FR2538177A1 - Low-voltage installation for automated electrical distribution. - Google Patents

Abstract

The invention relates to an electrical distribution installation having several outlets fed by a common inlet equipped with a general circuit breaker DG with electromagnetic release 22. Each outlet 1 to n is protected by a remotely controlled switch D1 to Dn comprising an opening and closing mechanism interacting with a control relay 26, and a current sensor for detecting a defect in the corresponding outlet. An electronic processing unit 28 centralises the information coming from the sensors C1 to Cn and from external control members 32 in order to deliver, after processing, a break-in order to the relay 26 of a specified divisional switch. Application: automated management of distribution of electricity to low-voltage terminal installations.

Description

LOW VOLTAGE INSTALLATION OF SELF-CONTAINED ELECTRICAL DISTRIBUTION
The invention relates to a low-voltage automated electrical distribution installation having several feeder feeders supplied by a common arrival from an alternative network, comprising a general DG protection and control device arranged on the upstream stage, and a distribution conductor, each departure from the downstream stage being protected by a divisional interruption device and comprising - an opening and closing mechanism for isolating or supplying the associated departure, - a control relay cooperating with the mechanism, - and at least one current sensor arranged at the output of the divisional apparatus to detect a fault on the corresponding feed.

Such an installation is designed to fulfill the usual functions of protection of feeders against short-circuits and overloads, possibly ensuring tripping selectivity.

It is increasingly necessary to save electrical energy by providing, in addition to protection functions, additional specific control functions capable of automating the distribution of electricity.

These additional functions consist in ensuring the switching on and off of certain receivers supplied by the different feeders, in particular lighting fixtures,
heating or motors depending on hourly or weekly periods, natural light, temperature or other factors or parameters I1 has already been proposed to achieve such automation by combining external measuring devices, including programmers oraires, twilight switches, thermostats with appropriate electrical equipment, including for example contactors, remote control switches, fuses, circuit breakers, load shedding relays, etc. The implementation of this type of automation is complex, because the protection and control functions are carried out by separate devices. The number of electrical devices used is large, and the complicated internal wiring requires a prior study of the installation.

The cost of such an installation then becomes prohibitive.

The object of the invention is to remedy these drawbacks and to provide a reliable and simple installation for automatic management and distribution of electricity, applicable to most terminal or domestic installations at a reduced cost,
The installation according to the invention is characterized in that the general device is equipped with an electromagnetic trip actuator with instantaneous action, and that an electronic processing unit centralizes the information coming from the current sensors and external control members for issuing, after treatment, an intervention order to the control relay of the predetermined divisional apparatus, this order being either a tripping signal after the appearance of a fault detected by the corresponding sensor, or a control signal to distance controlled by the external members for the opening or closing of said feeder, the assembly being arranged to ensure coordination between the protection and control functions, the protection against short-circuits being provided by the only general device of the upstream stage, the additional protections against overloads, residual differential current and others being taken into account by the divisional devices of the e downstream, controlled by both the internal electronic circuits and the external controls.

The presence of a centralized processing unit controlled both by the internal circuits (current sensors, signaling contacts, etc.) and the external control devices (programmers, thermostats, push buttons, etc.) allows use the same divisional devices to provide protection and remote control functions.

The divisional devices are advantageously formed by switches controlled by the associated relays 26, the excitation of each relay 26 resulting either from an opening order on fault, or from a remote control order, or even from a automatic reclosing order.

A microprocessor is advantageously integrated in the processing unit to fulfill all of the functions and their coordination. The caliber setting of each feeder is done by adjusting the overload trip threshold of the corresponding divisional switch. All other settings (differential trip threshold, time delay, etc.) are also carried out at the level of the centralized processing unit.

The general apparatus DG of the upstream stage is formed by a circuit breaker comprising an opening and closing mechanism cooperating with the electromagnetic trip device and a control relay connected to one of the internal outputs. After instantaneous opening of the circuit breaker following a short circuit, the processing unit is programmed to control the delayed opening of the device corresponding to the faulty circuit, followed by automatic closing of the circuit breaker.

According to one embodiment of the invention, the general apparatus DG, the divisional apparatuses and the unit of
electronic processing are incorporated in the same block
prewired functional terminal distribution or domes
tick comprising terminals for departures to the uses, terminals for connection of external control members, and a busbar in connection with arrival terminals and arranged to allow modular assembly of the block with other identical blocks , so as to increase the number of departures served from the same current supply.

Other advantages and characteristics will emerge more clearly from the description which follows of an embodiment of the invention, given by way of nonlimiting example and represented in the appended drawing, in which FIG. 1 shows a diagram functional single-phase of an automated distribution installation according to the invention; FIG. 2 represents a schematic view of a distribution panel according to the diagram in FIG. 1, and limited to six departures; FIG. 3 is a side view of FIG. 2.

