FR3030921A1 - ELECTRICAL PROTECTION APPARATUS FOR EQUIPPING AN ELECTRICAL BOARD - Google Patents

Abstract

The present invention relates to an electrical protection apparatus intended to equip an electrical distribution board, and comprising a so-called principal or head unit associated with at least one starting apparatus, said departures, said apparatuses being mounted on the same mounting support, each starting apparatus being dedicated to a power line on which a number of electrical charges are mounted, each apparatus comprising at least two electric lines, one of which said first, conveys the phase or phases, while the other, so-called second, vehicle the neutral, the power lines of the said main device being electrically connected upstream to the network and downstream respectively, to the corresponding power lines of the starting apparatus, said apparatus being intended to provide the main function of protection against the short -circuits and sectioning, and protection functions say seconds of c ble, people and equipment, as well as functions called comfort. This apparatus is characterized in that the or each so-called second protection function is performed by means of data measurement means (26, 27, 43, 44, 49) made at each start (2 to 7). , processing means (16, 21, 18) for these data, and activation means by the user of the function in question, these processing means being put into service either at the level of each departure (2 to 7) , or in a mutual way depending on the type of electrical function provided.

Description

ELECTRICAL PROTECTION APPARATUS FOR EQUIPPING AN ELECTRICAL BOARD. The present invention relates to an electrical protection apparatus intended to equip an electrical distribution board, and comprising a so-called principal or head unit associated with at least one starting apparatus, said departures, said apparatuses being mounted on the same mounting support, each starting apparatus being dedicated to a power line on which a number of electrical charges are mounted, each apparatus comprising at least two electric lines, one of which said first, conveys the phase or phases, while the other, so-called second, the neutral vehicle, the power lines of the so-called main apparatus being electrically connected upstream to the network and downstream respectively to the corresponding electrical lines of the starting apparatus, said apparatus being intended to provide the main function of protection against short-term circuits and sectioning, and protection functions say seconds of devices and equipment, as well as the protection of devices against network overvoltages / undervoltage. The problem that arises today in existing equipment is that it is difficult, if not impossible, to make them evolve functionally without it being necessary either to change the complete apparatus or to add elements or modules, which leads to considerably increase the size of said apparatus in the table. This problem is becoming more and more acute, particularly as architects and electricians complain about the excessive volume and cost of electrical distribution in new buildings. The present invention solves these problems and proposes an electrical protection apparatus for equipping an electrical panel, to functionally enrich said constant volume table keeping the same modularity seen by the customer, thereby reducing the size of the electrical panels and than their cost. For this purpose, the subject of the present invention is an electrical protection apparatus of the kind mentioned above, this apparatus being characterized in that the or each so-called second protection function is carried out by means of data measuring means produced by level of each departure, means for processing this data, and activation means by the user of the function in question, these processing means being put into service either at the level of each departure, or in a pooled manner depending on the type of electrical function provided.

Thanks to these features that allow pooling, we obtain a reduction in the cost of manufacturing the device. According to a particular characteristic, these processing means are put into service either at the level of each feeder or in a pooled manner, depending on whether the value of the voltage present on the electrical lines of the feeder considered during the electrical fault is greater or less than some value. According to another characteristic, the so-called main apparatus comprises a so-called main actuator capable of operating either with its own current or in the presence of a voltage, and in that each starting apparatus comprises a so-called secondary actuator which can be controlled only in the presence of a voltage on the lines of the relevant departure, greater than a minimum value. According to another characteristic, this apparatus comprises cut-off contacts located either in the head unit or in at least one of the starting devices, and the putting into service of the processing means causes actuation of the actuator. in the case where the voltage on the departure concerned by the electrical fault is lower than a minimum voltage value, this causing the opening of the cut-off contacts of the head unit or the cut-off contacts of all the departures as the case may be, whereas when the above-mentioned voltage is greater than this minimum value, the putting into service of the processing means results only in the opening of the cut-off contacts belonging to the concerned feeder (s) by the fault, by the actuation of the corresponding secondary actuator (s).

According to a particular embodiment, the short-circuit protection and sectioning function is totally mutualised, the head unit comprising means for electromagnetic detection of a short-circuit able to cause the opening of the contacts located in the head unit said main contacts.

