NL2029208B1 - Device for determining position and nature of main veins of a main cable - Google Patents

Abstract

Device for determining position and nature of main cores of a main cable, the device being rotatable about the main cable in a position of use, comprising: at least one conductor which is electrically insulated from the main cores, the or each conductor being adapted to be located in the to be located near an outer wall of the main cable when in use; a voltage meter configured to measure a voltage or voltages between the or each conductor and a predetermined reference point generated by electrostatic action of charge carriers in the main veins; and a microcontroller configured to detect a maximum or minimum amplitude of the measured voltage or voltages when the device is rotated about the trunk in the in-use condition, and configured to determine the locations of the trunks based on the detected maximum or minimum amplitude.

Description

Device for determining position and nature of main veins of a main cable

The present invention relates to determining the position and nature of main veins of a main cable. Specific embodiments relate to a device for determining position and nature of main conductors of a main cable, a device for determining a nature of main conductors of a main cable, a system for determining position and nature of main conductors of a main cable, the use of such apparatus or system for determining position and nature, or a nature, of trunks of a trunk cable, and apparatus for electrically connecting such trunk.

For certain purposes, such as installing a home branch joint, i.e., a joint that branches a branch cable from a main electrical cable to supply electrical service to a building, such as a home or business premises, it is useful to know the position and nature of the main conductors in determine the main cable. There are typically four different main cores in such a main cable, but sometimes more, e.g. 6, or less, and the branch must connect well to each main core. It is particularly important that the contact to each main conductor of the main cable be sufficiently centered in that main conductor to prevent contact failure, and in addition the branch must match the nature, or color, of the main conductor, to ensure the correct voltages between them. between the main cores of the branch cable.

The common approach to determining position and nature of main conductors of a conductor involves stripping the main cable to expose the main conductors; mounting a clamp on the main veins; wrapping the clamp and backfilling the exposed portion of the main cable (typically with resin} to restore that exposed portion.

This conventional approach has at least the following disadvantages: - It is labour-intensive, because it requires the main cable to be stripped and, after branching, wrapped and filled with resin, for example. - It does not provide sufficient safety, because several conductors are exposed during the operation, especially when stripping the main cable.

- It does not provide an adequate guarantee of quality, because quality strongly depends on how well the installer applies the branch sleeve, and in addition, stripping the main cable makes its structure and the precise position of the main cores in the main cable less stable.

It is an object of the present invention to solve at least one or more of these disadvantages.

To this end, the present invention provides a device for determining the position and nature of main cores of a main cable, the device being rotatable around the main cable in a position of use, comprising: - at least one conductor that is electrically insulated from the main cores, wherein the or each conductor is arranged to be in use at an outer wall of the main cable, the or each conductor extending along a longitudinal direction that shares at least a length component with a longitudinal direction of the main cable; - a voltage meter adapted to measure a voltage or voltages between the or each conductor and a predetermined reference point, which voltage or voltages are generated by electrostatic influence of charge carriers in the main veins when the or each conductor is in the operating condition at the outer wall of the main cable is located; and - a microcontroller configured to detect a maximum or minimum amplitude of the measured voltage or voltages when the device is rotated around the trunk in the in-use condition, and configured to determine the locations of the trunks based on the detected maximum or minimum amplitude .

This arrangement solves the drawbacks described above because it no longer requires the main cable to be stripped, wrapped and filled with resin, because none of the conductive elements inside the main cable are exposed, and because the stability of the structure of the main cable is preserved.

Moreover, this device is convenient and quick to use, with a minimum of training for an operator, which makes the application possibilities very numerous.

Note that the nature of a main conductor of a main cable typically corresponds to the color of that main conductor, but that the nature in the strict sense is actually determined by the ratio of the AC electrical voltage to that in the other main conductors. The person skilled in the art will be able to make this distinction without any problems, which is why "nature" will suffice in the present text.

Also note that it is implicitly assumed that a power source is available to the microcontroller. This can simply be your own battery, but a connection can also be provided for connection to an external energy source. In another embodiment, a parasitic power system can even be provided, which is arranged to drive the microcontroller based on energy harvested from the environment, preferably from the electrical energy present in the main cable.

