CN204425352U - A kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function - Google Patents

Abstract

The utility model provides a kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function, comprise and connect the Quick Connect Kit of optical cable and the plug ends of Quick Connect Kit end, described Quick Connect Kit comprises the optical-electrical converter, wireless controller, wireless transceiver and the power supervisor that connect successively; The other end of described optical-electrical converter is connected with the fiber bundle of optical cable; Described plug ends is provided with antenna, and described antenna is connected with the other end of wireless transceiver, and plug ends is also provided with the metal connector be connected with power supervisor, the multiple metal connectors be connected one by one with the insulation core wire of the cable section of optical cable.Employing optical fiber transceiving unitary design described in the utility model, by the mode transfer of data of wireless connections, for downhole optic fiber data communication provides a kind of new-type data-link connection method; Quick Connect Kit, without the need to molten fine at the scene, reduces field erected labour intensity; Supported data power-off resumes, super low-power consumption.

Description

A kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function

Technical field

The utility model belongs to optical cable plug technical field, especially relates to a kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function.

Background technology

Along with underground coal mine electrical equipment controls the continuous upgrading with data communication method, optical-fibre communications, because it is not by the impact of electromagnetic interference, and the advantages such as the concurrent communication modes of super large data volume can be carried, be used as the medium of data communication more and more widely by underground coal mine.

But, adopt optical-fibre communications, inevitably need to perform molten fine operation at the scene, and these operations require to implement under dustless condition.Due to the specific condition of the coal dust of underground coal mine, for fused fiber splice operation brings very large difficulty, and the labour intensity under being unfavorable for being reduced in bad working environments.

And, although the communication that optical-fibre communications can carry super large data volume is mutual, for optical fiber lay along the line, but can not have enough node access datas, what optical fiber was laid becomes the blind area that data acquisition and equipment controls along the line.Further, optical cable is because of its special Structure composing, easily destroyed under the complex working conditions of down-hole, causes communication failure.

Utility model content

In view of this, the utility model is intended to propose a kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function, for downhole optic fiber data communication provides a kind of new-type data-link connection method.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function, comprise and connect the Quick Connect Kit of optical cable and the plug ends of Quick Connect Kit end, described Quick Connect Kit comprises the optical-electrical converter, wireless controller and the wireless transceiver that connect successively, also has the power supervisor be all connected with optical-electrical converter, wireless controller, wireless transceiver;

The other end of described optical-electrical converter is connected with the fiber bundle of optical cable, and the insulation core wire of the cable section of optical cable is connected to plug ends place one by one; Described plug ends is provided with antenna, and described antenna is connected with the other end of wireless transceiver, and plug ends is also provided with the metal connector be connected with power supervisor, the multiple metal connectors be connected one by one with the insulation core wire of the cable section of optical cable.

Further, described power supervisor is connected with battery.

Further, the shell of described plug ends is non-metallic material, and is divided into upper and lower two parts, and a part of inside arranges antenna, and a part arranges the hole of multiple insertion metal connector, and the part arranging antenna is more outwardly than the part of providing holes.

Further, the shell of described Quick Connect Kit is stainless steel metal material sheath, and the oversheath of optical cable inserts in the shell of Quick Connect Kit, forms complete screen, adopts encapsulating mode to fill in the shell of Quick Connect Kit.

Further, the shell side of described Quick Connect Kit is provided with two grooves, a distance front end groove fit far away U-shaped pin is fixed, the groove mounting O-shaped rubber ring that another distance front end is nearer, the front end face of shell is also provided with one for the groove of mounting O-shaped rubber ring.

Further, the shell of described Quick Connect Kit is provided with the perforate changing battery.

Relative to prior art, the utility model has following advantage:

(1) adopt optical fiber transceiving unitary design, built-in aerial, by the mode transfer of data of wireless connections, for downhole optic fiber data communication provides a kind of new-type data-link connection method; Quick Connect Kit, without the need to molten fine at the scene, reduces field erected labour intensity;

(2) supported data power-off resumes, super low-power consumption.