With reference to FIG. 1, a subscriber or distribution panel 10 of a low voltage electrical installation comprises a general DG protection and control device, supplied by an alternating current distribution network. The installation circuit is single-phase with a phase conductor L and a neutral conductor N, but it is obvious that the invention applies to a three-phase circuit with or without distribution of neutral. The phase output terminal of the general apparatus DG is connected by a conductor 12 connecting to the downstream stage comprising a plurality of feeders 1, 2 ... i, n in derivation, each equipped with a divisional apparatus for start, D1, D2 ..

 Dn The input terminal of each divisional device D1 to Dn is connected to a distribution conductor 16 supplied by the connecting conductor 12. The output terminal of each divisional apparatus D1 to Dn is capable of receiving a starting cable 17 for the connection of one or more receivers. The neutral output terminal of the general device DG is connected to a neutral connection strip (not shown), to which neutral conductors (not shown) are connected corresponding to the feeder cables. The general device DG is bipolar, one of the poles used for cutting the phase, and the other for that of the neutral.All divisional devices D1 to Dn are unipolar modules without breaking the neutral, but it is also according to a variant, it is possible to provide bipolar divisional devices with combined phase and neutral cut-off.

The general control and protection apparatus DG can be likened to a circuit breaker equipped with a remote control with relay 18 for opening and closing cooperating with the mechanism for actuating the movable contacts 20 between the open and closed positions. . An instantaneous electromagnetic trip unit 22 provides protection against short-circuit currents by causing the circuit-breaker to trip quickly when the intensity of the line current exceeds the instantaneous trip threshold, fixed for example at 10 In, In being the intensity of the nominal current corresponding to the subscribed power in the case of a subscriber table. The apparatus DG furthermore comprises a system of auxiliary contacts 24 intended to signal the open and closed positions of the contacts 20, and the armed state. or triggered from the mechanism. A local joystick control is associated with the mechanism of the DG device to ensure manual closing and opening control, as well as resetting the mechanism after tripping on fault.

Each divisional device D1 to Dn consists of a remote-controlled switch or circuit breaker, the mechanism of which comprises a control relay 26 capable of performing a high number of closing and opening operations. Downstream of each switch, there is a current sensor C1 to Cn intended to measure the intensity of the current flowing through the corresponding feeder. Each divisional device D1 to D has an electrodyna resistance
n nique to avoid repulsion of the contacts during a short circuit limited or cut by the general device DG,
An open or closed position signaling device (not shown) can be integrated into each divisional device D1 to D
not
The current sensors C1 to Cn can be of the magnetic type, in particular intensity transformers with a toric-shaped magnetic core crossed by the cable 17 from the start 1 to n corresponding, and with a secondary winding for measuring the current. not shown) can be associated with each feeder according to the protection needs, in particular a voltage presence sensor, a zero sequence sensor of a residual differential trip device, a neutral earthing detector ...

The divisional devices D1 to Dn are devoid of any thermal and electromagnetic trip device.

A microprocessor-based electronic processing unit 28 is capable of controlling the opening and closing of the general apparatus DG and of the divisional apparatuses
D1 to Dn, depending on the program chosen and the different signals delivered by all of the sensors and by external control units 32 The electronic unit 28 is designed to allow programming, or can be linked to a device of the PLC type programmable.

The unit 28 comprises - a first series of internal inputs Ei to which are connected by connecting conductors 30, the secondary windings of the current sensors C1 to C n and the additional sensors (presence of voltage, differential protection, neutral to the earth), the different feeders 1 to n, as well as the auxiliary contacts 24 for remote signaling of the state of the general device DG and the possible auxiliary contacts of the divisional devices D1 to ào; - a second series of external E EëXt inputs for the connection of external control members 32, in particular thermostats, twilight switches, electromechanical programmers or sequencers and manual push buttons capable of ensuring the remote control of divisional devices D1 to Dn of the different starts 1 to n; - If internal outputs for the connection of conductors 34 supplying relays 18, 26 for controlling the general device DG and the divisional devices Ds to Dn; - a "user" interface intended for the establishment, the control and the modifications of the program, and the visualization of the data necessary for the local exploitation; - And a "general system" interface for the interconnection of the processing unit 28 to a general computer or to a remote control system.
The electronic unit 28 centralizes the data coming from the sensors, signaling devices with auxiliary contacts, and external control members 32, and delivers, after processing, a control signal intended for one of the relays 18, 26. depends on the program displayed in unit 28, and the control signal at one of the internal S. outputs is either an opening command on fault, or a remote command to open and close, or a delayed reclosing order after opening on fault 0 The setting of calibers of different feeders 1 to n is integrated in unit 28 to adjust the overload trip threshold db each divisional device D1 to Dn. The unit 28 can also include means for adjusting the differential trip threshold of the earth fault protection of each departure.