In practical embodiments, the predetermined reference point can be, for example, an internal ground of the device itself, or, for example, the earth shield of the main cable, or, for example, a earth stake driven into the ground, etc.

In one embodiment, the at least one conductor has at least two conductors arranged to be located on opposite sides of the outer wall in the position of use.

This makes it possible to rotate only 180 degrees.

In one embodiment, the at least one conductor has three conductors arranged to be located in the position of use on three sides of the outer wall, which three sides are mutually either substantially at right angles to each other or substantially at 120° from each other.

In one embodiment, the at least one conductor has four conductors, adapted to be located on four sides of the outer wall in the position of use, which four sides are substantially at right angles to each other.

In one embodiment, the at least one conductor has six conductors arranged to be located in the position of use on six sides of the outer wall, which six sides are mutually spaced at substantially 80°.

In an Embodiment, the or each conductor extends in a longitudinal direction that corresponds to an estimated conventional winding pitch of the main veins.

The skilled person will recognize that the conventional winding pitch can be determined on the basis of applicable norms and standards, such as for example standard NEN 3616:2001 nl in

Netherlands for the definition of this type of main cable. Even if a main cable were to deviate in practice from the conventions defined in such norms and standards, the estimated conventional winding pitch still provides a suitable approximation, at least to start with.

In this way the most efficient electrostatic influence can be obtained.

In one embodiment, the device comprises a substantially annular recess adapted to receive the main cable.

In this way, the device can be closely connected to the main cable.

In a further developed embodiment, the device comprises two jaw parts of complementary design which, in the position of use, form the recess for receiving the main cable.

In this way, the operator can suffice with access from only one direction; it does not need to be able to reach the “back” or “bottom” of the main cable.

In a further developed embodiment, the two jaw parts are fixedly coupled to each other, preferably by means of a clamping spring; or the two jaw parts are independent of each other, and they each comprise a connecting mechanism of complementary design, which is adapted to releasably couple the two jaw parts to each other.

In this way the device offers increased ease of use, because the clamping spring ensures that the jaw parts close automatically in order to receive the main cable.

In one embodiment, the microcontroller is configured to determine, assuming the trunk has a known clockwise field: that a detected minimum amplitude indicates that an underlying trunk is a neutral conductor; - that phase 2 is opposite the neutral charger; - that phase 1 has a phase lead compared to phase 2; and - that phase 3 is behind phase 2 with respect to phase 2.

In an alternative or additional embodiment, the microcontroller is arranged to determine, assuming that the trunk has a known counterclockwise field: that a detected minimum amplitude indicates that an underlying trunk is a neutral conductor; - that phase 2 is opposite the neutral charger; - that phase 1 has a phase lag compared to phase 2; and - that phase 3 has a phase lead over phase 2.

Note that this determination can be made assuming a known conventional clockwise or counterclockwise electric field. In case the direction of rotation of the electric field should not be known, it is possible to determine it conveniently in another way, as will be described below with reference to the use of another device.

In one embodiment, the device comprises an indicator, preferably a buzzer or an optical indicator, the microcontroller being arranged to drive the indicator so that the indicator gives an indication when the maximum or minimum amplitude is detected.

This allows the operator to more smoothly rotate the device to a suitable angle of rotation.

In one embodiment, the microcontroller is arranged to convert the measured voltage or voltages from a time domain to a frequency domain by means of a Fourier transform; wherein the microcontroller is adapted to determine the locations of the main veins based on at least one frequency peak corresponding to the maximum or minimum amplitude when the device is rotated about the main cable.

In this way it is possible to exclude frequencies higher and lower than the mains frequency, and the interpretation of maximum and minimum amplitude is easier, namely as simple height of the peak around the mains frequency in the frequency domain.

In one embodiment, the device comprises a gyroscope arranged to determine an angle of rotation made by the device relative to a conventional vertical direction, preferably the gravity direction, the microcontroller being arranged to take into account when determining the locations of the major veins. with the angle of rotation determined by the gyroscope.

This allows the microcontroller to determine the locations of the main veins independent of the current angle of rotation of the device, because the microcontroller can compensate for the current angle of rotation of the device.

In one embodiment, the device comprises at least one indicating means, the microcontroller being adapted to control the at least one indicating means on the basis of the determined locations of the main veins, such that the at least one indicating means gives an indication of an underlying main vein or respective underlying main veins .

