A kind of intelligent optical fiber distribution dish
Technical field
The utility model relates to fiber optic communication field, particularly a kind of intelligent optical fiber distribution dish.
Background technology
In optical fiber communication, usual employing light wire jumper connects interior lines equipment side and the outside line optical cable side of Access Network local side ODF, because a large amount of light jumper wire placement is in same region, when connecting light wire jumper, following problems may be encountered: (1), if the port not yet opened before newly will opening, is difficult to the position of searching this port; (2) Fiber connection goes wrong, and is difficult to find the light wire jumper gone wrong.
And in the fiber cable cross connection box position of user side, there will be following problem: the relation being difficult to judge trunk port and wiring ports during (1) construction; (2) be difficult to during fault search optical fiber, the state of optical cable cannot be judged.
Summary of the invention
Technical problem to be solved in the utility model overcomes the deficiencies in the prior art and provides a kind of intelligent optical fiber distribution dish, card reader antenna coil is embedded optical fiber distributing dish by the utility model, again by reading the Intelligent optical fiber wire jumper corresponding joints of optical fibre of RFID identification and fiber port, user reads product information by card reader and can the out of order joints of optical fibre of quick position and fiber port, thus increase work efficiency, avoid incorrect link, easy to use, the simple and reliable degree of structure is high.
The utility model is for solving the problems of the technologies described above by the following technical solutions:
According to a kind of intelligent optical fiber distribution dish that the utility model proposes, comprise distribution board and card reader, described card reader comprises read-write chip and the integrated port controller of connected multiple antennas, described distribution board embeds multiple card reader antenna coil be connected with the integrated port controller of multiple antennas; Described card reader antenna coil and the aerial coil one_to_one corresponding being embedded in the RFID in the joints of optical fibre, read-write chip controls corresponding card reader antenna coil through the integrated port controller of multiple antennas, controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port various information.
As the further prioritization scheme of a kind of intelligent optical fiber distribution dish described in the utility model, the top of described distribution board is provided with cover plate, and described card reader antenna coil is embedded in cover plate.
As the further prioritization scheme of a kind of intelligent optical fiber distribution dish described in the utility model, described cover plate is moveable, multiple card reader antenna coils are embedded in the outer of cover plate, when cover plate by horizontal pulling to card reader antenna coil with when being embedded in the aerial coil one_to_one corresponding of the RFID in the joints of optical fibre, read-write chip controls corresponding card reader antenna coil through the integrated port controller of multiple antennas, controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port various information.
As the further prioritization scheme of a kind of intelligent optical fiber distribution dish described in the utility model, the outer of described cover plate can spin upside down along transverse axis, multiple card reader antenna coils are embedded in the outer of cover plate, when the outer of cover plate is flipped to card reader antenna coil and be embedded in the aerial coil one_to_one corresponding of the RFID in the joints of optical fibre, read-write chip controls corresponding card reader antenna coil through the integrated port controller of multiple antennas, controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port various information.
As the further prioritization scheme of a kind of intelligent optical fiber distribution dish described in the utility model, described cover plate is provided with cover plate handle.
As the further prioritization scheme of a kind of intelligent optical fiber distribution dish described in the utility model, the top of described distribution board is provided with cover plate, fiber adapter is provided with in distribution board, the gap location of fiber adapter and cover plate inserts one can the card of pull movement, and described card reader antenna coil is embedded in card; When card by horizontal pulling to card reader antenna coil with when being embedded in the aerial coil one_to_one corresponding of the RFID in the joints of optical fibre, read-write chip controls corresponding card reader antenna coil through the integrated port controller of multiple antennas, controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port various information.
The utility model adopts above technical scheme compared with prior art, there is following technique effect: card reader antenna coil is embedded optical fiber distributing dish by the utility model, again by reading the corresponding optical fiber of Intelligent optical fiber wire jumper RFID identification, the joints of optical fibre and fiber port, manufacturer is facilitated to realize intelligent management and later maintenance, user reads product information by card reader and can the out of order joints of optical fibre of quick position and fiber port, thus increase work efficiency, avoid incorrect link, easy to use, structure is simple, fiduciary level is high, meeting the market requirement.
Accompanying drawing explanation
Fig. 1 is intelligent optical fiber distribution disc system block diagram.
Fig. 2 is the structural representation of drawing and pulling type scheme, and wherein, (a) is vertical view, and (b) is upward view.
Fig. 3 is the structural representation of hiding drawing and pulling type scheme, and wherein, (a) is vertical view, and (b) is upward view.
