CN2840431Y - Indoor photoelectric transmitting equipment comprehensive distribution box - Google Patents

Abstract

The utility model relates to a comprehensive wire-distributing box of indoor photoelectric transmitting equipment. In a metal box body, an optical fiber splicing box for welding and distributing optical cables, a high end unit body for being matched with a high-frequency coaxial cable, an optical terminal machine for switching an optical jumping fiber with the high-frequency coaxial cable or a five-category line and an E1 unit body for switching the high-frequency coaxial cable with the five-category line are combined into an integral body, so that the switching of communication signals of the optical cable, the high-frequency coaxial cable and the five-category line is completed in the same box body can be realized. The utility model sufficiently embodies that the equipment of user ends can be standardized, and can uniformly plan wire laying to a system. The utility model has the advantages of less equipment switching points, low failure rate, convenience for routine maintenance and operation to equipment, etc.

Description

The equipment complex distributing cabinet is sent in a kind of room light fax

Affiliated technical field

The utility model relates to a kind of distributing cabinet of communication terminal, and relates more specifically to a kind of room light fax and send the equipment complex distributing cabinet.

Background technology

In the machine room of communications industry user side, for at optical cable, coaxial cable for high frequency, the transmit communications signals of transferring in the different transmission circle matter of 5 class lines, prior art is will be used for the optical transceiver that optical cable is transferred to coaxial cable or 5 class lines in machine room, the fiber optic closure and the cable that are used for optical cable welding switching, cable distributing frame three is installed on three places respectively, it has not only taken a large amount of resources, also increased potential communication failure point, be difficult to realize centralized monitor especially and solve resource allocation, problems such as regular maintenance, thus the reliability of signal of communication access service reduced.

Summary of the invention

The purpose of this utility model is to be to provide a kind of according to requirements of different users, can will mutually transfer the facility of transmit communications signals in optical cable, coaxial cable for high frequency, 5 class lines, and the equipment complex distributing cabinet is sent in the room light fax that is dissolved in one.

The utility model is realized by following design: the utility model is by comprising casing, base plate, fixed base plate, coaxial cable for high frequency bundle or 5 class lines, optical cable, fiber optic closure, tail optical fiber, jumping fiber, and one or more optical cable anchorage clip, adapter, high-end cell cube, optical transceiver are formed.

Described base plate and fixed base plate then are divided into the different parts in the casing;

Described fiber optic closure, and one or more optical cable anchorage clip, adapter all are placed on the base plate;

On the one side of described fixed base plate, then be mounted with one or more optical transceiver;

Described optical cable enters in the casing, and is fixed on the base plate by the optical cable anchorage clip, optical fiber bundle tubes and fiber optic closure welding in the optical cable;

Described tail optical fiber is connected with jumping fiber by adapter, and the other end of jumping fiber then is connected with the optical fiber interface of optical transceiver;

Described coaxial cable for high frequency bundle or 5 class lines enter in the casing, the coaxial cable for high frequency in the coaxial cable for high frequency bundle and the upper port of high-end cell cube are joined, the lower port of high-end cell cube is connected to the coaxial cable for high frequency interface of optical transceiver, and 5 class lines then directly are connected to optical transceiver.

One or more E1 transducer is installed on the another side of described fixed base plate.

Described tail optical fiber and jumping fiber are fixed on the base plate by one or more optical fiber geometrical clamps respectively.

Described coaxial cable for high frequency or 5 class lines can be fixed by trough.

Effect of the present utility model is clearly, adopts structure of the present utility model all transmission circle matter in the present communications industry machine room can be inserted in the same casing, and can carry out transmitted in both directions.Because former optical cable separated time equipment, light end equipment, the digital distribution plant that is in dispersion concentrated and is placed in the casing described in the utility model, demonstrated fully the equipment codeization that makes user side, can be to systematic unity planning wiring, minimizing equipment transit point, reduce failure rate, the regular maintenance operation of the equipment of being more convenient for etc.A kind of casing overlaps layout more, simultaneously multiple optical transceiver can be installed, with the demand of the different modes of connection that are applicable to different user.The user also can adopt the pattern of " building as required; progressively increase " progressively to increase the interior equipment of casing, make user's use have more flexibility and economy, can save a large amount of materials, time and space, brought convenience for user's construction, installation, maintenance, reduce the incidence of equipment fault simultaneously, thereby realized intended purposes of the present utility model.

Description of drawings

Accompanying drawing is the structural representation of the utility model embodiment.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is described, thereby make CONSTRUCTED SPECIFICATION of the present utility model, characteristics, purpose and advantage clearer and more definite, but be not to be used for limiting scope of the present utility model.