According to a particular characteristic, means for detecting a fault are provided at each departure, said means cooperating respectively with so-called secondary actuators associated respectively with the different departures, to cause the opening only of the breaking contacts of the departure concerned by the failure.

According to a particular embodiment, the defect is a short circuit fault. According to a particular characteristic, polar sensors and a processing unit store the data in order to perform the comfort functions.

According to another characteristic, the aforementioned measuring means comprise polar current and / or voltage and / or differential current sensors. According to another characteristic, the current measuring means comprise polar current sensors enabling the detection of a long current delay, the detection of a short current delay or a short circuit by the instantaneous measurement of the current. . According to another characteristic, the personal protection function at each departure is carried out by means of polar current differential sensors between the electrical lines of said feeder. According to another characteristic, the so-called main apparatus comprises an island head comprising a main block, the main block comprising differential detection means, the aforementioned main actuator and a polar electronic card.

According to another characteristic, the aforementioned electronic card comprises a pole or multi-pole processing unit, polar current and / or voltage and / or differential current sensors communicating with the said (s) unit (s), and electrical supply means of said processing units.

According to another characteristic, this apparatus further comprises a data bus capable of transmitting information related to the poles, or departures, to the island head and to the reverse of the island head towards said poles.

According to another characteristic, the so-called comfort functions are activated by the consumer by connecting a communication box on the electronic card, this communication box receiving information from the processing units, which themselves take their information on the polar sensors. According to another characteristic, the measurement of the current at each start is carried out by means of a toroid mounted on the electronic card. According to another characteristic, all the protection functions and all the comfort functions can be parameterized by soft software or by plug-in modules known as plugs that can be mounted in the equipment housing, or can be parameterized in factory. According to another characteristic, this apparatus comprises at least one output block intended to perform a complementary electrical function, the or each block being intended to be mounted in the housing of the apparatus at one of the outlets, so as to add this electrical function to the start. According to a particular characteristic, this complementary electrical function is one of the functions included in the group comprising a sectionable switch, a sectionable block, a sectionalable relay block, a circuit breaker block, a fuse block.

According to another characteristic, the main block may comprise at least four different types of electronic cards for respectively protecting the cables only, a centralized Vigi protection, a distributed Vigi protection, and a protection including all these functions with in addition the function of detection of electric arcs. According to another characteristic, this apparatus is able to also provide the switch or contactor function, the latter being activated by the insertion of at least one plug corresponding to this function in the housing of the apparatus.

According to a particular embodiment, this apparatus comprises, provided in the main block, means for detecting a fault controlling the main actuator in order to open cut-off contacts provided in the main block, and at least one starting apparatus comprising a relay, said relay being intended to open cutoff contacts provided in the feeders before the cutoff contacts of the main block in order to consume the selectivity. According to another embodiment, this main block comprises differential detection means and a so-called main actuator and the or each feeder comprises electrical protection means included in the group comprising a circuit breaker, a differential protection device, a detection device. arc, as well as a polar actuator.

The present invention also relates to an electrical panel comprising at least one electrical equipment having the aforementioned characteristics taken alone or in combination. But other advantages and features of the invention will appear better in the detailed description which follows and refers to the accompanying drawings given solely by way of example and in which: FIG. 1 is a perspective view illustrating protective equipment according to a first embodiment of the invention, as well as the internal components of a so-called main block of this apparatus, FIG. 2 is an exploded view illustrating all the constituent elements of the outer casing of the apparatus, as well as the contents of the main block, FIG. 3 illustrates an electrical diagram corresponding to this particular embodiment of the apparatus, FIG. 4 is a perspective view illustrating an electrical protection apparatus according to a second embodiment of the invention, FIG. 5 is an exploded view illustrating the various main constituent elements of the apparatus, FIG. In an electric diagram corresponding to this second embodiment of the invention, FIG. 7 illustrates four examples of electronic cards that can be used in an apparatus according to the invention, and FIG. 8 illustrates, in a perspective view, and front views, a particular embodiment of the apparatus according to the invention, allowing different types of power supply.

FIGS. 1 to 6 show an electrical protection device A according to two embodiments of the invention intended to equip an electrical distribution board, such a board possibly comprising several of these devices.

An electrical distribution board can provide a number of electrical functions that can be classified into three categories namely, the function of protection against short circuits, the so-called secondary protection functions including the functions of protection of cables, people and equipment against fire of electrical origin, and so-called comfort functions.

