CH708520A2 - Cable break detection system. - Google Patents

Abstract

The invention relates to a cable break detection system (1) comprising a monitoring device (2) continuously transmitting a surveillance signal and being designed to alert in real time an intervention service in the event of a break in less a cable to be monitored (4) supported by a plurality of cable supports (11) spaced from each other, the detection system (1) further comprises a control device (3) having at least one control cable ( 5) in which the monitoring signal passes, said control cable (5) being designed to break, in a predetermined breaking zone, under a stress lower than a predetermined breaking stress of the cable to be monitored (4). The invention also relates to a connecting collar (6) made of a control cable (5) on a cable support (11).

Description

Description

The present invention relates to the field of protection systems against theft or degradation of cables, electrified or not, and more particularly to the systems for detecting failure of these cables.

Electrical cables are increasingly the target of thieves who cut whole sections of cables to recover the metals, including copper. These flights are increasing due to the increase in the price of metals in general, and that of copper in particular.

Weather can also be a source of cable degradation. Indeed, the latter can cause for example the fall of trees on aerial wire networks causing degradation of the latter.

Generally, the cable cut is immediate, but it takes time before the information reaches the line intervention and repair service. However, real-time detection of the incident is all the more decisive in that cable thefts occur in a very short time and on long-distance sectors, which considerably slows the intervention of the security services.

In addition, it is difficult to locate the cut precisely because no location information is transmitted to the services concerned.

In addition to the inconvenience related to the disruption of equipment powered by these cables, the financial cost of these flights or bad weather is very important since it incorporates, on the one hand, the cost of equipment to replace and the cost of interventions to to carry out urgently, and secondly, the collateral costs generated, for example, by the reimbursement of travelers as in the case of a train stop.

Moreover, the cutting of these cables can affect the safety of users if the offense or accident occurs on sensitive facilities.

The invention aims to remedy all or part of the aforementioned drawbacks.

The invention relates to a cable rupture detection system comprising a monitoring device continuously transmitting a monitoring signal and being designed to alert in real time an intervention service in case of failure of at least a cable to be monitored supported by a plurality of cable supports spaced from each other, characterized in that the detection system further comprises a control device comprising at least one control cable in which the monitoring signal passes, said cable control device being designed to break, in a predetermined area, under a constraint lower than a predetermined breaking stress of the cable to be monitored.

According to the invention, when a force is applied to the cable to be monitored such as to break, the associated control cable yields at a predetermined area before or at the same time as the cable to monitor. The monitoring signal is thus instantly interrupted, which makes it possible to immediately inform the intervention services of the cut or the attempt to cut the cable to be monitored.

In addition, the predetermined area allows to locate the cut or attempt to cut and accelerates the tracking and intervention of the services concerned.

The term "cable supports" poles or hangers or any other system supporting the cable to monitor.

Preferably, the cable supports are spaced at regular intervals.

Advantageously, the distance between two cable supports corresponds to a section of the cable line.

Preferably, each section corresponds to a distance substantially equal to 500 m.

According to another characteristic of the invention, the control cable is positioned in parallel with the cable to be monitored.

According to another characteristic of the invention, the control cable can be fixed on the cable to be monitored itself, the cable then becoming a control cable support.

According to another characteristic of the invention, said control cable is supported by a connection device positioned near the predetermined breaking zone, said connecting device being attached to each cable support of the plurality of supports of cable. During a control cable break, it is thus possible to identify the connection device closest to the control cable break, which makes it possible to know which section of cable is concerned.

According to another characteristic of the invention, the connecting device comprises a connecting collar shaped to receive at least a portion of control cable, the control cable portion being provided with connectors at each of its ends.

According to another characteristic of the invention, at least one other control cable portion comprises cooperating connectors, in complementary form, with the connectors of the control cable portion received in the connecting collar.

Advantageously, the connection of the two control cable portions is non-permanent, which ensures the simple disconnection of control cable portions when a force is applied to the control cable.

[0022] Preferably the connectors are of the bayonet type.

According to another characteristic of the invention, the monitoring device comprises at least one master module, at least one slave module and at least one station module, the slave module being connected to the control cable and configured to send an alert. to the master module, the master module being designed to transmit in real time said alert to the station module and the station module being configured to communicate the alert to the intervention services.

