CN105261894A

CN105261894A - Cable connection device and monitoring system

Info

Publication number: CN105261894A
Application number: CN201510707795.4A
Authority: CN
Inventors: 崔子扬
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-10-28
Filing date: 2015-10-28
Publication date: 2016-01-20

Abstract

The present invention discloses a cable connection device and a monitoring system, relating to the technical field of a cable connection device. The connection device comprises a segment of connection cable, compression connectors which are connected to the two ends of the connection cable, a magnetic sensing sensor, a signal processing module and a wireless transmission module. The magnetic sensing sensor is in the shell of one compression connector. The signal processing module and the wireless transmission module are outside the shell of the compression connector. The magnetic sensing sensor is connected to the signal input end of the signal processing module. The wireless transmission module is connected to the signal output end of the signal processing module. According to the connection device, two separated cables can be connected together, according to the magnetic field around the cable, whether the cable connection is normal or not can be judged, thus the use of a power grid connection device is monitored, and the security and stability of power grid operation are improved.

Description

Cable connecting arrangement and supervisory control system

Technical field

The present invention relates to the jockey technical field of cable, particularly relate to a kind of cable connecting arrangement and supervisory control system.

Background technology

Because the cable be connected to together after disconnection is easy to such or such fault occurs, need to monitor it, also find fault accurately in time.No matter cable connecting arrangement of the prior art is that structure is simple or baroque, all simply the two strands of cables disconnected are linked together, cable status in the quality that cable connects and later use procedure all cannot be learnt, uses less stable.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of cable connecting arrangement and supervisory control system, two cables disconnected can not only connect together by described jockey, can also according to the magnetic field around cable, judge whether cable connects normal, thus the service condition of monitoring electrical network jockey, improve the safety and stability of operation of power networks.

For solving the problems of the technologies described above, the technical solution used in the present invention is: a kind of cable connecting arrangement, comprise a drop cable and the compression connector being connected to stube cable two ends, it is characterized in that: also comprise magnetic induction sensor, signal processing module and wireless transport module, described magnetic induction sensor is positioned at the shell of described compression connector, described signal processing module and wireless transport module are positioned at outside the shell of described compression connector, described magnetic induction sensor is connected with the signal input part of signal processing module, described wireless transport module is connected with the signal output part of signal processing module, after Magnetic Field around the cable that magnetic induction sensor senses sends to signal processing module process, by wireless transport module, the Magnetic Field after process is transferred to far-end.

Further technical scheme is: described cable connecting arrangement also comprises locating module, and described locating module is used for the positional information of cable connecting arrangement to send to far-end by wireless communication system.

Further technical scheme is: described compression connector comprises shell, described shell comprises upper cover and lower cover, the left and right sidewall of described upper cover and lower cover is provided with semi-circular through hole, after upper cover is fixedly connected with lower cover, two semi-circular through hole on the sidewall of the same side form cable access aperture, be provided with several crinolines to downward-extension in described upper cover, described crinoline is provided with three row, and the crinoline between adjacent rows forms the guide channel of cable, the pressing plate stopping means that several upwards extend is provided with in described lower cover, described pressing plate stopping means is provided with more than four row and is even column, two are classified as one group, often organize in pressing plate stopping means and be provided with one piece of metal platen arranged along lower cover fore-and-aft direction, cover under on the downside of metal platen and be provided with screwed hole, one end of fishbolt enters in lower cover through described screwed hole, the other end of fishbolt is positioned at outside lower cover, when described fishbolt rotates rising, one end of fishbolt contacts with metal platen, drive metal platen moves upward, the cable enter the cable access aperture from two ends, left and right and stube cable compress, described upper cover, lower cover, crinoline and pressing plate stopping means are insulating part.

Further technical scheme is: described crinoline is lead or guide plate, and crinoline is provided with three row.

Further technical scheme is: described pressing plate stopping means is lead or guide plate, and pressing plate stopping means is provided with two row.

Further technical scheme is: described semi-circular through hole is provided with seal.