The protection of the cables is carried out either by detecting a so-called overload fault inducing a long current delay capable of being the object of a thermal origin detection, the detection of a fault inducing a short delay. of current that can be detected by magnetic origin, or the detection of a detectable short circuit by measuring the instantaneous current.

The protection of people or equipment is achieved by the measurement of the differential current by means of a torus, the processing of the information can be achieved by means of a so-called current technology or requiring the presence of a voltage . The function of arcing detection, is performed at each departure.

Electrical fire protection requires the analysis of signals on voltage, current and differential current. The so-called comfort functions are, for example, the management of the cause of the fault by informing the electrician of the reason for which the product has triggered, the management of the energy globally or by departure, the information of the state of the switchgear, ie open, closed or tripped, commissioning an alarm informing the consumer when a value of current or voltage or differential current exceeds a limit value that we have set , management of product history, load shedding, remote start of heating, information of a load deviating from a reference, ensure that a lamp has worked well, etc. ..

Commonly to all the embodiments illustrated in the figures, the apparatus A according to the invention comprises a main apparatus or head said island head 1 by which the apparatus is powered by the network, and apparatus said departure 2 to 7 mounted side by side on the same mounting bracket. This island head 1 as well as all the starting devices 2 to 7, called "departures" in the following, houses two different phase lines p, n namely a phase line p and a neutral line n, these lines being connected upstream to the network and downstream to the corresponding power lines 15 of the 2 to 7 departures, each start being intended to ensure the protection of a number of electrical charges mounted on the same line.

According to the first embodiment, these elements, namely this island head 1 and the outlets 2 to 7, are housed in a one-piece envelope E comprising a number of housings intended to each receive an output block 8 to 13, these output blocks being intended to add a number of electrical functions to each start, these blocks being able to take the form of, for example, a sectionable block, a relay block, a circuit breaker block, a fuse block, etc. This island head 1 comprises a differential tripping device 14 comprising a torus 15 for measuring the differential current between the two (or three, four as appropriate) power lines p, n of the main unit. 1, and an actuator 16, or relay, said main, low energy type, able to send a trip command as will be explained in the following. This island head 1 also comprises feed means 17 with its own current or on the network of one or more processing units 18 distributed in the different feeders 2 to 7.

Thus, each starting apparatus 2 to 7 also comprises two (or three or four) electric lines r, s, respectively phase lines and a neutral line, said lines being supplied upstream by the corresponding electrical lines p, n of the island head and being electrically connected each downstream to a number of electrical charges. Each starting apparatus 2 to 7 also has, on its phase line, cut-off contacts 19, 20, said to be secondary, capable of being brought into the open position, or by an actuator 21 of its own, called secondary actuator, located on said line orbien within an output block 8 to 13 to be plugged on this starting apparatus, either by the aforementioned centralized actuator 16 located in the island head 1. The protection function against short-circuits will be performed, depending on the embodiment chosen, either in the island head 1, or at each start 2 to 7.35 The protection function of the cables is achieved by measuring the current at the level of each departure by means of polar sensors communicating with a processing unit 18, which sensors and processing units belong to an electronic card 50.

The personal protection function is realized by means of differential current detection devices, commonly called "Vigi". This detection can be carried out inside the head unit 1 by differential protection means 15 called centralized Vigi able to control the so-called main actuator 16, this actuator in turn controlling the so-called main breaking contacts 23 , 24 of the head unit 1, that is to say the cutoff contacts 19,20 of the feeders 2 to 7 via the so-called secondary actuators 21 specific to each feedstock controlled by a processing unit 18.

This detection can also be performed by detecting a differential current at each start. In this case, the presence of a voltage on the line of the concerned feeder, causes the actuation of the secondary actuators 21 and from there, the opening of all the secondary breaking contacts 19,20. Finally, this detection can be performed by means of an optimum differential detection device comprising both a centralized Vigi and a vigil on each departure, the centralized Vigi being in this case inhibited when the voltage on one of the departures will be greater than a certain value. The arc detection function will be performed by processing information of the voltage, the differential current and the current on each feeder, and will trigger and consequently open the cut-off contacts of the concerned feeder. According to the embodiment illustrated in FIGS. 1 to 3, the island head 1 comprises a so-called main block 25 housing a differential detection device called centralized Vigi 14,15, a triggering mechanism or main actuator 16 or low-level relay. energy, capable of causing the opening or main cutoff contacts 23,24 or 19,20 cutoff contacts of all departures, as the case, as well as current transformers, and a so-called polar electronic card 50. This main block 25 is intended to be associated with an additional block 31 said block of protection against short circuits. Within this additional block are placed the so-called main movable contacts 23,24 respectively placed on the two electrical lines p, n the phase line p further comprising means 55 for detecting a short-circuit current suitable for to cooperate with the aforementioned main actuator 16 so as to cause the opening of the main contacts 23,24 when a short-circuit current occurs upstream of the starting apparatuses 2 to 7.

