Dome Splice Closure Up to 36 Ports SC Adapter Model: MBN-FOSC-B4-SC
MBN-FOSC-B4-SC dome splice closure up to 36 ports SC adapters have the versatility and features that make it a perfect choice for fiber-to-the-premises networks, suitable for protecting optical fiber splices in straight-through and branching applications. Our fiber splice enclosure is made of strengthened PC, is a weatherproof fiber enclosure, with long service life, excellent waterproof feature, quality assurance, flexible payment items, and fast delivery available. If you are interested in our FOSC splice closure products, please feel free to contact us for more details.
- Model: MBN-FOSC-B4-SC
- Dimension: 40x14CM (H*D)
- Capacity: 96 Cores（4X 24F Trays, 36 Ports SC Adapters
- Cable Ports: 1 In 4 Out, 5 Ports
- Cable Diameter: Φ7.0-22.0mm
- Material: Strengthen PC
- Sealing Structure: Heat Shrinkable Sealing
- Weight: 2.35KGS
- Installation: Aerial, Direct-Burying, Wall-Mounting, Pipeline Laying Way
- Protection Grade: IP67
|Name||Dome Splice Closure Up to 36 Ports SC Adapter|
|Max Capacity||96 Cores （4X 24 F trays），36 Ports SC Adapters|
|Cable Ports||1 In 4 Out, 5 Ports|
|Sealing Structure||Heat Shrinkable Sealing|
|Installation||Aerial, Direct-Burying, Wall-Mounting, Pipeline Laying Way|
MBN-FOSC-B4-SC Heat Shrinkable Sealing Fiber Joint Closure provides space and protection for the fiber optic cable splicing and joint. Fiber Joint Closure belongs to the accommodation of the optical fiber fusion splice section system. Fiber Joint Closure is widely applied to the connection of the fiber play the roles in sealing, protection, installation of fiber connector head and storage.
Fiber Optic Splice Closure
The fiber optic splice closure is common hardware used in the network system. It can mainly be found on the ends of the optical fiber and is used to connect the optical fibers.
It can also be used to protect and organize optical fiber cables from unnecessary damage.
Fiber Optic Splice Closure Material
The fiber optic splice closure is made of metal and ABS/PC/PP plastic, which are not easy to rust and have good thermal stability. The metal has good rigidity and strength, while the plastic has low cost, high intensity, light weight and beautiful appearance. The metal part is usually made of aluminum alloy or stainless steel, while the plastic part is made of engineering plastics such as polypropylene or polyethylene terephthalate (PET).
The choice of Fiber Optic Splice Closure Material can make all the difference between your project being a success or a failure. The splice enclosures you use should fit within the manholes or pull boxes specified on your project plan. Additionally, the fiber optic splice closures should be labeled per your Project Detail Sheet. Once you’ve selected the type of closure you need, you should install the cables into the enclosure.
Fiber Optic Splice Closure Types
There are two types of splice closures: vertical and horizontal. Vertical fiber optic splice closures are made to withstand outside weather conditions. Outdoor splicing needs high-level seals and waterproof technology. Fiber Optic Splice Closures can accommodate anywhere from a few fibers to 288 fibers. They’re compact and durable, providing maximum protection and are particularly useful for harsh outdoor environments.
Another type of fiber optic splice closure is the vertical one. These are known as fiber dome and are similar to the horizontal types. The vertical closure is designed for buried applications and is made of high-quality engineering plastics. The vertical type features one, two, or three inlet/outlet ports. Vertical fiber optic splice closures are typically used for CATV, telecommunications, and fiber optic networks.
The vertical closure, which looks like a dome. These are often used for burying fiber optic cables in a variety of applications, such as in an aerial FTTH “tap” location. While these closures are ideal for buried applications, they are also suitable for above-ground installation as well. The closure’s cable entrance capacity should match the network’s capacity and the number of cables that are employed in the network.
Fiber Optic Splice Closure Structure
The basic design of most closures involves two main parts: a base or bottom piece, which is attached to a flat surface; and a dome-shaped lid that snaps over the base part.
Bwinners fiber optic splice closure has three parts: the shell, the dustproof cap and dustproof cover. The shell is made of metal or plastic, which is sealed with a rubber ring to prevent dust from entering. The dustproof cap is made of plastic or metal, which can be used for sealing and dust proofing. The dustproof cover can be opened for inspection and maintenance; it can also be closed tightly to prevent dust from entering when not in use.
Fiber Optic Splice Closure Function
Fiber optic splice closures offer a lot of benefits, which makes them very popular among people. It protects fiber cables from heat, moisture, corrosion and other external elements.
Fiber Optic Splice Closure Application
Vertical fiber optic splice closures come in a variety of configurations, with different inlet and outlet ports. High-capacity models are available for larger networks, and the number of splicing trays can vary. A dome-type fiber optic splice closure must have waterproof technology and a high-level seal to protect the cables from insects. An underground fiber optic splice closure must also keep dirt out.
Horizontal fiber optic splice closures are cylindrical or flat, and they meet the same specifications as their horizontal counterparts. They’re usually used in underground or aerial applications. Horizontal fiber optic splice closures are designed to withstand temperature ranges from -40degC to 85degC. A vertical fiber optic splice closure, on the other hand, resembles a dome. Both of these closures serve the same function, but they’re generally used for buried applications.
The port count in a fiber optic splice closure is a measure of its ability to accommodate multiple types of cables. The number of ports in a closure is important because it indicates how many cables are in the network. The number of ports in a closure will depend on how many cables you need to terminate. Smaller ports are used for drop cables and branch cables, and larger ports are for large cables.
1.Aging resistance: thermal, thermal radiation, air, ozone has a good stability.
2.Corrosion resistance: Acid, Salt, Oxidants, Aliphatic hydrocarbons, which are strong anti-resistance.
3.Sealing Technology: Using reusable open-type seal assembly, in order to ensure good airtight waterproof performance.
4.Mechanical properties: the ability to endure the harsh conditions such as vibration, impact, tensile cable distortion and strong temperature changes.
5.Locking devices: no special tools, easy to install and repeat the open.
6.Follow function: the use of laminated clamshell structure, without removing the other splice tray operation.
Optical fiber communication
Fiber optic network convergence
Optical fiber access network
Widely used in FTTH access network
Data communications networks
Local area networks
Aerial, Direct buried, underground, pipeline, hand-holes, duct mounting, wall mounting.