Further technical scheme is: cover under on the downside of described metal platen, and the fore-and-aft direction along lower cover is provided with two screwed holes, is provided with a fishbolt in each screwed hole.

Further technical scheme is: described metal platen is resilient metal member, and the fore-and-aft direction along metal platen is provided with two arc-shaped recess, and described screwed hole is relative with the least significant end of described arc-shaped recess, and described arc-shaped recess is relative with the guide channel of cable.

The invention also discloses a kind of cable monitoring system, it is characterized in that: comprise cable connecting arrangement described in several, also comprise wireless communication system and remote monitoring terminal, described cable connecting arrangement carries out data interaction by wireless communication system and described remote monitoring terminal, the positional information of the Magnetic Field around the cable sensed by magnetic induction sensor and locating module collection sends to remote monitoring terminal, according to the presence or absence in magnetic field, remote monitoring terminal judges whether cable connecting arrangement place conducts electricity, and the particular location of cable connecting arrangement is obtained by positional information.

Further technical scheme is: described remote monitoring terminal comprises desktop computer, notebook computer, PDA and mobile phone.

The beneficial effect adopting technique scheme to produce is: in use, because the compression connector of two in jockey and stube cable link together, make to need the cable connected cannot enter described jockey, therefore, first loosening fishbolt makes a compression connector be separated with stube cable, then, in the cable needing to connect one is put in described jockey, the one end again stube cable not being compressed connector is put in jockey, finally rotate fishbolt, when described fishbolt rotates rising, one end of fishbolt contacts with metal platen, drive metal platen moves upward, the cable enter the cable access aperture from two ends, left and right and a stube cable compress, another root needs the operation of the cable connected consistent with aforesaid operations, and after above-mentioned twice operation, two cables be separated are joined together.

Described jockey comprises magnetic induction sensor, magnetic induction sensor is positioned at the shell compressing connector, for the magnetic field around induction cable, only has when cable is energized, magnetic field could be produced around it, show that the cable disconnected connects by jockey intact; And when cable is without electricity, around it, there is no magnetic field, show that cable does not connect by jockey, two cables or no power; Therefore just can judge whether intact two cables disconnected connect by the magnetic field gathered around cable, and coordinate the use of locating module can find fault point timely, reduce loss.

The situation of cable junction is disconnected by described jockey Real-Time Monitoring, then computer or the mobile phone of far-end is sent to by Radio Network System, facilitate remote personnel observed data, in time fault is processed, the service condition of monitoring electrical network jockey, improves the safety and stability of operation of power networks.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

Fig. 1 is the structural representation of jockey of the present invention;

Fig. 2 is the horizontal sectional structure schematic diagram of compression connector of the present invention;

Fig. 3 is longitudinal sectional structure schematic diagram of compression connector of the present invention;

Fig. 4 is a kind of structural representation of metal platen in described jockey;

Fig. 5 is the theory diagram of described supervisory control system;

Wherein: 1, connection cable 2, compression connector 21, upper cover 22, lower cover 23, wire access aperture 24, type low-voltage cable guider 25, pressing plate stopping means 26, metal platen 27, fishbolt 3, arc-shaped recess 4, magnetic induction sensor 5, signal processing module 6, wireless transport module 7, locating module 8, wireless communication system 9, remote monitoring terminal.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Set forth a lot of detail in the following description so that fully understand the present invention, but the present invention can also adopt other to be different from alternate manner described here to implement, those skilled in the art can when without prejudice to doing similar popularization when intension of the present invention, therefore the present invention is by the restriction of following public specific embodiment.

As shown in Figure 1, the invention discloses a kind of cable connecting arrangement, comprise a drop cable 1 and the compression connector 2 being connected to stube cable 1 two ends, also comprise magnetic induction sensor 4, signal processing module 5, locating module 7 and wireless transport module 6.Described magnetic induction sensor 4 is positioned at the shell of described compression connector 2 (relative to being placed on outside shell, closer to described cable, more easily experience the change of cable surrounding magnetic field), described signal processing module 5 and wireless transport module 6 are positioned at outside the shell of described compression connector, described magnetic induction sensor 4 is connected with the signal input part of signal processing module 5, described wireless transport module 6 is connected with the signal output part of signal processing module 5, after Magnetic Field around the cable that magnetic induction sensor 4 senses sends to signal processing module 5 to process, by wireless transport module 6, the Magnetic Field after process is transferred to far-end.Described locating module 7 is positioned at outside described shell, for the positional information of cable connecting arrangement is sent to far-end by wireless communication system.

