KCO-V13-96-ZG Dome Vertical Optic Fiber Splice Closure

KCO-V13-96-ZG Dome Vertical Optic Fiber Splice Closure

KCO-V13-96-ZG fiber optic splice closure, also called dome type fiber closure, looks like a dome and provides space for fiber splicing. It is used for outdoor FTTH application and can be mounted aerially or buried underground.

The splice enclosure is designed to support ribbon or buffer tube splice trays, individual tight-buffered fibers and pigtails. It is also groundable, which is important for the safety of your network.

Structural Strength

Fiber optic cable splice closures are an essential passive component for the management of fiber optical cables in backbone, MAN, and access network. They are used to protect optical splices, store slack fiber cables, and distribute fiber optic cable connections. They can be installed in a variety of ways including aerial, pole mounting, wall mounting, direct burial and duct mounting. They can also be divided into two different types based on their functions such as standard fiber optic splice closure and dome fiber optic splice closure.

The structural strength of a dome fiber optic splice closure varies with the application area, for example, the design of a splice closure that is used in underground application will have different features than one that is designed for above ground usage. This is because a splice closure that is built for an underground application will require high-level seals to prevent water and dirt from entering the closure. This type of closure will also need to include a mechanism to keep insects and other pests out as well.

Dome/Vertical Optical Fiber Splice Closure looks like a dome, so it is commonly referred to as a dome fiber optic splice enclosure or fiber dome closure. It is mainly used in the FTTH “tap” locations of aerial, strand-mount FTTH network where the drop cable is spliced to distribution cable. This type of splice closure can be easily installed, with its splice trays that are turn-able like booklets. This allows the splice trays to be expanded without disturbing the spliced optical cables inside. It is also equipped with a special sealing device to ensure that it can withstand harsh weather conditions.

Bonding and Grounding

Whether in an underground environment, in man/handholes or lashed to messengers on aerial cables, a fiber closure must be properly bonded and grounded. The splice enclosure must also offer the proper capacity to dome-vertical-optical-fiber-splice-closure manage the number of cable loops that may be coiled inside the hermetically sealed encasement. Depending on the application, a grommet kit might be needed to allow flexibility in cable size, as well as splice tray entry/exit ports that can accommodate ribbon or buffer tube splice trays.

Dome/vertical type fiber optic splice closures look like domes, and are designed for aerial& direct buried applications. They meet the same specifications as horizontal type splice closures, but are more suitable for above-ground use. The structure is made of excellent engineering plastics, and offers a variety of inlet/outlet port types fitting different fiber optic core numbers.

Some models feature hinged splice trays that make it easier to expand the splicing enclosure without disturbing spliced cables. This enables quick and easy future move add/changes for the network. The splice enclosure should have an adequate amount of space for the splice trays and also be equipped with a lid to keep dust, insects, moisture and other contaminants out of the closed case. The splice trays can be removed from the lid for troubleshooting and maintenance purposes. Special consideration must be taken with hard ribbon cables that flex in one direction, as they may require careful routing through the splice trays and closure to avoid putting stress on the spliced fibers.

Splice Trays

The splice tray is an important component of any fiber to the home (FTTH) network. It is a storage case that holds and protects the spliced fiber optic cables. Splice trays are typically made of durable materials like plastic or metal and have multiple slots or compartments designed to hold and secure individual spliced fibers. They also help to keep the splices organized and free from dust, moisture and physical stress.

A good quality splice tray is essential to ensure the longevity of your fiber network. It helps to reduce signal loss and improves network performance multimode fiber optic cable assemblies manufacturer by enabling efficient cable management. In addition, the right tray design can help to reduce the time and cost of troubleshooting and repairs.

There are many different types of splice trays available on the market, each with its own unique features. It is important to consider the type of splice tray that is best suited for your needs, including space efficiency and compatibility with other components in your FTTH network.

Some splice trays have all cable entries on one end, sometimes called a dome closure, while others have cable entry points on both ends, which is more popular because it allows you to connect the spliced fibers to service loops on both sides of the closure. You will also need to take into consideration the amount of space that you have available for splice trays, as well as your budget.

Maintenance

The dome fiber optic splice closure offers a hermetically sealed encasement to protect the spliced area. It is designed to be used in aerial, duct, direct buried, or man/handhole applications. It provides multiple inlet/outlet ports to allow for flexibility in cable size and entry/exit points. Grommet kits are included to ensure proper seals around the cables. Ribbon or buffer tube splice trays can be installed inside, providing versatility and organization. The closure can be opened by hinged plates and splice tray is separated from the frame for easy maintenance.

It is essential to check the splicing capacity of the closure. This will ensure that you can fit all of the cables that you need to splice. It is also important to consider future scalability, so you should look at the possibility of adding more ports to the closure in the future. You should also pay attention to the seals of the closure, whether they are mechanical or heat-shrinkable.

The closure should be made from high-quality industrial plastic that has a strong moisture barrier and can withstand the harsh environment. It should also be resistant to corrosion and aging. Lastly, it should have hinged splice trays so that you can access them without disturbing the spliced fibers. This will make it easier to conduct future expansions. It is also important to ensure that the closures are properly grounded.