In this way there is an increased ease of use, more accuracy, and a better precision in the indication of the zone for the operator.

In a specific embodiment, the at least one indication means comprises at least one of the following: an indication zone, preferably an LED strip; and a preferably cylindrical display.

In an embodiment, in which the at least one indication zone has a first, second, third and fourth indication zone, the microcontroller is arranged to display the respective colors of the main veins, preferably by: - the first indication zone with a first colour, preferably green, to light up to indicate that an underlying main vein is a neutral conductor; - illuminate the second indication zone with a second color, preferably yellow, to indicate that the underlying main vein is phase 2, opposite the neutral conductor; and in case the main cable has a clockwise field: - lighting up the third indication zone with a third color, preferably red, to indicate that the underlying main vein is phase 1, with a phase lead compared to phase 2; and - illuminate the fourth indication zone with a fourth color, preferably blue, to indicate that the underlying main vein is phase 3, with a phase lag from phase 2; or in case the main cable has a counterclockwise field: - make the third indication zone light up with a third color, preferably red, to indicate that the underlying main vein is phase 1, with a phase lag from phase 2; and - illuminate the fourth indication zone with a fourth color, preferably blue, to indicate that the underlying main vein is phase 3, with a phase lead over phase 2.

Alternatively or additionally, the device comprises a communication module, preferably a Bluetooth module, which is adapted to communicate with a user device, preferably a smartphone, of an installer, and to indicate by means of that communication which trunk line is located where in the main cable.

In one embodiment, the device comprises a module for determining data related to branches, such as data about a location, preferably a

GNSS, in particular GPS, module, and a communication module, with which the device can send the data to a central database. In this way, an operator can stay better informed of which branches have been installed where on the main cable or main cables.

The present invention also provides for the use of a device according to one of the above-described embodiments for determining the position and nature of main veins of a main cable.

In an embodiment of the use, because the use additionally: - connecting a housing branch socket comprising at least one contact pin; - inserting the at least one contact pin into respective main cores of the main cable by means of a mechanism, which mechanism is adapted to insert each contact pin of the at least one contact pin into the main core under a guaranteed tension or with a guaranteed tightening torque or at a guaranteed depth to bring.

Such an automatic mechanism can operate, for example, by means of a pre-imposed spring tension of a spring that is automatically released, or by means of a preset motor, or by means of a preset pressure that can be built up by means of a pneumatic reservoir, or by means of a contact pin with a well-selected shear bolt arranged to break at a pre-set tension, or by means of a bolt with a fixed depth setting, etc.

The present invention also provides a device for determining a nature of the main veins of a main cable, comprising: - a bracket provided, at least on its inner side, which is substantially annular, with a recess for receiving the main cable in a position of use; - at least one hollow punch, extending radially away from an imaginary center of the recess, the or each hollow punch being provided with a sharp end directed towards the imaginary center of the recess, which sharp end is adapted to cut plastic as soon as the cutting pressure reaches a exceeds threshold value; and - at least one plastic arrowhead, adapted to be clamped in the position of use between the or each sharp end and the main cable, with the tip of the or each plastic arrowhead directed towards the imaginary center of the recess.

This arrangement makes it possible to see the insulation color and thus the nature of the main veins, in order to determine which main vein is involved.

The hollow pipe can be pushed through an outer sheath of the main cable and an outer sheath of the main vein, and thereby pushes aside the wires of the earth shield in the outer sheath thanks to the plastic arrowhead. Subsequently, the plastic arrowhead will hit the aluminum of the main vein, causing the pressure to increase to such an extent that the sharp end of the hollow pipe cuts through the plastic arrowhead, as well as through the (typically colored) insulation layer of the main vein, leaving a piece of the insulation layer behind. in the cavity of the hollow pipe and can thus be easily extracted if desired.

In one embodiment, the bracket comprises at least two complementary parts, which parts are designed to be connected to each other in order to form the bracket in a form-retaining manner. Note that a “bracket” in this context refers to a “ring for the closure of an object” — the closure may be fixed or spring or hinged.

In this way the device can be used anywhere along the main cable.

In one embodiment, the device comprises at least one injector arranged to inject a filler, such as resin, into the main vein.

