.g., 18 gauge is thinner than 14 gauge). Choose the gauge based on the required security level.
Door Frame: The door frame material should complement the door material for optimal performance. Steel door frames are commonly used with steel doors for maximum strength.
INTERIOR PRODUCTS
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It all begins with an idea. Maybe you want to launch a business. Maybe you want to turn a hobby into something more.
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Function: Consider the intended use of the space and choose products that meet your functional needs.
Style: Select interior products that reflect your desired aesthetic, whether it's modern, minimalist, traditional, or eclectic.
Scale and Proportion: Choose furniture and décor that are appropriately sized for the space to avoid overwhelming the room.
Color and Pattern: Utilize color and pattern to create harmony or add visual interest to the space.
OTHERS PRODUCT
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We not just that, we can do more than that, as long as that we discuss together.
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Depending how its works gilbi can also arrange various products not just limited to about electric panel and electric accessories.
WALL MOUNTING
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wall-mounted electrical panels are designed to be secured directly onto a wall within a building.
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Wall-Mounted: These panels are installed directly onto a sturdy wall, utilizing brackets or other mounting hardware for secure attachment.
Space-Saving: By mounting on the wall, they take up minimal floor space, making them ideal for areas with limited floor area or where aesthetics are a concern.
Power Distribution: Similar to free-standing panels, they function as a central hub for distributing electrical power and offer circuit protection with breakers.
Wall-mounted electrical panels are commonly found in:
Residential buildings: Most homes utilize wall-mounted electrical panels to manage power distribution throughout the house.
Smaller commercial spaces: Offices, retail stores, and other smaller commercial buildings often use wall-mounted panels due to their space-saving design and suitability for handling the typical power demands.
Here are some advantages of wall-mounted electrical panels:
Space-Efficient: They maximize floor space by utilizing wall surfaces for installation.
Cost-Effective: Generally less expensive than free-standing panels due to simpler design and material requirements.
Discreet Placement: Wall mounting allows for a more discreet placement, potentially blending in better with the surroundings.
CABBLE TRAY
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Cable trays, also known as ladder trays or cable runways, are support systems designed to organize and route electrical cables, data cables, and other electrical conductors within a building or facility.
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Organization: Cable trays help keep cables organized and separated, preventing tangled messes and improving accessibility for maintenance or troubleshooting.
Protection: They provide a physical barrier for cables, shielding them from potential damage caused by foot traffic,falling objects, or accidental cuts.
Ventilation: Cable trays allow for better air circulation around the cables, which helps to prevent overheating and maintain optimal operating temperatures.
POWDER COATING
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Powder coating is a dry finishing process that provides a high-quality, durable, and eco-friendly alternative to traditional liquid paint.
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Benefits of Powder Coating:
Durability: Powder coating offers superior resistance to scratches, chipping, fading, and UV rays compared to traditional paint.
Eco-Friendly: The process uses minimal solvents, reducing environmental impact compared to solvent-based paints.
Versatility: A wide variety of powder colors, textures, and finishes are available, allowing for customization to suit different aesthetic and functional needs.
Uniform Coating: The electrostatic application ensures a smooth, even coating with minimal waste.
Cost-Effective: While the initial setup costs might be higher, powder coating can be more cost-effective in the long run due to its durability and reduced need for re-application.
Applications of Powder Coating:
Metal Fabrication: Widely used in metal fabrication for coating various components, including appliances,furniture, electronics enclosures, and architectural elements.
Automotive Industry: Used for coating wheels, engine parts, and other automotive components.
Construction Industry: Applied to building materials like railings, window frames, and metal panels.
Consumer Goods: Coating for bicycles, electronics, sporting goods, and other consumer products.
Choosing a Powder Coating Finish:
Gloss Levels: Powder coating offers a wide range of gloss levels, from matte to high gloss, allowing for design flexibility.
Textures: Textured powder coatings can hide surface imperfections and provide a unique aesthetic appeal.Common textures include wrinkle, hammertone, and sandblasted finishes.
Functional Coatings: Beyond aesthetics, some powder coatings offer additional functionalities like anti-corrosion properties or electrical conductivity.
Overall, powder coating is a valuable finishing technique for various applications. Its durability, eco-friendliness, and versatility make it a popular choice for projects requiring a high-quality, long-lasting finish.
STAINLESS PRODUCT
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It all begins with an idea. Maybe you want to launch a business. Maybe you want to turn a hobby into something more.
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Durability: Stainless steel is highly resistant to rust, corrosion, dents, and scratches, making it a long-lasting material for interior products.
Hygiene: The non-porous surface of stainless steel inhibits the growth of bacteria and mold, making it a hygienic choice for kitchens and bathrooms.
Easy Maintenance: Stainless steel is generally easy to clean and maintain with just soap, water, and a microfiber cloth.
Modern Aesthetic: The sleek and polished look of stainless steel complements various design styles, from modern to industrial chic.
Fire Resistance: Stainless steel has a high melting point, making it a fire-resistant material for certain applications.
FACADE MATERIAL
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Facade design refers to the exterior appearance of a building, encompassing all elements that form the building's "face" to the world. It goes beyond just aesthetics and plays a crucial role in a building's functionality, sustainability, and overall user experience.
