TR201904870A2 - CONVERSION MODULE OF COPPER FIELD CABINETS INTO FIBER OPTIC SYSTEM - Google Patents

Abstract

This invention is related to the conversion module of copper field cabinets to fiber optic system, which can be used in the conversion of existing systems in the telecommunication sector into fiber optic systems. The module case (1) positioned in the telecom cabinet (T), the module base plate (2) associated with the module case (1), the splitter modules (3) fixed to the upper part of the module base plate (2), the splitter modules (3) at the bottom. the connector panel (4) positioned on the module base plate (2), the orientation part (5) positioned on the module base plate (2) such that the connector panel (4) is at the bottom, and the routing part (5) to the module base plate (2) It consists of positioned additional cassettes (6).

Description

DESCRIPTION CONVERSION OF COPPER FIELD CABINETS TO FIBER OPTIC SYSTEM Technological Field: This invention enables existing systems in the telecommunications industry to be converted to fiber optic systems. copper field cabinets that can be used in the conversion to fiber optic system It is related to the conversion module.

Known Status of the Technique: Nowadays, there are many important and noteworthy changes in the electronic communications industry. changes are taking place. The extraordinary increase in voice, data and video communications Likewise, the demand for economical and larger capacity communication systems causes it to increase. This caused a technical revolution in the electronic communications industry. It gives way. High quality service that can meet large capacities It is clear that economical communication systems that can provide

Communication in which light is used is important due to the many advantages it has as an information carrier. systems have attracted a lot of attention lately. Therefore, today's leading In various development laboratories, "containing" a light wave and converting that wave into a glass or fiber optic cables to send from the source to a destination The systems used are being developed. Information via a guided fiber optic Communication systems that carry data are called fiber optic systems.

Since optical frequencies provide wider bandwidth due to their structure, fiber systems have greater capacity. In metallic cables, conductors Capacitance occurs between them and inductance occurs along the conductors. These features metallic wires act as low-pass filters that limit bandwidths causes them to do so. Fiber optic systems use magnetic induction They are not affected by interference between cables. Glass or plastic fibers conduct electricity They are non-conductive materials, therefore, current flow occurs in fiber optic cables. There is no magnetic field it brings. In metallic cables, the main cause of interference is interconnection. is magnetic induction between closely placed conductors.

Fiber optic cables are more resistant to large changes in environmental conditions.

They can operate in a wider temperature range than metallic cables. Same way Fiber optic cables are less affected by corrosive liquids and gases. Fiber optic Installation and maintenance of cables is easier and safer. glass and plastic Since the fibers are not conductive, the electric current created when the fibers are used There are no dangers. Fibers are volatile, without creating any explosion or fire hazard. They can be used around liquids and gases. Fibers are more durable than metallic cables. They are smaller and lighter. Therefore, it is much easier to work with fiber optic cables.

Additionally, fibers require less storage space and are much cheaper to ship.

Due to these advantages of fiber optic systems, today's telecommunication infrastructure are being replaced by fiber optic systems. Telecommunication demand today As technology increases, fiber optic networks are being expanded to more and more areas. of cables management, ease of installation and accessibility for subsequent management are important. are the subjects. As a result, fiber optic devices and devices that address these and other concerns methods are needed. Replacing old infrastructure with fiber optic infrastructure is costly is happening. Especially the change of data distribution cabinets brings with it huge costs. It brings. Dimensionally speaking, fiber optic cables are wider than copper cables. There are design difficulties with the module because it needs a place.

“Fiber optic adapter block” in patent application number TR201815296 is explained. A fiber optic adapter blog is described. Fiber optic adapter blog, At least three fibers provided in a stacked arrangement extending transversely in a transverse direction optical adapter, wherein each adapter of at least three fiber optic adapters is connected to an adjacent aligned progressively from front to back relative to the adapter such that at least three fiber optic The front ends of each other adapter of the adapter are aligned at a first depth and adjacent A front end of the adapter is located at a second depth different from the first depth.

In the patent application numbered TR201609994, “Fiber optic distribution cables and their oriented structures” are explained. Fiber optic distribution cables and their production Methods for this are explained. Fiber optic distribution cables, their direction towards the subscriber. one or more optical fibers outside the protective coating for their distribution. exhibitions. In a fiber optic distribution cable, the shielding distributed optical fiber length exposed outside the coating, at the access location It is longer than the span. In another embodiment, the distribution of distributed optical fiber a nerve intended to inhibit movement (i.e., pushing) in and out of the cord point is provided. In another embodiment, a distributed a coupling pipe in the indexing pipe to provide the optical fiber An indexing tube is provided for indexing. Additionally, other regulations a fiber optic distribution cable with a dry structure and/or non-round cross-section may contain.