Preferably, the master module sends the alert to the station module by radio wave.

Advantageously, the master module is physically connected to at least one section or a cable holder to monitor.

According to another characteristic of the invention, at the end of each section or a cable support, is implanted a slave module which itself is connected to at least one section or a cable support. Thus, when one wants to locate the cut very precisely, it is sufficient to identify which slave module relayed the cutoff alert.

According to another characteristic of the invention, the station module comprises at least one transmission means shaped to convey information of the polar coordinate type.

Preferably, the transmission means is a GPRS system "General Packet Radio Service".

Advantageously, the power supply of the master and slave modules can be achieved by photovoltaic panels.

The invention also relates to a connecting device designed to equip a detection system according to the invention as described above, said a connecting device comprising a connecting collar shaped to receive at least a portion of cable of control in a first position, said insertion, and for fixing said portion of control cable to a cable support in a second position, said folding.

According to another characteristic of the invention, the connecting device comprises at least one fastening means shaped to fix said connecting collar in the folded position.

According to another characteristic of the invention, the connecting collar comprises a hollow cylindrical sheath shaped to receive the control cable and at least one fin designed to form a flat base, said at least one fin extending over at least a portion of the length of the hollow cylindrical sheath.

Preferably, the connecting collar comprises two fins positioned on either side of the hollow cylindrical sheath.

The or fins, forming a flat base, prevent the connection collar once positioned does not curl or change position on the cable holder and thus prevents the interruption of the monitoring signal.

Preferably, the or fins are provided with ridges having a non-slip function, thereby improving the mechanical grip of the collar to its support by friction.

Advantageously, the connecting collar may comprise an extra thickness disposed under the or fins to increase the diameter of the collar of the ring if necessary, depending on the diameter of the control cable.

Preferably the connecting collar is made of a material allowing resistance to ultraviolet, and / or mechanical resistance, and / or a classification M1 reaction to fire, and / or withstand temperature variations of the order of -20 ° C to +50 ° C.

The invention will be better understood, thanks to the following description, which relates to a preferred embodiment according to the present invention, given by way of non-limiting example and explained with reference to the accompanying diagrammatic drawings, in which: which: FIG. 1 is a partial view of the cable rupture detection system according to the invention, FIG. 2 is a schematic view of the monitoring device of the detection system shown in FIG. 1, fig. 3 is a perspective view of a connecting collar in insertion position according to the invention, and, FIG. 4 is a perspective view of a connecting device according to the invention, with a connecting collar in the folded position.

The invention relates to a cable 1 detection system 1 as shown in FIG. 1.

In the example of FIG. 1 is illustrated a detection system 1 comprising a slave module 8 of a monitoring device 2 (shown in FIG 2), a control device 3 comprising two control cables 5 each connected to said slave module 8.

Each control cable 5 is attached to the cable support 1 1 by a connecting device 16, and is connected in parallel with the cable to be monitored 4.

3

Claims (10)