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Aesthetics: The visual appeal of the facade is a major consideration. Architects use various materials, colors,textures, and architectural elements to create a visually striking and harmonious design that reflects the building's purpose and style.
Functionality: A well-designed facade should consider factors like weatherproofing, insulation, solar control, and natural light penetration. The chosen materials and design elements should contribute to the building's energy efficiency and occupant comfort.
Sustainability: Modern facade design embraces sustainable practices. This may involve using recycled materials,incorporating energy-efficient features like double-glazed windows, or designing for natural ventilation to reduce reliance on mechanical systems.
Building Envelope: The facade forms the building's outermost layer, also known as the building envelope. This envelope acts as a barrier between the interior and exterior environment, and its design significantly impacts the building's overall performance.
Current Trends in Facade Design:
Minimalism: Clean lines, simple geometries, and neutral color palettes are popular choices for a modern and sophisticated look.
Biophilic Design: Integrating natural elements like plants or nature-inspired patterns into the facade fosters a connection with the outdoors and promotes occupant well-being.
Smart Technologies: Integration of smart technologies like self-cleaning or self-regulating materials is gaining traction, enhancing facade functionality and reducing maintenance needs.
Material Innovation: New and innovative materials are constantly emerging, offering architects more options to achieve unique visual effects and improved performance characteristics.
LADDER TRAY
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Ladder tray, also known as cable ladder, is the most widely used type of cable tray system. It's a robust and versatile solution for supporting and routing electrical cables, data cables, and other conductors within a building or facility.
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Structure:
Side Rails: The foundation of the ladder tray consists of two longitudinal side rails that run parallel to each other.These rails are typically made from steel or aluminum, offering durability and strength for supporting cable weight.
Rungs: The side rails are connected by a series of transverse rungs at regular intervals. These rungs create a "ladder-like" structure that provides several benefits:
Support: The rungs act as a platform for cables to rest on, ensuring proper spacing and preventing them from bunching together.
Cable Management: Rungs allow for easy cable bundling and organization using cable ties or straps. This keeps cables separated and simplifies identification during maintenance.
Anchoring Points: The rungs serve as convenient anchor points for securing cables, especially in vertical cable runs or areas where maintaining cable position is crucial.
Perforations: Some ladder trays feature perforated rungs or side rails. These perforations offer several advantages:
Ventilation: Improved air circulation around the cables helps dissipate heat and maintain optimal operating temperatures, particularly important for high-power applications.
Weight Reduction: Perforations reduce the weight of the tray itself, making it easier to handle and install.
Benefits of Ladder Trays:
Strength and Durability: The robust construction of ladder trays allows them to support heavy cable loads,making them suitable for demanding applications.
Versatility: Ladder trays are available in various sizes, material options, and configurations to accommodate different cable types, quantities, and weight requirements.
Easy Installation: The simple design makes ladder trays relatively quick and straightforward to install, even for complex cable routing needs.
Cost-Effective: Compared to alternative cable management solutions like conduit systems, ladder trays offer a more cost-efficient option, especially for large-scale projects.
Accessibility: The open design of ladder trays allows for easy access to cables for maintenance, troubleshooting, or future additions.
Applications of Ladder Trays:
Construction: Widely used in commercial and industrial buildings to manage electrical and data cabling systems.
Data Centers: Essential for organizing the vast network of cables required in data centers.
Power Plants: Used to route and protect high-voltage power cables.
Manufacturing Facilities: Ladder trays help manage complex electrical systems within factories and production lines.
Telecommunication Facilities: Utilize ladder trays for routing and organizing telecommunication cabling infrastructure.
WEILDING
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Welding is a powerful and versatile process that permanently joins pieces of metal (and sometimes thermoplastics) by applying heat
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The selection of the welding process depends on several factors, including:
Type of metal: Different metals have different welding characteristics, requiring specific processes for optimal results.
Material thickness: The thickness of the metal being welded will influence the heat source required and the overall welding approach.
Joint configuration: The type of joint (butt joint, lap joint, corner joint, etc.) can also influence the choice of welding process.
Desired weld properties: Some processes offer stronger or more aesthetically pleasing welds than others.
Applications of Welding:
Welding is a fundamental skill used in various industries, including:
Construction: Building bridges, ships, pipelines, and other structures.
Manufacturing: Creating automobiles, machinery, appliances, and countless other metal products.
Repair and Maintenance: Fixing broken metal parts in machinery, vehicles, and other applications.
Sculpture and Art: Creating artistic metal sculptures and installations.
Overall, welding is a crucial skill for metalworkers and fabricators. It allows for the creation of strong, permanent joints, making it essential for countless applications across various industries.
LASER MARKING
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Laser Marking is a technology that utilizes a focused beam of light to permanently mark the surface of various materials.
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Permanence: Laser-created marks are highly durable and resistant to fading, wear, or chemicals, providing a permanent identification or marking solution.
Precision and Detail: The focused laser beam allows for very precise and intricate marking, ideal for creating detailed logos, data matrix codes, or other fine features.
Versatility: Laser marking can be used on a wide range of materials, including metals, plastics, wood, glass, and even some fabrics (compatibility may vary).
Speed and Efficiency: The laser marking process is relatively fast, making it suitable for high-volume production runs.
Clean Process: Laser marking is a non-contact process, minimizing dust, debris, or environmental impact compared to some marking methods.