Protection against co-circuits is provided by the instantaneous intervention of the electromagnetic trip device 22 of the general apparatus DG. The breaking capacity of the divisional devices D1 to Dn can range from low. The processing unit 28 can subsequently cause the opening of the divisional apparatus protecting the faulty departure, then the automatic closing of the general apparatus DG.

The fault protection and remote control functions are implemented in a coordinated fashion, ie duplication of components, protection against short-circuits being provided by the general DG head unit, and additional protection (overloads , residual differential current, overvoltage and others) being taken into account by the divisional apparatuses D1 to Dn controlled both by the sensors of the internal electronic circuits and the external control members 32.

The operation of the distribution panel 10 in FIG. 1 is as follows
Manual and remote control
The assembly being connected under voltage, the general circuit breaker DG being armed and closed, the opening and closing of each feeder 1 to n is obtained either by local control or by remote control controlled by the external control members 32, cooperating with the processing unit 28. The latter transforms the external information into the order to open or close a predetermined divisional device, by supplying the associated relay 26.

Overload protection
In the event of an overload on the start i, detected at the current sensor Ci, the processing unit 28 records the overshooting of the rating corresponding to the triggering threshold and sends an opening order to relay 26 of the device. divisional board Di ;; The latter remains open and the unit 28 prohibits its automatic reclosing for a given time.
Short circuit protection
In the presence of a short-circuit on the start 2, the DG circuit breaker triggers reflexively and limits the energy dissipated in the faulty circuit to a low value. The processing unit 22 delivers an order of opening of the relay 26 of the divisional device D2 corresponding to the faulty circuit The programming means of the electronic processing unit 28 make it possible to control the immediate reclosing of the overhead DG circuit breaker while prohibiting that of the divisional device
D2 This ensures optimal continuity of service on non-defective circuits. Furthermore, as most short-circuits are of fleeting origin, it is possible, when the continuity of service is very important, to schedule a test of reclosing of the D2 divisional apparatus before its final condemnation.

Differential protection
In the event of an earth fault on feeder 1, detected by the associated zero sequence sensor, the processing unit 28 checks that the different tripping threshold has been exceeded and sends an opening order to relay 26 of device D1 .

It is noted that the centralization and processing of internal and external information in the unit 28 makes it possible, for each departure 1 to n, to indifferently transmit the order to open on fault, the order to close after a fault and the order to order remotely, by the same conductor (s) 34 of outputs Si and using the same relay 26 of the divisional apparatus D1 to Dn corresponding.

Figures 2 and 3 illustrate an embodiment of the invention, equipped with a simplified processing unit 28, intended to provide the most common protections, in particular against short-circuits and overloads, each of the six starters being operated remotely by an external control member 32. This simplified version of the invention is particularly suitable for lighting and heating circuits in buildings, and is arranged in the form of a distribution functional block 38 of reduced bulk and factory pre-wired. The distribution block 38 with six outlets 1 to 6 comprises an insulating box 40 containing the general device DG and all of the divisional devices D1 to D6. The front face of the box is provided with a plurality of openings 42 for the passage of the local control levers The main lever 44 provides manual control of closing and opening of the general DC device, as well as rearrangement of the latter after tripping on fault. The general device DG is associated with two indicators 46, 48 for the presence of voltage and for signaling tripping on a fault. The levers 50 serve for local control and indication of the position of the contacts of the divisional devices D1 to D6 (open position shown. by 0, and position closed by I). Windows 52 for viewing the caliber setting of the six feeders are provided under the levers 50 of the corresponding divisional apparatuses D1 to D6. The different ratings 10A, 15A, 20A and 32A indicate the triggering threshold for each feeder upon the appearance of 'an overload.

An upper terminal cover 54 protects the connection of the distribution block 38 to the current source which is constituted by the distribution network whose conductors L and N are connected to incoming terminals 56a, 58a. A set of conductive bars 60, 62 extends horizontally under the terminal cover 54 to ensure the connection of the arrival terminals 56a, 58a with opposite auxiliary terminals 56b, 58b. The arrangement of the pairs of terminals 56a, 58a; 56b, 58b at the opposite ends of the bars 60, 62 authorizes the modular lateral assembly of the block 38 with other identical blocks to increase the number of departures served from the same current supply.

A lower terminal cover 64 covers the start terminals 66 phase and neutral towards the uses. The remote control members 32 (thermostats, sequencers, push buttons, etc.) are connected to input terminals 68 in electrical connection with the second series of external inputs E ext of the processing unit 28. The distribution block 38 has G Xun fixing base 70 capable of being snapped onto a supprt rail. The block 38 can also be fixed by screws on a flat support surface, in particular a wall or a support plate.