The aforementioned electronic card 50 comprises power supply means 17 of the different processing units 18, each 2 to 7 starting may include a processing unit or a processing unit that may be common to several starts. Each starting apparatus 2 to 7 comprises means for measuring the current 26 or the voltage 27, these means being supported by the aforementioned electronic card 50 and communicating with the processing unit 18, which is able to send data to the user. said main actuator 16 via a data bus 28. For each start 2 to 7, on one of its power lines, a contactor 29 can be plugged and is able to be controlled by a controlled trigger 30 by the processing unit 18, this contactor being able to operate both in contactor mode and in remote control mode. In FIG. 3, it can be seen that this set comprising the main block 1 as well as the additional block 31 may be associated with yet another additional block 32 comprising a processing unit able to receive data coming from the other processing units. as well as a communication interface 33 able to exchange data with said unit.

In FIG. 2, the envelope E of the apparatus comprises the casing 34 of the main block, a part 35 housing the different starts and, opposite these departures, a number of housings U intended to each receive a so-called block. output 8 to 13, each output block being designed to customize each start by adding a number of functions such as switchable switch functions, relay block, circuit breaker block, fuse block etc ... We also see that each departure 2 to 7 is associated with an element 36 adapted to be plugged into the envelope at each departure, and able to indicate the caliber of said departure. Similarly, an LED signaling means 37 will advantageously be provided at each departure point in order to inform the user of the presence of a fault, for example.

Note also that the thermal and magnetic protection functions can be activated by inserting a plug in the upper part of the envelope of the device. Finally, this apparatus comprises, at its end located on the side opposite the side of the main block, a block 32 intended to contain a communication interface, this interface being intended to communicate with the different processing units by means of a data bus. 28. According to the embodiment illustrated in Figures 4 to 6, the apparatus is housed in an envelope E having a housing B and a cover C, said housing having two housings 39,40 of which one said first 39 is intended to house the main block 25 and the other 40 is intended to house a monobloc breakbulb dedicated to each departure. The main block 25 comprises the same elements as in the embodiment described above, namely a Vigi 15, a so-called main actuator 16, an electronic card 50 supporting polar sensors. As in the previous embodiment, a communication block may be associated to the left of the island head 1. In this embodiment, the function "contactor 29,53" is plugged to the upper part of the envelope E As shown in FIG. 6, the island head 1 comprises a device for detecting a differential defect, called centralized Vigi 15, a main actuator or so-called low energy relay 16, a processing unit 18, an interface communication unit 33, supply means 17 of the processing units 18 of the apparatus A. Each starting apparatus 2 to 7 comprises fixed and movable switching contacts 19,20 located on each of the electrical lines r, s, means for measuring the current 43, the voltage 49 and the differential current 44, and the short-circuit detection means 46, these means being able to transmit their data to the corresponding processing unit 18; treatment being co In the embodiment described, a polar actuator 21 controlled by the processing unit and able to send an opening command to the aforementioned movable contacts 19, 20 and another pair of fixed and movable contacts 45 placed on the phase line and belonging to a contactor 29 (or switch), said movable contact being able to be controlled by a specific actuator 30 or remotely, said actuator being controlled by the control unit. processing 18. Each processing unit of the starting apparatus communicates with the processing unit of the island head via a data bus 28, and is supplied with current and voltage by a power bus 47 fed by a power supply 17 bis present in the island head.

If the voltage is below a minimum value, a centralized low energy actuator 16 causes all the poles to be triggered in the event of a fault detected by the processing unit 18.

According to the embodiment of Figure 8, the main block 25 is located in the middle of the apparatus and the actuators 54 of these devices are rotatable. Thus, this arrangement allows a feed from the top, from the bottom, or one side of the equipment, by simply turning the device.