Of course, the cable support 11 can support a control cable 5 or a plurality of control cables 5, the number of control cables 5, their connections and their arrangement are not limited to FIG. 1. The control cable 5 is cut into several portions of cable which are joined by connectors 10 at each connecting collar 6. The connectors 10 have a low resistance to tearing, which allows fast disconnection as soon as the cable to be monitored 4 is cut. In fig. 3 and 4, the connecting collar 6 comprises a hollow cylindrical sheath 6a, and two fins 6b positioned on either side of the hollow cylindrical sheath 6a, to form a flat base. FIG. 3 shows the connecting collar 6 in insertion position, in which a portion of control cable 5 can be inserted into the hollow cylindrical sheath 6a. FIG. 4 shows the connecting device 16, with the connecting collar 6 in the folded position. In this position, the connecting collar 6 is intended to be positioned around the cable support January 1, as shown in FIG. 1 and a portion of cable 5 is inserted into the connecting collar 6. In this folded position, the connecting collar 6 is folded on itself, the free ends of said connecting collar 6 being substantially opposite one another and forming, at the level of the curved portion of the connecting collar 6, an orifice 12 intended to be in contact with the cable support 1 1. The folding position of the connecting collar 6 is fixed by a fastening means 6c, of the clip type, which encloses the ends of the connecting collar 6, the flat portions of the fins 6b forming the flat base being arranged on the one against the other. In addition, each end of the portion of control cable 5 inserted, is provided with a connector 10. These connectors 10 are intended to cooperate with other connectors of another portion of control cable 5, which preferably not inserted into a connecting collar 6. Advantageously, the other portion of control cable 5, which is preferably not inserted into a connecting collar 6 connects by means of connectors 10 two portions of control cable 5, which are preferably , each inserted in a connecting collar 6. In fig. 2, is illustrated the entire monitoring device 2, which comprises a plurality of slave modules 8 provided with photovoltaic panels for their power supply. The slave modules 8 are connected to a common master module 7, which is also provided with a photovoltaic panel. The power supply of the slave modules 8 and the master module 7 is not limited to solar energy. In addition, the monitoring device 2 may comprise a plurality of master modules 7 connected to at least one slave module 8. In the event of interruption of the monitoring signal, the slave module 8, the closest to the physical break of the control cable 5, namely the disconnection of a connector 10 of a portion of the control cable 5, sends, in real time, the information to the master module 7 which transmits it by radio waves to the station module 9. The station module 9 then transmits by GPRS system the polar coordinates of the cut to the intervention services (not shown). The detection system 1 as well as the connecting device 16 according to the present invention can also be applied by a similar installation, securing transformers and copper pipes, and any mobile or fixed equipment requiring monitoring against the flight, Of course, the invention is not limited to the embodiment described and shown in the accompanying figures. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention. claims A cable break detection system (1) comprising a monitoring device (2) continuously transmitting a monitoring signal and being adapted to alert in real time an intervention service in case of breakage of at least one cable to be monitored (4) supported by a plurality of cable supports (1 1) spaced from each other, characterized in that the detection system (1) further comprises a control device (3) comprising at least one cable of control (5) in which the monitoring signal passes, said control cable (5) being designed to break, in a predetermined breaking zone, under a stress less than a predetermined breaking stress of the cable to be monitored (4). 2. Detection system according to claim 1, characterized in that said control cable (5) is supported by a connecting device (16) positioned near the predetermined breaking zone, said connecting device (16) being attached to each cable support (11) of the plurality of cable supports (11). 4 3. Detection system according to claim 2, characterized in that the connecting device (16) comprises a connecting collar (6) shaped to receive at least a portion of control cable (5), the cable portion of control (5) being provided with connectors (10) at each of its ends. 4. Detection system according to claim 3, characterized in that at least one other portion of the control cable (5) comprises connectors (10) cooperating, in complementary form, with the connectors (10) of the portion of control cable received in the connecting collar (6). 5. Detection system according to any one of claims 1 to 4, characterized in that the control cable (5) is positioned in parallel with the cable to be monitored (4). 6. Detection system according to any one of claims 1 to 6, characterized in that the monitoring device (2) comprises at least one master module (7), at least one slave module (8) and at least one station module (9), the slave module (8) being connected to the control cable (5) and shaped to send an alert to the master module (7), the master module (7) being designed to transmit in real time said alert to the station module (9) and the station module (9) being configured to communicate the alert to the emergency services. 7. Detection system according to claim 6, characterized in that the station module (9) comprises transmission means shaped to convey information of the polar coordinate type. 8. Connecting device (16) designed to equip a detection system (1) according to any one of claims 1 to 7, characterized in that it comprises a connecting collar (6) shaped to receive at least a portion control cable (5) in a first position, said insertion, and for attaching said portion of control cable (5) to a cable support (11) in a second position, said folding. 9. Connecting device according to claim 8, characterized in that it comprises at least one fastening means (6c) shaped to fix said connecting collar (6) in the folded position. 10. Connecting device according to any one of claims 8 or 9, characterized in that the connecting collar (6) comprises a hollow cylindrical sheath (6a) shaped to receive the control cable (5) and at least one fin (6b) adapted to form a flat base, said at least one fin (6b) extending over at least a portion of the length of the hollow cylindrical sheath (6a). 5