In this way, the main vein can be made locally watertight or at least more watertight. This can be exploited both against local water intrusion, and also against water intrusion by capillary action along the length of the main cable from water that has entered the main cable from water contact points more distant.

The present invention also provides for the use of a device for determining a nature of main cores of a main cable according to one of the embodiments described above.

The present invention also provides a system for determining the position and nature of main veins of a main cable, comprising a device for determining the position and nature of main veins of a main cable according to one of the embodiments described above and a device for determining a nature of main cores of a main cable according to one of the embodiments described above.

The present invention also provides for the use of such a system for determining the position and nature of main veins of a main cable, wherein the device for determining the nature of the main veins - i.e. the device comprising at least one hollow pipe - is deployed if the rotary field of the main cable is unknown in advance, whereby a particle of a colored insulation wall of at least one chosen main vein can be cut and detached from the main cable by means of at least one hollow pipe, so that a visual inspection of the particle reveals the nature has the at least one selected main vein.

The present invention also provides a device for electrically connecting to at least one main conductor of main conductors of a main cable, comprising: - a bracket provided, at least on its inner side, which is substantially annular, with a recess for receiving the main cable in a position of use;

- at least one electrically conductive contact pin, extending radially away from an imaginary center of the recess, the or each contact pin being provided with a sharp end directed towards the imaginary center of the recess, which sharp end is adapted to cut plastic as soon as the cutting pressure exceeds a threshold; and - at least one housing encasing the at least one contact pin respectively, formed of an electrically insulating material, preferably plastic, and provided with a pointed end directed towards the imaginary center of the recess, the at least one housing being designed to fit into the condition of use, be pierced by the or each sharp end of the at least one contact pin, in particular at its or their pointed end.

In this way, with the electrically conductive contact pin, enclosed in its sheath, an outer sheath of the main cable and an outer sheath of the main vein can be pierced thanks to sufficient pressure, whereby the wires of the earth shield in the outer sheath can also be pushed aside. Subsequently, the sheath will be pierced by the cutting pressure, so that an electrical connection - electrically insulated from the rest of the environment thanks to the sheath - can be established between the electrically conductive contact pin and the main vein. Subsequently, conduction with the main vein can be obtained via the contact pin.

This device may be referred to in this context as a housing branch joint.

In one embodiment, the bracket comprises at least two complementary parts, which parts are designed to be connected to each other in order to form the bracket in a form-retaining manner.

In one embodiment, the device comprises at least one injector arranged to inject a filler, such as resin, into the main vein.

The present invention also provides the use of such a device for electrically connecting to at least one of the main cores of a main cable.

Those skilled in the art will be able to understand even more fully the above-described embodiments of the present invention with the aid of the description which follows and the accompanying drawings, in which:

Figure 1 schematically shows an example of an embodiment of a device according to the present invention;

Figure 2 schematically shows another example of an embodiment of a device according to the present invention;

Figure 3 schematically shows yet another example of an embodiment of a device according to the present invention;

Figure 4 shows four graphs with an example of signals that can be detected or used by a device according to the present invention;

Figure 5 schematically shows an example of a hollow punch that can form part of a device according to the present invention;

Figure 6 schematically shows an example of an embodiment of a second device according to the present invention;

Figure 7 schematically shows an example of an embodiment of a third device according to the present invention; and

Figure 8 schematically shows an example of an application for a device according to the present invention.

Figure 1 schematically shows an example of an embodiment of a device according to the present invention. The device is for determining position and nature of main cores of a main cable 100, the device being rotatable about the main cable 100 in a position of use. The device comprises at least one conductor 101A-C, which is electrically isolated from the main cores 106B, 106G , 106R, 106Y, preferably through existing insulation walls such as outer wall 105 and/or insulation wall 109 of the main cable. The or each conductor 101A-C is arranged to be in use at an outer wall 105 of the main cable 100, with the or each conductor 101A-C extending in a longitudinal direction that shares at least a length component with a longitudinal direction of the main cable 100 .