Fig. 4 is the structural representation of flip-shell scheme, and wherein, (a) is vertical view, and (b) is upward view.
Reference numeral in figure is interpreted as: the 1-joints of optical fibre, the pallet of 2-distribution board, 3-card reader antenna coil, 4-can the outer of cover plate of distribution board of pull movement, the upper cover of 5-distribution board, 6-can the outer of card of pull movement, and 7-cover plate is shaken hands, 8-card is shaken hands, 9-is embedded in the aerial coil of the RFID in the joints of optical fibre, 10-fiber adapter, the cover plate that 11-can spin upside down along transverse axis, 12-card reader antenna coil array, 13-fiber port.
Embodiment
Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail:
Fig. 1 is intelligent optical fiber distribution disc system block diagram, a kind of intelligent optical fiber distribution dish, comprise distribution board and card reader, described card reader comprises read-write chip and the integrated port controller of connected multiple antennas, described distribution board embeds multiple card reader antenna coil be connected with the integrated port controller of multiple antennas; Described card reader antenna coil and the aerial coil one_to_one corresponding being embedded in the RFID in the joints of optical fibre, read-write chip controls corresponding card reader antenna coil through the integrated port controller of multiple antennas, controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port 13 various information.Multiple card reader antenna coil arrangement becomes card reader antenna coil array 12.
The utility model lists three kinds of embodiments, respectively as shown in Figure 2, Figure 3, Figure 4.
Scheme one: drawing and pulling type.Shown in Figure 2 is the structural representation of drawing and pulling type scheme, wherein, (a) in Fig. 2 is vertical view, (b) in Fig. 2 is upward view, the utility model comprises distribution board and card reader, described card reader comprises read-write chip and the integrated port controller of connected multiple antennas, the top of described distribution board is provided with cover plate, described cover plate is moveable, multiple card reader antenna coil 3 is embedded in the outer 4 of cover plate, when cover plate by horizontal pulling to card reader antenna coil with when being embedded in aerial coil 9 one_to_one corresponding of the RFID in the joints of optical fibre 1, read-write chip (being built in distribution board) controls corresponding card reader antenna coil through the integrated port controller of multiple antennas (being built in distribution board), control typing one by one or read optical fiber, the joints of optical fibre and fiber port various information.Wherein, 2 is distribution board pallet, and 7 is cover plate handle, and 10 is fiber adapter.
Scheme two: hide drawing and pulling type.Shown in Figure 3 is the structural representation of hiding drawing and pulling type scheme, and wherein, (a) in Fig. 3 is vertical view, and (b) in Fig. 3 is upward view.The utility model comprises distribution board and card reader, described card reader comprises read-write chip and the integrated port controller of connected multiple antennas, the top of described distribution board is provided with cover plate, fiber adapter is provided with in distribution board, the gap location of fiber adapter and cover plate inserts one can the card of pull movement, and the outer 6 of card is embedded in multiple card reader antenna coil 3 be connected with the integrated port controller of multiple antennas; When card by horizontal pulling to card reader antenna coil with when being embedded in aerial coil 9 one_to_one corresponding of the RFID in the joints of optical fibre 1, read-write chip (being built in distribution board) controls corresponding card reader antenna coil through the integrated port controller of multiple antennas (being built in distribution board), controls typing one by one or reads optical fiber, the joints of optical fibre and fiber port various information.Wherein, 5 is the upper cover of distribution board, and 2 is the pallet of distribution board, and 8 is card handle, and 10 is fiber adapter.
Scheme three: flip-shell.Shown in Figure 4 is the structural representation of flip-shell scheme, wherein, (a) in Fig. 4 is vertical view, (b) in Fig. 4 is upward view, the utility model comprises distribution board and card reader, described card reader comprises read-write chip and the integrated port controller of connected multiple antennas, the top of described distribution board is provided with cover plate, the outer of described cover plate 11 can spin upside down along transverse axis, multiple card reader antenna coils 3 are embedded in the outer of cover plate, when the outer of cover plate is flipped to card reader antenna coil and be embedded in aerial coil 9 one_to_one corresponding of the RFID in the joints of optical fibre 1, read-write chip (being built in distribution board) controls corresponding card reader antenna coil through the integrated port controller of multiple antennas (being built in distribution board), control typing one by one or read optical fiber, the joints of optical fibre and fiber port various information.Wherein, 5 is the upper cover of distribution board, and 2 is the pallet of distribution board, and 10 is fiber adapter.
Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deductions can also be made or substitute, all should be considered as belonging to protection domain of the present utility model.