According to the invention, the choice of the potentials of the protection unit depends on the type of main block 25 that is chosen. This main block 25, and in particular the electronic card 50, defines the potential of functions that may be in the apparatus. Thus, for example, there may be four types of protection defined by four different cards A, B, C, D as illustrated in Figure 7.

According to a first type called "A", the card 50 will be designed in such a way that the apparatus can only carry out the protection of the cables. In this embodiment, only polar current sensors a will be used at the departures. According to a second profile called "B", the card will be made in such a way that the apparatus will also be able to perform the centralized Vigi function, this Vigi being associated with a so-called main actuator, with low energy, able to operate under tension or on its own. current. This embodiment requires the use of current sensors only. According to a third type called "C", the protection will be of the distributed Vigi type, requiring the use of current sensors a and of differential current sensors b at the level of each start 2 to 7. And according to a fourth profile called " D ", the electronic card 50 will be of the so-called all-confused type including the protection of electric arcs requiring, in addition to the functions mentioned above, the use of differential voltage sensors c at each start. In an apparatus A according to the invention, the parameterization can be carried out either by computer means, or by means of plugs, or in the factory. This setting may be indicated on a screen 51 such as that illustrated in Figure 4 illustrating an apparatus according to the second embodiment of the invention. The general operation of an apparatus according to the invention is as follows: The function of protection of the cables and the so-called centralized Vigi function do not require the presence of a voltage to cause tripping (so-called self-current tripping). Thus, these protections operate independently of the voltage, while the other protection functions listed above are inoperative if the voltage on the start line is below a certain value. For these protections that work independently of the voltage, that is to say the protection of the cables, the protection of the persons of the centralized Vigi type and Vigi VI optimim, two cases are presented: -So, there is no voltage on the line of departure (neutral cut for example) on which the fault occurs, and in this case the fault current produces a certain energy received by electronic means, which send an order of opening to the main actuator 16 which, thanks to amplifying means, actuates all the movable contacts 19,20 of the different starts, when the apparatus according to the invention is of the type comprising movable contacts in each feeder, such as the apparatus according to the second embodiment described, or the main contacts 23,24 of the main circuit breaker, in the case of an embodiment according to the first embodiment described, the main block 25 having the main breaking contacts 23,24. -So, there is a voltage at the departures 2 to 7, and in this case the energy will come from an internal power supply and will act on an actuator 21 per pole. There is always one in the second embodiment, while in the first embodiment, such an actuator will be in each of the output blocks 8 to 13. For voltage dependent functions, such as Vigi protection by departure, the energy is taken via a power supply and will act on an actuator pole 21.

Concerning the protection function against short circuits, the operation is different according to the two embodiments described. Thus, in the first embodiment described, in the presence of a short circuit in the main block 31, an electromagnetic actuator instantly triggers the device, as in any type of circuit breaker of this category. The processing unit captures the signal to then manage the history or other comfort function. In the second embodiment described, when a short-circuit fault occurs at the feeder, only the relevant feeder reacts by means of the magnetic actuator of said feeder. As previously described for the previous embodiment, the processing unit captures the short-circuit signal in order to manage the history or other comfort function.

For all other functions requiring the measurement of current, voltage, the consumer will have access to all this information via a communication box 32 that is plugged into the system on the electronic card 50.

According to the first embodiment described, we obtain a cost optimization of a table with new comfort features. The sectioning and cutting functions are shared. Some flexibility is given to the apparatus according to the bricks of exit which are added on each departure.

According to the second embodiment described, a circuit breaker is provided on each start, which allows to add a function of full selectivity by departure. Thus, according to the invention, the electromechanical functions mutualizable according to the architecture are short circuit and sectioning. The protection and comfort functions are performed from one or more sensors per pole, then the processing and activation of the selected functions makes it possible to select the customer. The comfort functions are activated by the consumer by connecting the communication box, which takes the information from the processing units, which take the information on the N polar sensors.

In the prior art, the measurement of the current is carried out by four different technologies, namely a bimetallic strip, a magnetic detector, an arc detection device and an energy measurement module. According to the invention, this function is achieved by means of a single torus.