(3) adopt wireless data access mode, by data access capability improving along the line for optical fiber to conventional on-site bus system or dcs (DCS) data access ability suitable.Adopt optical fiber+wireless transmission method, the data throughput capabilities of conventional on-site bus system or dcs (DCS) is promoted to suitable with fiber data handling capacity.

Accompanying drawing explanation

The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structure principle chart of the utility model embodiment;

Fig. 2 is the end view drawing of the plug ends of the utility model embodiment.

Description of reference numerals:

1-optical cable, 2-Quick Connect Kit, 3-plug ends, 4-internal power cord, 5-data/address bus, 6-fiber bundle, 7-radiofrequency signal, 8-optical-electrical converter, 9-wireless controller, 10-wireless transceiver, 11-antenna, 12-power supervisor, 13-battery, 14-insulation core wire, 15-metal connector.

Embodiment

It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.

Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

With a mining communication pulling force optical cable Quick Connect Kit for radio transmission-receiving function, as shown in Figure 1, comprise the plug ends 3 of Quick Connect Kit 2 and its leading section, the rearward end of Quick Connect Kit 2 connects optical cable 1; Described Quick Connect Kit 2 comprises the optical-electrical converter 8, wireless controller 9 and the wireless transceiver 10 that connect successively, the power supervisor 12 be all connected with optical-electrical converter 8, wireless controller 9, wireless transceiver 10 by internal power cord 4 in addition, power supervisor 12 is connected with battery 13; The other end of described optical-electrical converter 8 is connected with the fiber bundle 6 of optical cable 1, and the insulation core wire 14 of the cable section of optical cable 1 is connected to plug ends 3 place one by one; Described plug ends 3 is provided with antenna 11, described antenna 11 is connected with the other end of wireless transceiver 10, and plug ends 3 is also provided with the metal connector 15 be connected with power supervisor 12, the multiple metal connectors 15 be connected one by one with the insulation core wire 14 of the cable section of optical cable 1.

The shell of described Quick Connect Kit 2 is stainless steel metal material sheath, and the oversheath of optical cable 1 inserts in the shell of Quick Connect Kit 2, forms complete screen, adopts encapsulating mode to fill in the shell of Quick Connect Kit 2; The shell side of described Quick Connect Kit 2 is provided with two grooves, a U-shaped pin of distance front end groove fit far away is fixed, another nearer groove mounting O-shaped rubber ring in distance front end, the front end face of shell is also provided with one for the groove of mounting O-shaped rubber ring; The shell of described Quick Connect Kit 2 is provided with the perforate changing battery 13, realizes the quick-replaceable of internal cell 13.

The shell of described plug ends 3 is non-metallic material, is used for the insulation core wire of fixed light cable 1 on the one hand, on the other hand, helps reception and the transmission of the wireless signal of antenna 11 in the inner, prevent wireless signal conductively-closed; As shown in Figure 2, described plug ends 3 is divided into upper and lower two parts, and a part of inside arranges antenna 11, and a part arranges the hole of multiple insertion metal connector 15, and the part arranging antenna 11 is more outwardly than the part of providing holes, for strengthening the space of data receiver.

The cable section insulation core wire 14 of described optical cable 1 is directly inner through Quick Connect Kit 2, is welded on respectively on the metal connector 15 of plug ends 3.

The fiber bundle 6 of described optical cable 1 or cable portion adopt the mode of direct welding to be connected or to be connected by Optical fiber plug with optical-electrical converter 8, and described optical-electrical converter 8 realizes data-signal with wireless controller 9 by data/address bus 5 and transmits; Data-signal is transferred to the data-signal meeting Wireless Data Protocol by described wireless controller 9 inside, wireless transceiver 10 is issued by data/address bus 5, the signal of telecommunication is become wireless signal through conversion and is gone out by radiofrequency signal 7 and antenna 11 by described wireless transceiver 10, sends to wireless controller 9 after being also changed to the signal of telecommunication by antenna 11 and radiofrequency signal 7 receiving radio data standard by data/address bus 5.