As Figure 2-3, described compression connector 2 comprises shell, and described shell comprises upper cover 21 and lower cover 22.The left and right sidewall of described upper cover 21 and lower cover 22 is provided with semi-circular through hole, after upper cover 21 is fixedly connected with lower cover 22, two semi-circular through hole on the sidewall of the same side form cable access aperture 23, several crinolines 24 to downward-extension are provided with in described upper cover 21, described crinoline 24 is provided with three row, and the crinoline 24 between adjacent rows forms the guide channel of cable, the pressing plate stopping means 25 that several upwards extend is provided with in described lower cover 22, described pressing plate stopping means 25 is provided with more than four row and is even column, two are classified as one group, often organize in pressing plate stopping means 25 and be provided with one piece of metal platen 26 arranged along lower cover 22 fore-and-aft direction, lower cover 22 on the downside of metal platen 26 is provided with screwed hole, one end of fishbolt 27 enters in lower cover 22 through described screwed hole, the other end of fishbolt 27 is positioned at outside lower cover 22, when described fishbolt 27 rotates rising, one end of fishbolt 27 contacts with metal platen 26, metal platen 26 is driven to move upward, the cable enter the cable access aperture from two ends, left and right and stube cable 1 compress, described upper cover 21, lower cover 22, crinoline 24 and pressing plate stopping means 25 are insulating part.

Further, described crinoline 24 is lead or guide plate, and crinoline 24 is provided with three row.Described pressing plate stopping means 25 is lead or guide plate, and pressing plate stopping means 25 is provided with two row.Described semi-circular through hole is provided with seal, entering shell, affecting cable junction for placing rainwater etc.On lower cover 22 on the downside of described metal platen 26, the fore-and-aft direction along lower cover 22 is provided with two screwed holes, is provided with a fishbolt 27 in each screwed hole.As shown in Figure 4, described metal platen 26 is resilient metal member, and the fore-and-aft direction along metal platen 26 is provided with two arc-shaped recess 3, and described screwed hole is relative with the least significant end of described arc-shaped recess 3, and described arc-shaped recess 3 is relative with the guide channel of cable.

As shown in Figure 5, the invention also discloses a kind of cable monitoring system, comprise the cable connecting arrangement described in several, also comprise wireless communication system 8 and remote monitoring terminal 9.Described cable connecting arrangement carries out data interaction by wireless communication system 8 and described remote monitoring terminal 9, the positional information that Magnetic Field around the cable sense magnetic induction sensor 4 and locating module 7 gather sends to remote monitoring terminal 9, according to the presence or absence in magnetic field, remote monitoring terminal 9 judges whether cable connecting arrangement place conducts electricity, and obtain the particular location of cable connecting arrangement by positional information.Further, described remote monitoring terminal 9 can be desktop computer, notebook computer, PDA and mobile phone.

In use, because the compression connector of two in jockey and stube cable link together, make to need the cable connected cannot enter described jockey, therefore, first loosening fishbolt makes a compression connector be separated with stube cable, then, in the cable needing to connect one is put in described jockey, the one end again stube cable not being compressed connector is put in jockey, finally rotate fishbolt, when described fishbolt rotates rising, one end of fishbolt contacts with metal platen, drive metal platen moves upward, the cable enter the cable access aperture from two ends, left and right and a stube cable compress, another root needs the operation of the cable connected consistent with aforesaid operations, and after above-mentioned twice operation, two cables be separated are joined together.