The structure of the utility model embodiment now is described in conjunction with the accompanying drawings: the equipment complex distributing cabinet is sent in a kind of room light fax, as shown in drawings, by comprising casing 3, base plate 12, fixed base plate 24, coaxial cable for high frequency bundle or 5 class lines 1, optical cable 2, fiber optic closure 10, tail optical fiber 8, jumping fiber 5, and one or more optical cable anchorage clip 4, adapter 7, high-end cell cube 13, optical transceiver 22 form, and 24 of described base plate 12 and fixed base plates are divided into the different parts in the casing 3.

Fiber optic closure 10, and one or more optical cable anchorage clip 4, adapter 7 all are placed on the base plate 12.And on the one side of fixed base plate 24, then be mounted with one or more optical transceiver 22.

Described optical cable 2 enters in the casing 3 by the import of casing 3 upper ends, and by optical cable anchorage clip 4 optical cable 2 is fixed on the base plate 12.The afterbody of strip off optical cable 2 exposes the optical fiber bundle tubes 6 in the optical cable 2, and will carry out the welding of optical fiber in the optical fiber bundle tubes 6 incoming fiber optic splice trays 10.Tail optical fiber 8 after the welding is connected with an end of jumping fiber 5 by adapter 7, and the other end of jumping fiber 5 then is connected with the optical fiber interface 18 of optical transceiver 22.

Coaxial cable for high frequency bundle or 5 class lines 1 enter in the casing 3 by the import of casing 3 upper ends simultaneously, and near strip off high-end cell cube 13, expose coaxial cable for high frequency 15.Coaxial cable for high frequency 15 is connected to the upper port of high-end cell cube 13 respectively, the lower port of high-end cell cube 13 is then joined with the coaxial cable for high frequency interface 21 of optical transceiver 22, thereby has finished the intercommunication of signals of communication in optical cable 2 and the coaxial cable for high frequency 15 by the transducer of optical transceiver 22 inside; 5 class lines then directly are connected to optical transceiver 22.Present embodiment connects by jumping fiber 5 and adapter 7, can select the switching of different light paths.As by the cooperating of coaxial cable for high frequency 15 and coaxial cable for high frequency interface 21, can finish the switching of different coaxial cable for high frequency paths.

For the purpose of satisfying the connection between the various ways interface, one or more E1 transducer 23 is installed on the another side of described fixed base plate 24.When optical transceiver 22 is 5 class line interfaces, 5 class lines that come out from optical transceiver 22 and carry out the switching of signal from input, output interface that the coaxial cable for high frequency that the lower port of high-end cell cube 13 is come is connected to the E1 transducer, thus the demand of switching transmit communications signals between optical cable 2, the coaxial cable for high frequency 15 finished when using different optical transceiver 22.

In order to guarantee the performance of optical transmission, described tail optical fiber 8 and jumping fiber 5 are fixed on the base plate 12 by one or more optical fiber geometrical clamps 9 respectively, and described coaxial cable for high frequency 15 or 5 class lines can be fixed by trough 20.

Claims (4)

1. the equipment complex distributing cabinet is sent in a room light fax, by comprising casing (3), base plate (12), fixed base plate (24), coaxial cable for high frequency bundle or 5 class lines (1), optical cable (2), fiber optic closure (10), tail optical fiber (8), jumping fiber (5), and one or more optical cable anchorage clip (4), adapter (7), high-end cell cube (13), optical transceiver (22) are formed, described base plate (12) and fixed base plate (24) then are divided into the different parts in the casing (3), it is characterized in that:

Described fiber optic closure (10), and one or more optical cable anchorage clip (4), adapter (7) all are placed on the base plate (12);

On the one side of described fixed base plate (24), then be mounted with one or more optical transceiver (22);

Described optical cable (2) enters in the casing (3), and is fixed on the base plate (12) by optical cable anchorage clip (4), optical fiber bundle tubes (6) in the optical cable (2) and fiber optic closure (10) welding;

Described tail optical fiber (8) is connected with jumping fiber (5) by adapter (7), and the other end of jumping fiber (5) then is connected with the optical fiber interface (18) of optical transceiver (22);

Described coaxial cable for high frequency bundle or 5 class lines (1) enter in the casing (3), coaxial cable for high frequency (15) in the coaxial cable for high frequency bundle (1) joins with the upper port of high-end cell cube (13), the lower port of high-end cell cube (13) is connected to the coaxial cable for high frequency interface (21) of optical transceiver (22), and 5 class lines then directly are connected to optical transceiver (22).

2. send the equipment complex distributing cabinet by the described a kind of room light fax of claim 1, it is characterized in that: the E1 transducer (23) that one or more are installed on another side of described fixed base plate (24).

3. send the equipment complex distributing cabinet by claim 1 or 2 described a kind of room light fax, it is characterized in that: described tail optical fiber (8) and jumping fiber (5) are fixed on the base plate (12) by one or more optical fiber geometrical clamps (9) respectively.

4. send the equipment complex distributing cabinet by claim 1 or 2 described a kind of room light fax, it is characterized in that: described coaxial cable for high frequency (15) or 5 class lines can be fixed by trough (20).

Images