In the patent applications explained above, the products used in the distribution of fiber optic systems are blocks are explained. In order to establish these systems, old telecommunications Replacing the entire cabins used for service and installing these systems is required. This method causes large costs to arise.

As a result, there are existing models that can overcome the disadvantages mentioned above. It has a design compatible with telecommunication data distribution cabinets, It facilitates the transition to fiber optic system and eliminates large transition costs, A new technology that is long-lasting, safe, durable and low-cost is needed. is heard.

Description of the invention: This invention is a copper field technology that can overcome the disadvantages mentioned above. It is a module for converting cabinets to fiber optic system and its feature is; available to come It has a design compatible with telecommunication data distribution cabinets, It facilitates the transition to fiber optic system and eliminates large transition costs, It is a new technology that is long-lasting, safe, durable and low-cost.

The product subject to the invention, with its structure and design, supports existing telecommunication data Distribution cabinets are compatible. The product of the invention can be installed in existing telecom cabinets. can be integrated in a practical way. With the product of the invention, fiber optic infrastructure The transition is fast and reliable. The product of the invention, with its structure and design, Transitioning from the current system to the fiber optic system is easy.

The product of the invention, with its structure and design, is more efficient than the existing system with fiber optic technology. Transition costs to the system decrease significantly. The product subject to the invention has It has a long service life due to its structure and design. The product subject to the invention has It is safe with its structure and design. The structure and design of the product subject to the invention It is durable with . The product subject to the invention has a structure and design, and its cost It is advantageous in terms of

The product of the invention provides solutions to increase the internet speed in the existing infrastructure. offers. Compared to the cost of a new fiber optic cabinet, copper Fiber optic optimization of cabinets is much cheaper. Meet The modules used in the product in question are the same as the 100.1 reglets currently used in it. Since it is designed to size, it is designed to be disassembled and reassembled.

Thanks to the easy fixing of the parts constituting the invention to each other, It is installed and the costs are low thanks to the short installation time.

Additionally, the invention has a robust structure.

Explanation of Figures: The invention will be explained by referring to the attached figures, so that the features of the invention will be more clearly understood and appreciated, but its purpose is to It is not limited by regulations. On the contrary, the invention is not protected by the appended claims. all alternatives, modifications and changes that can be included within the defined area It is aimed to cover the equivalences. Details shown are for current availability only. preferred embodiments are shown for illustrative purposes and both methods are shaping, as well as the rules and conceptual features of the invention in the most useful It should be understood that they are presented for the purpose of providing an easily understandable definition. This in the drawings; Figure 1 is the perspective view of the system.

Figure 2 is the disassembled view of the system.

Figures that will help understand this invention are shown in the attached picture. They are numbered and given below with their names.

Disclosure of References: l. module case Module base plate Splitter modules connector panel steering piece Additional cassettes telecom cabinet Description of the invention: Meet; The module case (l) positioned inside the telecom cabinet (T) is attached to the module case. (1) associated module base plate (2) to the top of the module base plate (2) fixed splitter modules (3) at the bottom of the splitter modules (3) connector panel (4) positioned on the module base plate (2), connector panel (4) orientation positioned on the module base plate (2) so that it is at the bottom module base with the part (5) and the guidance part (5) at the bottom. It consists of additional cassettes (6) positioned on the plate (2) (Figure-1, The product of the invention has a module case (1) that serves as protection against external factors. is happening. In the product subject to the invention, splitter modules (3), connector panel (4), Module base plate (2) containing the routing piece (5) and additional cassettes (6) There are. The product of the invention has a single line with dividers in 1/4, 1/8, 1/16, It provides service to more subscribers by dividing it into 1/32 or more outputs. It consists of splitter modules (3) (Figure-1, Figure-2).