An apparatus according to the invention can thus be proposed according to several different versions namely a high-tech version, with LCD screen and remotely downloadable functions, a classic version with the protection functions defined by a plug that is added on the product or products to functionalize them, other ancillary functions such as alarm functions, diagnostic, history, etc .... Being downloadable, and a basic version in which the customer places his order, his product is set in factory and he receives it ready to mount. It will be noted that the architecture according to the invention applies to all markets and to circuit breakers which may be indifferently of the neutral cut or uncut type.

Thus, according to the invention, a new electrical protection apparatus has been developed proposing, at constant volume, all the functions that can be found in an array of the electrical distribution such as the Vigi function, AFDD (arc detection ), energy control, alarm system, while keeping the same modularity. All functions are modular, independent and can be plugged, downloaded or remotely activated.

The ultimate protection function against short circuits is provided by electromechanical technology, the other functions rely on three sensors respectively of voltage, current and differential current, a processing unit, a polar actuator if the voltage is higher at a certain minimum voltage (0.5 times the nominal current for example) and a centralized and common actuator if the voltage is below this minimum voltage. Each pole discusses on a bus with a island head. This bus makes it possible to send the information related to the pole (U, I, and differential current) towards the island head, and conversely, to receive opening information, either by the contactor, the remote control, of calibration, or triggering the pole, or others.

Among the advantages provided by the invention include the possibility for the user to change the caliber without changing the device. This change is done as previously explained either by plug, or by plug, or by soft download. The invention also makes it possible to control the departures à la carte by means of a monostable or bistable control relay depending for example on peak hours or off-peak hours, this relay being integrated into the apparatus by means of a brick block. exit. The function called "arc detection" as any other protection function can be activated or not depending on the need installed. Note also the possibility of integrating for example the load shedding function in case of overload at each start, this to reduce the load by controlling takes (load shedding taken). This will be made possible by the integration of a radio frequency network at the circuit breaker dedicated to each departure, this network making it possible to control the distribution points connected to the same departure.

Naturally, the invention is not limited to the embodiments described and illustrated which have been given by way of example.

For example, the number of phases of the apparatus may be greater than two.

On the contrary, the invention comprises all the technical equivalents of the means described and their combinations if they are carried out according to its spirit. 15 20 25 30 35

Claims (2)