Claims

1. a cable connecting arrangement, comprise a drop cable (1) and be connected to the compression connector (2) at stube cable (1) two ends, it is characterized in that: also comprise magnetic induction sensor (4), signal processing module (5) and wireless transport module (6), described magnetic induction sensor (4) is positioned at the shell of described compression connector (2), described signal processing module (5) and wireless transport module (6) are positioned at outside the shell of described compression connector, described magnetic induction sensor (4) is connected with the signal input part of signal processing module (5), described wireless transport module (6) is connected with the signal output part of signal processing module (5), after Magnetic Field around the cable that magnetic induction sensor (4) senses sends to signal processing module (5) to process, by wireless transport module (6), the Magnetic Field after process is transferred to far-end.

2. cable connecting arrangement as claimed in claim 1, it is characterized in that: described cable connecting arrangement also comprises locating module (7), described locating module (7) is for sending to far-end by the positional information of cable connecting arrangement by wireless communication system.

3. cable connecting arrangement as claimed in claim 1, it is characterized in that: described compression connector (2) comprises shell, described shell comprises upper cover (21) and lower cover (22), a left side for described upper cover (21) and lower cover (22), right side wall is provided with semi-circular through hole, after upper cover (21) is fixedly connected with lower cover (22), two semi-circular through hole on the sidewall of the same side form cable access aperture (23), several crinolines to downward-extension (24) are provided with in described upper cover (21), described crinoline (24) is provided with three row, crinoline (24) between adjacent rows forms the guide channel of cable, the pressing plate stopping means (25) that several upwards extend is provided with in described lower cover (22), described pressing plate stopping means (25) is provided with more than four row and is even column, two are classified as one group, often organize in pressing plate stopping means (25) and be provided with one piece of metal platen (26) arranged along lower cover (22) fore-and-aft direction, the lower cover (22) of metal platen (26) downside is provided with screwed hole, one end of fishbolt (27) enters in lower cover (22) through described screwed hole, the other end of fishbolt (27) is positioned at lower cover (22) outward, when described fishbolt (27) rotates rising, one end of fishbolt (27) contacts with metal platen (26), metal platen (26) is driven to move upward, the cable enter the cable access aperture from two ends, left and right and stube cable (1) compress, described upper cover (21), lower cover (22), crinoline (24) and pressing plate stopping means (25) are insulating part.

4. cable connecting arrangement as claimed in claim 3, is characterized in that: described crinoline (24) is lead or guide plate, and crinoline (24) is provided with three row.

5. cable connecting arrangement as claimed in claim 3, is characterized in that: described pressing plate stopping means (25) is lead or guide plate, and pressing plate stopping means (25) is provided with two row.

6. cable connecting arrangement as claimed in claim 3, is characterized in that: described semi-circular through hole is provided with seal.

7. cable connecting arrangement as claimed in claim 3, is characterized in that: on the lower cover (22) of described metal platen (26) downside, the fore-and-aft direction along lower cover (22) is provided with two screwed holes, is provided with a fishbolt (27) in each screwed hole.

8. cable connecting arrangement as claimed in claim 3, it is characterized in that: described metal platen (26) is resilient metal member, fore-and-aft direction along metal platen (26) is provided with two arc-shaped recess (3), described screwed hole is relative with the least significant end of described arc-shaped recess (3), and described arc-shaped recess (3) is relative with the guide channel of cable.

9. a cable monitoring system, it is characterized in that: comprise several as the cable connecting arrangement in claim 1-8 as described in any one, also comprise wireless communication system (8) and remote monitoring terminal (9), described cable connecting arrangement carries out data interaction by wireless communication system (8) and described remote monitoring terminal (9), the positional information that Magnetic Field around the cable sense magnetic induction sensor (4) and locating module (7) gather sends to remote monitoring terminal (9), according to the presence or absence in magnetic field, remote monitoring terminal (9) judges whether cable connecting arrangement place conducts electricity, and the particular location of cable connecting arrangement is obtained by positional information.

10. cable monitoring system as claimed in claim 1, is characterized in that: described remote monitoring terminal (9) comprises desktop computer, notebook computer, PDA and mobile phone.