The device further comprises a voltage meter 103 adapted to measure a voltage or voltages between the or each conductor 101A-C and a predetermined reference point 104, which voltage or voltages are generated by electrostatic influence of charge carriers in the main veins 106Y, 106R, 106G, 106B (collectively referred to as 106) when the or each conductor 101A-C is in the use condition at the outer wall 105 of the main cable 100. To this end, the strain gauge 103 may be coupled 102 to the respective conductor or conductors 101A-C. In this example, one such coupling 102 is shown, but those skilled in the art will appreciate that such couplings are possible with several conductors 101A-C. The device additionally includes a microcontroller (not shown) adapted to detect a maximum or minimum amplitude of the measured voltage or voltages when the device is rotated about the main cable 100 in the in-use condition, and adapted to determine the locations of the main veins 108 based on the maximum or minimum amplitude detected.

The figure also shows some auxiliary veins 107, in particular 107Y, 107R, 107G, 107B, which are less relevant to the device, as well as a ground shield 108.

The operation of the device will be described more clearly with reference to the embodiment of Figure 3, which can be seen as a further development of the embodiment of Figure 1.

Figure 2 schematically shows another example of an embodiment of a device 200 according to the present invention. The device 200 is shown abstractly in this figure, but may correspond in form to, for example, the embodiment of Figure 1 and/or Figure 3. The device 200 comprises, like the embodiment of Figure 1, at least one conductor 201, coupled to a strain gauge 202, and a microcontroller 203. The voltage or voltages read by the voltage meter 202 can be presented to the microcontroller, which can determine the locations of the trunks based on that, as explained above.

The device 200 may also include an optional buzzer 204 which functions as an indicator, the microcontroller 203 being adapted to drive the buzzer 204 to indicate when the maximum or minimum amplitude is detected. An alternative indicator can be, for example, an LED that then emits maximum or minimum light respectively, or a clicker that indicates the amplitude with a click frequency, or any other useful indicator.

The device 200 may also comprise at least one optional indicating means 205, the microcontroller 203 being adapted to control the at least one indicating means 205 based on the determined locations of the main veins, such that the at least one indicating means 205 gives an indication of an underlying main vein or respective underlying main veins. A useful indication means is, for example, an indication zone such as an LED strip, but a fully-fledged display, preferably a cylindrical one so that it fits well with the shape of the main cable 100, can also be used. The LED strip can be controlled by the microcontroller 203 to indicate the nature of an underlying trunk by means of a well-selected color. If the LED strip comprises a sufficiently large number of separate LEDs, it is possible to determine the position with sufficient certainty and precision.

Figure 3 shows schematically yet another example of an embodiment of a device 300 according to the present invention mounted on a main cable 100 as described with respect to Figure 1. The device may comprise an annular recess 302 adapted to receive the main cable 100. This recess 302 is essentially annular because it does not have to be closed around the main cable 100 to function properly (as is the case in the example shown here), although it may of course be closed all around. In this example, the device 300 comprises two complementary jaw parts 301A-B which, in the position of use, form the recess for receiving the main cable 100.

It is advantageous to fix the jaw parts 301A-B together as in this example, for example by means of a clamping spring, with corresponding operating points 304A-B, in order to easily open and close the device 300 around a main cable 100.

The figure also shows the optional indicator, here a buzzer 308, as described in the context of Figure 2, and the optional indication zone, here an LED strip 303, also as described in the context of Figure 2. In addition, the device 300 can be used as in this example include a battery 305 to power other components of the device 300 .

The figure also shows recesses 307 in the conductor receiving device such that they are in the vicinity of the outer wall 105 of the main cable 100 in the operating condition.

Figure 4 shows four graphs with an example of signals that can be detected or used by a device according to the present invention.

Graph 401 shows a voltage in mV measured over time as sensed by the voltage meter on one of the conductors of the device. In practice, this voltage can be noisy, as shown in graph 401. Nevertheless, it is possible to observe a dominant frequency 405 in the measured voltage, as shown in graph 402. An easy and sure way to measure this dominant frequency 405 isolating, is shown in graph 403, where the measured voltage has been converted from the time domain to the frequency domain in Hz, by means of a

Fourier transform, where a peak 406 is clearly discernible around 50 Hz, which indicates that the main conductor above which the conductor is located has AC voltage applied at the mains frequency 50 Hz. By rotating the device, it becomes possible to detect when this peak 406 reaches a maximum 408 or a minimum 407 in amplitude, as shown in graph 404. By comparing these extrema with each other, it is possible to determine the nature of determine the underlying main vein, as indicated in graph 404 by the references 1, 2, 3, Zero, for the different phases and the neutral conductor. It is advantageous here if the device also comprises a gyroscope which is adapted to determine an angle of rotation made by the device relative to a conventional vertical direction, preferably the direction of gravity, wherein the microcontroller is adapted to determine the locations of the main veins take into account the angle of rotation determined by the gyroscope. In this way it can be accurately determined at which rotation angle maximum 408 and/or minimum 407 occur.