The distribution block 38 is fully factory wired and has the following internal connections - main conductors between the busbar 60, 62 'and
the general apparatus DG; - distribution conductor 16 connected to the DG device by
the connecting conductor 12; - current sensors C1 to C6 connected to the milking unit
ment 28 by the conductors 30; conductors 34 arranged between the centralized unit 28, and
relays 18, 26 of general DG and division devices
D1 to D6.

The installation of the distribution block 38 by the installer requires a simple connection of the cables 17 from starters 1 to 6 to the terminals 66, the external control members 32 to the terminals 68 and the supply conductors L and N to the terminals d arrival 56a, 58a The choice of a departure depends on the rating displayed in the viewing windows 52
The invention is of course in no way limited to the mode of implementation more particularly described and shown in the appended drawing, but it extends quite the contrary to any variant remaining within the scope of electrotechnical equivalences.

Claims (7)

 1. Low voltage automated electrical distribution installation having several feeders (1 to n) in derivation supplied by a common inlet of an alternative network, comprising a general protection and control device (DG) arranged on the upstream floor, and a distribution conductor 16, each departure from the downstream stage being protected by a divisional device (D1 to Dn) for interruption comprising: - an opening and closing mechanism for isolating or supplying the associated departure, - a control relay (26) cooperating with the mechanism, - and at least one current sensor arranged at the output of the divisional device (D1 to onb to detect a fault on the corresponding feeder, characterized in that the general device (DG) is provided with an electromagnetic trip unit (22) with instantaneous action, and that an electronic processing unit (28) centralizes the information coming from the current sensors and from external control elements (32) to deliver after after processing an intervention order at the relays (26) for controlling the divisional apparatus (D1 to Dn) of a predetermined departure, this order being either a trigger signal after the appearance of a fault detected by the corresponding sensor, either a remote control signal controlled by the external members (32) for the opening or closing of said outflow, the assembly being arranged to ensure coordination between the protection and control functions, protection against short-circuits being ensured by the only general device (DG) of the upstream stage, the additional protections against overloads, residual differential current and others being taken into account by the divisional devices (D1 to Dm) of the downstream stage, controlled by both the internal electronic circuits and the external control members (32). 2. Installation of electrical distribution according to claim 1, characterized in that the processing unit (28) comprises means for adjusting the ratings on each feed (1 to n) by adjusting the trigger threshold overloads of the divisional devices (- D1 to Dn) corresponding. 3. Electrical distribution installation according to claim 1 or 2, characterized in that the processing unit (28) comprises a first series of internal inputs (E.) for the connection of sensors and auxiliary signaling contacts of the status of the general device (DG) and possibly of the divisional devices (D1 to Dn), a second series of inputs (Eext? external for  ext the connection of the external control members (32), and a plurality of internal outputs (Si) for the connection of the control relays (26) of the various divisional devices (D1 to Dn). 4. Electrical distribution installation according to reven dicaticn 3, characterized in that the general device (DG) of the upstream stage is formed by a circuit breaker comprising an opening and closing mechanism cooperating with the electromagnetic trip device (22 ) and a control relay (18) connected to one of the internal outputs (Si), and that after instantaneous opening of the circuit breaker following a short circuit, the processing unit (28) is programmed to control delayed opening of the divisional device corresponding to the faulty circuit, followed by automatic reclosing of the circuit breaker.  5 electrical distribution installation according to claim 4, characterized in that the distribution devices (D1 to Dm) are constituted by switches controlled remotely, and that the unit (28) is capable of delivering after a predetermined time, an automatic closing order to the relay (26) for controlling the divisional switch after prior opening of the faulty circuit. 6. Electrical distribution installation according to one of claims 1 to 5, characterized in that the general apparatus (DC), the divisional apparatuses (D1 to D)  n and the electronic processing unit (28) are incorporated in the same pre-wired functional block (38) for terminal or domestic distribution comprising terminals (66) for departing towards the uses, terminals (68) for connecting the members (32 ) external control, and a busbar (60, 62) in connection with incoming terminals (56a, 58a) and arranged to allow the modular assembly of the block (38) with other identical blocks, so to increase the number of departures served from the same power supply.  7 Installation according to claim 6, wherein the divisional devices (D1 to Dn) are arranged side by side to form at least one horizontal row, charac terized by the fact that a lower terminal cover (64) protects the terminals (66 , 68) and that an upper terminal cover (54) covers the busbar (60, 62), which extends pa parallel to the stacking direction of the divisional devices (D1 to Dn).  80 Installation according to one of claims 1 to 7, characterized in that the electronic processing unit (28) comprises programming means cooperating with a microprocessor