1 Electrical protection apparatus for equipping an electrical distribution board, and comprising a so-called principal device or head associated with at least one starting apparatus, said departures, said devices being mounted on the same mounting bracket, each device of starting being dedicated to a power line on which is mounted a number of electrical charges, each device having at least two power lines, one of which said first, conveys the phase or phases, while the other, said second, vehicle the neutral, the power lines of the so-called main apparatus being electrically connected upstream to the network and downstream respectively to the corresponding electrical lines of the starting apparatus, said apparatus being intended to provide the main function of protection against short circuits and sectioning, and the so-called second protection functions of the cables, of the and equipment, as well as so-called comfort functions, characterized in that the or each so-called second protection function is performed by means of data measuring means (26,27,43,44,49 ) performed at each start (2 to 7), processing means (16,21,18) of these data, and means for activation by the user of the function in question, these processing means being implemented. service either at the level of each departure (2 to 7), or in a shared manner depending on the type of electrical function provided. 2. Apparatus according to claim 1, characterized in that these processing means are operated either at each start (2 to 7), or in a shared manner, depending on whether the value of the voltage on the power lines of the departure considered during the electrical fault, is greater or less than a certain value. Apparatus according to claim 2, characterized in that said main apparatus (1) comprises a so-called main actuator (16) able to operate either with its own current or in the presence of a voltage, and in that each starting apparatus ( 2 to 7) comprises a so-called secondary actuator (21) able to be controlled only in the presence of a voltage on the lines of the concerned feeder, greater than a minimum value. Apparatus according to claim 3, characterized in that it comprises breaking contacts (19,20,23,24) located either in the head unit or in at least one of the starting apparatuses (2 to 7). ), and in that the putting into service of the processing means causes the actuation of the main actuator (16) in the case where the voltage on the departure concerned by the electrical fault is lower than a minimum voltage value, this causing the opening of the cut-off contacts (23,24) of the head unit (1) or the cut-off contacts (1920), of the set of starts (2 to 7), as the case may be, whereas when the aforementioned voltage is greater than this minimum value, the commissioning of the processing means only causes the opening of the breaking contacts (19,20) belonging to the departures concerned (s) by the fault (2 to 7), by the actuation of Is (des) secondary actuator (s) (21) corresponding (s). Apparatus according to any one of the preceding claims, characterized in that the short circuit protection and sectioning function is totally mutualised, the head unit (1) comprising means for electromagnetic detection of a short circuit (55) adapted to cause the opening of the contacts located in the head unit called said main contacts (23,24). Apparatus according to any one of claims 1 to 4, characterized in that means for detecting a fault (46) are provided at each start (2 to 7), said means cooperating respectively with so-called secondary actuators ( 21) associated respectively with the different starts, to cause the opening only of the cutoff contacts of the departure concerned by the fault. Apparatus according to claim 6, characterized in that the fault is a short circuit fault. Apparatus according to any one of claims 5 to 7, characterized in that polar sensors (26) and a processing unit (18) store the data in order to perform the comfort functions. Apparatus according to any one of the preceding claims, characterized in that the aforesaid measuring means (26, 27, 43, 44, 49) comprise polar current and / or voltage and / or differential current sensors. Apparatus according to claim 9, characterized in that the current measuring means comprise polar current sensors for detecting a long current delay, the detection of a short current delay or a short circuit by the instantaneous measurement of the current. 11. Apparatus according to any one of the preceding claims, characterized in that the protection function of people at each start is performed by means of polar differential current sensors between the power lines of said departure. Apparatus according to Claim 3, characterized in that the said main apparatus (1) comprises an island head comprising a main block (25), the main block comprising differential detection means (14, 15), said main actuator (16) and a polar electronic card (50). Apparatus according to Claim 12, characterized in that the aforementioned electronic card (50) comprises a pole-shaped or multi-pole processing unit (18), polar current sensors (26,43) and / or voltage (49) and / or differential current (44) communicating with said unit (s), and power supply means (17) of said processing units (18). Apparatus according to claim 12 or 13, characterized in that it further comprises a data bus (28) capable of transmitting information related to the poles, or departures, to the island head (1) and to the inverse of the island head (1) towards said poles (2 to 7). 15. Apparatus according to any one of claims 12 to 14, characterized in that the so-called comfort functions are activated by the consumer by connecting a communication box (32) on the electronic card (50), this communication box receiving information from the processing units (18), which themselves take their information on the polar sensors. 16. Apparatus according to claim 12, characterized in that the measurement of the current at each start is performed by means of a toroid mounted on the electronic card (50). 17. Apparatus according to any one of the preceding claims, characterized in that it comprises means for parameterizing all the protection and comfort functions, by software or by means of plug-in modules adapted to be mounted in the housing switchgear, or factory setting of these functions.1-8. Apparatus according to any preceding claim, characterized in that it comprises at least one output block (8 to 13) for performing a complementary electrical function, the or each block being intended to be mounted in the housing of the apparatus at one of the departures (2 to 7), so as to add this electrical function to said departure. Apparatus according to claim 18, characterized in that said complementary electrical function is one of the functions included in the group comprising a sectionable switch, a sectionable block, a sectionalable relay block, a circuit breaker block, a fuse block. 20. Apparatus according to claim 12, characterized in that the main block (25) can comprise at least four different types of electronic cards (50) for respectively providing protection of the cables only A, centralized protection Vigi B, a distributed Vigi protection C, and a protection D 20 including all these functions with in addition the function of arcing detection. 21. Apparatus according to any one of the preceding claims, characterized in that it is able to also provide the contactor function (29) or tele 25 switch, the latter being activated by the insertion of at least one plug-in module (53) corresponding to this function in the housing of the apparatus. 22. Apparatus according to claims 3 and 12, characterized in that it comprises, provided in the main block (25), means for detecting a fault (55) 30 controlling the main actuator (16) in order to opening cut-off contacts provided in the main block (25), and at least one starting apparatus (2 to 9) comprising a relay, said relay being intended to open cut-off contacts provided in the outlets before the cut-off contacts of the main block to maintain selectivity. 23. Apparatus according to claim 12, characterized in that the main block (25) comprises differential detection means and a so-called main actuator (16) and in that the or each departure comprises electrical protection means (45). included in the group comprising a circuit breaker, a differential protection device, an arc detection device, as well as a polar actuator. 24. Electrical panel comprising at least one apparatus according to any one of the preceding claims.