Figure 5 schematically shows an example of a hollow punch 501 which can form part of a device according to the present invention. The hollow punch 501 is provided with a sharp end 502 adapted to cut plastic as soon as the cutting pressure applied to the sharp end 502 exceeds a threshold value. The figure also shows a plastic arrowhead 503 which will be described below. Hollow pipe 501 will be further illustrated with reference to Figures

Gene".

Figure 6 schematically shows an example of an embodiment of a second device 600 according to the present invention, seen in perspective. The device 600 serves to determine a nature of main veins of a main cable, such as main cable 100 shown in Figure 1. The device 600 comprises a bracket 601, at least on its inner side, which is substantially annular and provided with a recess 802 for receiving in a position of use. the main cable 100. The device 600 additionally comprises at least one hollow punch 603, such as for example hollow punch 501 of Figure 5, extending radially away from an imaginary center of the recess 602, the or each hollow punch 603 having a sharp end 502 directed towards the imaginary center of the recess 602, which sharp end 502 is adapted to cut plastic as soon as the cutting pressure exceeds a threshold value. The device 600 also includes at least one plastic arrowhead 503 adapted to be clamped in use between the or each sharp end 502 and the main cable, with the tip of the or each plastic arrowhead 503 pointing towards the imaginary center of the recess 602.

Figure 7 schematically shows an example of an embodiment of a third device 700 according to the present invention, seen in cross-section. The device 700 serves for electrical connection to at least one of the main cores of a main cable, such as the main cable 100 shown in Figure 1. The device 700 comprises a bracket 701, at least on its inner side, which is substantially ring-shaped and provided with a recess 702 for placing it in a position of use. receiving the main cable 100. The device 700 additionally includes at least one electrically conductive contact pin 703 extending radially away from an imaginary center of the recess 702, the or each contact pin 703 having a sharp end directed toward the imaginary center of the recess 702. recess 702, which sharp end is adapted to cut plastic as soon as the cutting pressure exceeds a threshold value. The device 700 also comprises at least one sheath encasing the at least one contact pin 703 respectively, formed of an electrically insulating material, preferably plastic, and provided with a pointed end directed towards the imaginary center of the recess 702, the at least one sheath being is arranged to be pierced in the state of use by the or each sharp end of the at least one contact pin 703, in particular at its or their pointed end.

Each contact pin 703 is accommodated in a preferably plastic casing, which casing serves to electrically isolate the contact pins 703 from the earth shield.

The sheath also has a pointed end for penetrating the main cable 100 up to the main veins 106B-G-R-Y. The contact pin 703, when penetrating the main vein 106B-G-R-Y, will split the plastic sheath once the pressure applied to it exceeds a certain threshold value, and will then further penetrate the main vein 106B-G-R-Y and make electrical contact with this main vein 106B-G-R-Y.

Figure 8 schematically shows an example of an application for a device according to the present invention. In an exemplary situation, a house 805 (or other type of building) is to be connected to a main cable 801-802, by means of a house branch joint. In such situations it is not always clear which main cable should be branched off from, for example if several main cables are present.

In that case, a frequently used solution is to place a current train on two main cores in the main cable 801 from a central 803, for example from a transformer house - one main core carries the current train in one direction, the other main core in the other - so that an installer with a known clamp meter or simple coil can determine which main cable is the right one. Namely, the clamp meter will show the current train running over the two main cores of the correct main cable, and will not show an identifiable result (e.g. only noise} when the clamp meter is connected to a wrong main cable.

However, a common problem is that a house 805 (or other type of building) must be connected to an end 802 of the main cable, which is beyond the last closure 804 of the loop of the main cable, as seen from the exchange. In that case it is impossible to detect such a current train with the known clamp meter or coil, since the main cable does not form a closed circuit in that end 802 of the main cable.