Connected metal connector 15 as externally fed interface, is provided external electric energy to optical-electrical converter 8, wireless controller 9, wireless transceiver 10 by described power supervisor 12; If external power source disconnects, then powered by battery 13.

Optical-electrical converter 8 is as electrooptical device, and require and wideband data requirement in order to the optical attenuation ensureing in the middle of fiber bundle 6 reaches long range propagation, usual power consumption is larger; Described Quick Connect Kit 2, optical cable 1 length of application scenario due to distance shorter, and data volume is little, so can be realized by the operating current reducing optical-electrical converter 8 ensureing that data communication can reduce again the power consumption of optical-electrical converter 8; Wireless transceiver 10 adopts the standby method switched with mode of operation, reduces the standby current not having the communication task time; In addition, whether wireless transceiver 10 can obtain current external by the signal of power supervisor 12 and power normal, if externally fed fault, wireless transceiver 10 can initiatively enter data screening mode of operation, namely by screening, only transmit of paramount importance data, and reduce the number of times that in the unit interval, data send.

The utility model can be applicable to the underground coal mine of methane, coal dust explosion hazard, is applicable to intrinsic safety equipment room Quick Connect Kit, can realize intrinsic safety equipment and reliably reach intrinsic safety effect according to GB3836 standard-required.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Claims (6)

1. the mining communication pulling force optical cable Quick Connect Kit with radio transmission-receiving function, is characterized in that: the plug ends comprising Quick Connect Kit and its leading section, and the rearward end of Quick Connect Kit connects optical cable; Described Quick Connect Kit comprises the optical-electrical converter, wireless controller and the wireless transceiver that connect successively, also has the power supervisor be all connected with optical-electrical converter, wireless controller, wireless transceiver;

The other end of described optical-electrical converter is connected with the fiber bundle of optical cable, and the insulation core wire of the cable section of optical cable is connected to plug ends place one by one; Described plug ends is provided with antenna, and described antenna is connected with the other end of wireless transceiver, and plug ends is also provided with the metal connector be connected with power supervisor, the multiple metal connectors be connected one by one with the insulation core wire of the cable section of optical cable.

2. the mining communication pulling force optical cable Quick Connect Kit of band radio transmission-receiving function according to claim 1, is characterized in that: described power supervisor is connected with battery.

3. the mining communication pulling force optical cable Quick Connect Kit of band radio transmission-receiving function according to claim 1, it is characterized in that: the shell of described plug ends is non-metallic material, and be divided into upper and lower two parts, part inside arranges antenna, a part arranges the hole of multiple insertion metal connector, and the part arranging antenna is more outwardly than the part of providing holes.

4. the mining communication pulling force optical cable Quick Connect Kit of band radio transmission-receiving function according to claim 1, it is characterized in that: the shell of described Quick Connect Kit is stainless steel metal material sheath, the oversheath of optical cable inserts in the shell of Quick Connect Kit, form complete screen, in the shell of Quick Connect Kit, fill encapsulating.

5. the mining communication pulling force optical cable Quick Connect Kit of band radio transmission-receiving function according to claim 1, it is characterized in that: the shell side of described Quick Connect Kit is provided with two grooves, a U-shaped pin of distance front end groove fit far away is fixed, another nearer groove mounting O-shaped rubber ring in distance front end, the front end face of shell is also provided with one for the groove of mounting O-shaped rubber ring.

6. the mining communication pulling force optical cable Quick Connect Kit of band radio transmission-receiving function according to claim 1, is characterized in that: the shell of described Quick Connect Kit is provided with the perforate changing battery.