FR3001044A1 - Parallelepiped optical connection module for use in modular optical connection device in e.g. fiber to home network, has connectors arranged on vertical wall parallel to alignment direction of zones, so that user directly access connectors - Google Patents

Abstract

The module (1) has a module body containing a connection zone (2) provided with connectors (21) to connect optical fibers to connection cords that connect the module to other optical connection modules. A cabling zone (3) allows a vertical passage of the cords through the module. The zones are two distinct and horizontally aligned zones. The connectors are arranged on a vertical wall (16) that is parallel to an alignment direction of the zones, so that a user directly accesses the connectors without passing through the cabling zone.

Description

The present invention relates to an optical connection module. The module can notably be used in FTTH networks and in building pooling points. An FTTH network is a telecommunication network whose terminal part arriving at the user's premises consists of optical fibers. FTTH is the abbreviation of the English term "Fiber To The Home", literally meaning "fiber to the home". This is the name of a technology to replace Digital Subscriber Line (DSL) technologies. The point of mutualization, or point of flexibility, is, on a mutualizable FTTH network, the place where the connection between the optical fibers of the different users and those of the different operators takes place. This connection is typically a brewing made using connecting cords also called jumpers. The point of mutualization can be located more or less far from the dwellings it serves. It may be a housing located at the foot of a building, or a street cabinet. The location of the pooling point is a function of technical (fiber passage capacity) or commercial (density) data. Thus, in a dense urban area the point of mutualization will be close to the building it serves while in a suburban area a pooling point can serve an entire district. In FTTH networks, the user can choose from different operators. There are two main ways to do this. Either the user has several fibers, and he can then choose the fiber corresponding to the desired operator. Either there is only one fiber, and the optical fiber connection device must allow the different operators to connect to this single fiber. The additional operators may arrive late compared to the original installation and it is appropriate to be able to distribute the optical fibers from these new operators. In this case, an operator connection module and a user module are used, and the connection is made between the operator module and the user module by means of a connection cord or garter. Such a module of the state of the art, whether it is an operator module or a user module, is illustrated in FIG. 1. The module 1 is a box of parallelepipedal shape. The module 1 comprises a connection zone 2 of a set of optical fibers, generally from a cable, and intended for the operator or the users. In the connection zone 2, the rear face of the connectors 21, not shown, is intended to connect to the module 1 the fibers from the cable. The front of the connectors 21 is intended to connect the fibers from the cable to another module, using a jumper or a connecting cord. The module 1 also comprises a wiring zone 3, or optical fiber routing zone, accessible to all and distinct from the connection zone 2. The wiring zone 3 comprises two wiring openings 4, arranged at the bottom and at the top of the module 1, and which form a wiring chimney crossing the various modules. The connection zone 2 and the wiring zone 3 to be secured, the module 1 comprises on the front face a first door 5, intended to close the connection zone 2, and articulated by a first hinge 6, and a second door 7, intended to close the wiring zone 3, and articulated by a second hinge 8. Each door 5.7 is locked individually by a lock. This type of module has the disadvantage of being expensive, because of the use of two hinges 6.8 and two locking points. It is furthermore difficult to access the connectors 21, because of the reduced space. The present invention aims to remedy these disadvantages. The invention thus relates to an optical connection module, of parallelepipedal shape, comprising a module body enclosing a) a connection zone provided with connectors for connecting optical fibers from a set of optical fibers to cords. connecting means for connecting said module to other optical connection modules, and b) a routing area of said cords, allowing vertical passage of the cords through the module.

The module according to the invention comprises a movable shutter constituting in the closed position a face of the module and intended to close the connection zone and the routing zone, said shutter being connected to the module body by means of a single hinge. . The shutter comprises two parts interconnected by a hinge, a first portion being intended to cover the connection area and a second portion being intended to cover the routing area. Thus, the use of a single flap makes it easy to access the two zones of the module and not to increase the dimensions of the module 10 when the flap is open. The hinge connecting the shutter to the module body can be made between the module body and the first part intended to cover the connection area. The module may comprise shutter locking means in the closed position. The connection zone may comprise connectors able to connect the optical fibers coming from the set of optical fibers to connection cords intended to be connected to another module. The module may be a user module for connecting user optical fibers to at least one operator module. The module may be an operator module for connecting optical fibers of an operator to a user module. The delivery zone may comprise two openings, for example arranged in a lower wall and in an upper wall of the housing body, and allowing the passage of optical fibers to other modules. Other features and advantages of the present invention will emerge more clearly on reading the following description given by way of illustrative and nonlimiting example and with reference to the appended drawings in which: FIG. 1, already described, illustrates an optical connection module of the state of the art, and - Figure 2 illustrates an optical connection module according to the invention.

As illustrated in FIG. 2, in which elements identical to those of FIG. 1 bear the same references, a connection module 1 according to the invention is a housing which comprises a movable flap (or door) 9 intended to plug and unclog the module body 10, and in particular the connection zone 2 (the connection zone) and the wiring zone 3 (the optical fiber management zone). The shutter 9, which is shown in Figure 2 in the open position, is connected to the body 10 of the module 1 by a single hinge 6, for example disposed on an edge of the module body 10. The flap 9 comprises two parts 91.92 .

A first part 91 makes it possible to cover the connection zone 2 while a second part 92 makes it possible to cover the wiring zone 3. The two parts 91, 92 of the shutter 9 are connected by a hinge 11, which allows an independent articulation the two parts 91,92 of the shutter 9. The shutter 9 is locked by a single lock 12 disposed on the second portion 92 of the shutter 9. In the closed position, the shutter 9 completely covers the housing body 10. The module 1 according to the The invention thus has many advantages. It allows a good level of protection to the two separate zones that are the connection area and the wiring zone, while giving a comfort of use by a total access to the two main functions of the module. It also saves the cost of a lock. The maintenance of the dust protection of the connection points during the use of the wiring chimney is ensured, and there is greater accessibility for the main functions of the module. Finally, the total volume needed to operate the module in its environment is reduced because the single component has no lateral movement.

Claims (6)

REVENDICATIONS1. An optical connection module (1), of parallelepipedal shape, comprising a module body (10) enclosing a) a connection zone (2) provided with connectors (21) for connecting optical fibers from a set of optical fibers to patch cords for connecting said module (1) to other optical connection modules, and b) a routing zone (3) of said cords, allowing vertical passage of the cords through the module (1), characterized in that the module (1) comprises a movable flap (9) constituting in the closed position a face of the module (1) and intended to close the connection zone (2) and the routing zone (3), said flap (9) being connected to the module body (10) by means of a single hinge (6), and in that the flap (9) comprises two parts (91, 92) interconnected by a hinge (11). ), a first portion (91) being intended to cover the connection zone (2) and a second portion (92) etan t intended to cover the routing area (3). 2. Module (1) according to claim 1, characterized in that the hinge (6) connecting the flap (9) to the module body (10) is formed between the module body (10) and the first part (91). intended to cover the connection area (2). 3. Module (1) according to claim 1 or 2, characterized in that it comprises locking means (12) of the flap (9) in the closed position. Module (1) according to one of claims 1 to 3, characterized in that the module (1) is a user module for connecting user optical fibers to at least one operator module. 5. Module (1) according to one of claims 1 to 3, characterized in that the module (1) is an operator module for connecting optical fibers of an operator to a user module. 6. Module (1) according to one of claims 1 to 5, characterized in that the routing zone (3) comprises two openings (4) for the passage of optical fibers to other modules.