The device according to the present invention solves this problem, because it is able to detect the voltage train induced by such a current train, even in that end 802 of the main cable, because voltage can be detected on the main conductors, even if the circle is not closed.

Claims (28)

CONCLUSIONS CLAIMS 1. Device for determining the position and nature of main cores of a main cable, the device being rotatable around the main cable in a position of use, comprising: - at least one conductor that is electrically insulated from the main cores, the or each conductor being adapted to in the condition of use, be located at an outer wall of the main cable, the or each conductor extending along a longitudinal direction that shares at least a length component with a longitudinal direction of the main cable; - a voltage meter adapted to measure a voltage or voltages between the or each conductor and a predetermined reference point, which voltage or voltages are generated by electrostatic influence of charge carriers in the main veins when the or each conductor is in the operating condition at the outer wall of the main cable is located; and - a microcontroller configured to detect a maximum or minimum amplitude of the measured voltage or voltages when the device is rotated around the trunk cable in the in-use condition, and configured to determine the locations of the trunks based on the detected maximum or minimum amplitude . The device of claim 1, wherein the at least one conductor comprises at least two conductors arranged to be on opposite sides of the outer wall in the position of use. 3. Device as claimed in claim 1 or 2, wherein the at least one conductor has three conductors, arranged to be located in the position of use on three sides of the outer wall, which three sides are mutually mutually either substantially at right angles to each other or substantially at 120°. stand apart. 4. Device as claimed in claim 1 or 2, wherein the at least one conductor has four conductors, adapted to be located on four sides of the outer wall in the position of use, which four sides are substantially at right angles to each other. 5. Device as claimed in claim 1 or 2, wherein the at least one conductor has six conductors, arranged to be located in the position of use on six sides of the outer wall, which six sides are mutually spaced substantially at 60° from each other. A device according to any one of the preceding claims, wherein the or each conductor extends in a longitudinal direction corresponding to an estimated conventional winding pitch of the main veins. 7. Device as claimed in any of the foregoing claims, comprising a substantially annular recess adapted to receive the main cable. 8. Device as claimed in claim 7, comprising two complementary jaw parts which, in the position of use, form the recess for receiving the main cable. 9. Device as claimed in claim 8, wherein the two jaw parts are fixedly coupled to each other, preferably by means of a clamping spring; or wherein the two jaw parts are independent of each other and each comprise a complementary designed connection mechanism arranged for releasably coupling the two jaw parts together. Apparatus according to any one of the preceding claims, wherein the microcontroller is arranged to determine, assuming that the trunk has a known clockwise field: - that a detected minimum amplitude indicates that an underlying trunk is a neutral conductor; - that phase 2 is opposite the neutral charger; - that phase 1 has a phase lead compared to phase 2; and - that phase 3 is behind phase 2 with respect to phase 2; and/or wherein the microcontroller is arranged to determine, assuming the trunk has a known counterclockwise field: - that a detected minimum amplitude indicates that an underlying trunk is a neutral conductor; - that phase 2 is opposite the neutral charger; - that phase 1 has a phase lag compared to phase 2; and - that phase 3 has a phase lead over phase 2. An apparatus according to any one of the preceding claims, comprising an indicator, preferably a buzzer, wherein the microcontroller is adapted to control the indicator so that the indicator gives an indication when the maximum amplitude or minimum amplitude is detected. An apparatus according to any one of the preceding claims, wherein the microcontroller is adapted to convert the measured voltage or voltages from a time domain to a frequency domain by means of a Fourier transform; and wherein the microcontroller is configured to determine the locations of the trunks based on at least one frequency peak corresponding to the maximum or minimum amplitude as the device is rotated about the trunk. A device according to any one of the preceding claims, comprising a gyroscope arranged to determine an angle of rotation made by the device relative to a conventional vertical direction, preferably the direction of gravity, the microcontroller being arranged to determine the locations of the major veins taking into account the angle of rotation determined by the gyroscope. 14. Device as claimed in any of the foregoing claims, comprising at least one indicating means, wherein the microcontroller is adapted to control the at least one indicating means on the basis of the determined locations of the main veins, such that the at least one indicating means gives an indication of an underlying main vein. or respective underlying main veins. A device according to claim 14, wherein the at least one indication means comprises at least one of the following: an indication zone, preferably an LED strip; and a preferably cylindrical display. 