The product of the invention consists of splitter modules (3) and additional cassettes by providing a modular structure. (6) has a connector panel (4) that catches the incoming cables. subject of invention The product has a routing piece (5) that can prevent the cables from making sharp turns. There are. The product of the invention connects the cables coming from the subscriber side and the main line. It is characterized by having attachment cassettes (6) that enable attachments to be made. Detailed Explanation of the Invention: The invention is basically; module case (1), module base plate (2), splitter modules (3), connector panel (4), routing piece (5) and additional cassettes (6) (Figure-1, The product subject to the invention has a module case (1). Module case (1); in It preserves the components it contains by protecting them from external factors. subject of invention The product includes a module base plate (2). Module base plate (2); the whole structure It is kept on it. The product subject to the invention contains splitter modules (3). Includes dividers. These splitters divide a single line into multiple outputs. It ensures that the service reaches many subscribers (Figure-1, Figure-2).

The product subject to the invention has additional cassettes (6). Additional cassettes (6); by subscriber and ensures the splicing of cables coming from the main line. subject of invention The product includes a connector panel (4). Connector panel (4); modular structure to ensure that the cables coming from the splitter modules (3) and the additional cassette (6) are not caught. It provides. The product subject to the invention has a guiding part (5).

Guidance part (5); It prevents the cables from making sharp turns (Figure-1, In the product subject to the invention, the module case (1) is positioned in the telecom cabinet (T).

The module base plate (2) is associated with the module case (1). Module base plate Splitter modules (3), connector panel (4), routing part (5) and additional There are cassettes (6). Splitter modules (3); top of module base plate (2) It is fixed to the part. Connector panel (4); splitter modules (3) will be under The module is fixed to the base plate (2) as follows. Guidance part (5); connector It is fixed to the module base plate (2) with the panel (4) at its bottom. Additional cassettes (6); the module base plate (2) with the guidance part (5) underneath it. are associated (Figure-1, Figure-2).

In the product subject to the invention, the cable coming from the main line; by making a connection in the attachment cassette (6) It is connected to the splitter module (3) inputs via the connector panel (4). Next Splitter module (3) outputs can be connected via fanout cable via connector panel (4). It is terminated by making subscriber connections in the cassettes (6) (Figure-1, Figure-2).

Claims (7)

CONVERSION TO REQUIREMENT This invention is related to the conversion module of copper field cabinets to fiber optic system, which can be used to convert existing systems in the telecommunications sector into fiber optic systems, and its feature is; Module case (l) positioned inside the telecom cabinet (T), module base plate (2) associated with the module case (1), Splitter modules (3) fixed to the upper part of the module base plate (2), Splitter modules (3) at the bottom. the connector panel (4) positioned on the module base plate (2), the routing piece (5) positioned on the module base plate (2) with the connector panel (4) at its bottom, and the module base plate (2) with the routing piece (5) at its bottom. It consists of positioned additional cassettes (6). CLAIMS 1- The invention is related to the conversion module of copper field cabinets to fiber optic system, and its feature is; - module case (l) positioned inside the telecom cabinet (T), - module base plate (2) associated with the module case (1), - splitter modules (3) fixed to the upper part of the module base plate (2), - splitter modules (3) connector panel (4) positioned on the module base plate (2) so that it is at its bottom, - the routing piece (5) positioned on the module base plate (2) so that the connector panel (4) is at its bottom, and - the routing piece (5) is positioned at its bottom It consists of additional cassettes (6) positioned on the module base plate (2). 2- It is a module for converting the copper field cabinets mentioned in Claim 1 to fiber optic system, and its feature is; It is characterized by having a module casing (1) that serves as protection against external factors. 3- It is a module for converting the copper field cabinets mentioned in claim 1 to fiber optic system, and its feature is; It is characterized by having a module base plate (2) that houses the splitter modules (3), connector panel (4), routing piece (5) and additional cassettes (6). 4- The copper field cabinets mentioned in Claim 11 are characterized by having splitter modules (3) that provide service to more subscribers by dividing the conversion module into fiber optic system outputs. 5- It is a module for converting the copper field cabinets mentioned in claim 1 to fiber optic system, and its feature is; It is characterized by having a connector panel (4) that encapsulates the cables coming from the splitter modules (3) and additional cassettes (6) by providing a modular structure. 6- It is a module for converting the copper field cabinets mentioned in Claim 1 to fiber optic system, and its feature is; It is characterized by having a guiding piece (5) that can prevent the cables from making sharp turns. 7- It is a module for converting the copper field cabinets mentioned in the claim to fiber optic system, and its feature is; It is characterized by having splice cassettes (6) that enable the splicing of cables coming from the subscriber side and the main line.