16. Device according to claim 14 or 15, wherein the at least one indication zone has a first, second, third and fourth indication zone, the microcontroller being arranged to display the respective colors of the main veins, preferably by: - the first indication zone with highlight a first color, preferably green, to indicate that an underlying trunk is a neutral conductor; - illuminate the second indication zone with a second color, preferably yellow, to indicate that the underlying main vein is phase 2, opposite the neutral conductor; and in case the main cable has a clockwise field: - lighting up the third indication zone with a third color, preferably red, to indicate that the underlying main vein is phase 1, with a phase lead compared to phase 2; and - illuminate the fourth indication zone with a fourth color, preferably blue, to indicate that the underlying main vein is phase 3, with a phase lag from phase 2; or in case the main cable has a counterclockwise field: - make the third indication zone light up with a third color, preferably red, to indicate that the underlying main vein is phase 1, with a phase lag from phase 2; and - illuminate the fourth indication zone with a fourth color, preferably blue, to indicate that the underlying main vein is phase 3, with a phase lead over phase 2. 17. The use of a device according to any one of claims 1-16 for determining position and nature of main veins of a main cable. The use according to claim 17, further comprising: - connecting a housing branch socket comprising at least one contact pin; - inserting the at least one contact pin into respective main cores of the main cable by means of a mechanism, which mechanism is adapted to insert each contact pin of the at least one contact pin into the main core under a guaranteed tension or with a guaranteed tightening torque or at a guaranteed depth to bring. 19. Device for determining a nature of main veins of a main cable, comprising: - a bracket, at least on its inner side, which is substantially annular and provided with a recess for receiving the main cable in a position of use; - at least one hollow punch, extending radially away from an imaginary center of the recess, the or each hollow punch being provided with a sharp end directed towards the imaginary center of the recess, which sharp end is adapted to cut plastic as soon as the cutting pressure reaches a exceeds threshold value; and - at least one plastic arrowhead, adapted to be clamped in the position of use between the or each sharp end and the main cable, with the tip of the or each plastic arrowhead directed towards the imaginary center of the recess. 20. Device as claimed in claim 19, wherein the bracket comprises at least two complementary parts, which parts are adapted to be connected to each other so as to form the bracket in a form-retaining manner. A device according to claim 19 or 20, comprising at least one injection device adapted to inject a filler, such as resin, into the main vein. The use of an apparatus according to any one of claims 19-21 for determining a nature of trunks of a trunk cable. 23. System for determining position and nature of main veins of a main cable, comprising a device according to any one of claims 1-16 and a device according to any one of claims 19-21. 24. The use of a system according to claim 23 for determining the position and nature of main veins of a main cable, wherein the device according to any one of claims 19-21 is used to determine the nature of the main veins if the rotating field of the main cable unknown in advance, whereby by means of the at least one hollow pipe, a particle of a colored insulation wall of at least one chosen main vein is cut and detached from the main cable, so that visual inspection of the particle reveals the nature of the at least one chosen main vein. 25. Device for electrically connecting to at least one main core of main cores of a main cable, comprising: - a bracket provided, at least on its inner side, which is substantially annular, with a recess for receiving the main cable in a position of use; - at least one electrically conductive contact pin, extending radially away from an imaginary center of the recess, the or each contact pin being provided with a sharp end directed towards the imaginary center of the recess, which sharp end is adapted to cut plastic as soon as the cutting pressure exceeds a threshold; and - at least one housing encasing the at least one contact pin, respectively, formed of an electrically insulating material, preferably plastic, and provided with a pointed end directed towards the imaginary center of the recess, the at least one housing being arranged to fit into the condition of use, be pierced by the or each sharp end of the at least one contact pin, in particular at its or their pointed end. 26. Device as claimed in claim 25, wherein the bracket comprises at least two complementary parts, which parts are arranged to be connected to each other so as to form the bracket in a form-retaining manner. A device according to claim 25 or 26, comprising at least one injection device adapted to inject a filler, such as resin, into the main vein. The use of a device according to any one of claims 25-27 for electrically connecting to at least one trunk of trunks of a trunk cable.