WO2014199100A2 - Device and method for protecting against electrical disturbances - Google Patents

Abstract

The invention relates to protection means for a single-phase device supplied by a first line over which a three-phase transformer supplies a phase. The means include a device for periodically measuring the voltage on the first line, a device for detecting overvoltages in order to detect a first event relating to the voltage exceeding a first threshold; a relay for opening or closing the first line; and a control device for opening the relay when the first event occurs. The invention specifically relates to electricity distribution systems for the lighting of public facilities and highways.

Description

 Device and method of protection against electrical disturbances

Introduction

The present invention relates to protection means, against electrical disturbances, for single-phase electrical equipment coupled to an output line of a three-phase transformer. It relates more particularly to means to avoid damage caused by electrical surges.

Prior art

Electrical equipment, in particular industrial machines connected to a three-phase network, can be damaged by disturbances propagated by the electrical network to which they are coupled. This can result in power cuts or even physical damage. The intervention of an agent of the power grid operator is often necessary to identify the origin of the failure, remedy it before putting the network back into service, or even to replace the irreparably damaged equipment. This can represent a cost for the power grid operator, as for the owner of the electrical equipment, and pose many problems because of the unavailability of said equipment. To limit the damage caused by these disturbances on the network, there are several types of device. A circuit breaker may be arranged at the start of the power supply line of the equipment to be protected, so as to open the electric circuit in response to the occurrence of a short circuit. Fuses can be used to protect equipment against currents exceeding a specific maximum value. There are still devices for protection against loss of earth or poor connection to the earth. Means of protection against leakage currents circulating between an electric line of the supply and the earth are also known.

A particular problem arises regarding the protection of electrical equipment powered by a single-phase current when the latter are installed in a three-phase electrical installation. This configuration is frequently found on industrial sites where single-phase industrial equipment is coupled to one of the output phases of a three-phase transformer. Although single-phase electrical equipment is often overcurrent protected, it is also often designed to operate in a limited voltage range, typically a range corresponding to that of the electricity distribution network, ie 230 V ± 15% in Europe. Most equipment is not protected against overvoltages that can be observed at the output of a three-phase industrial transformer. In case of overvoltage observed on a line coming out of a 3-phase transformer, for example when the mains voltage is greater than 300 V _ac , the internal components of the electrical equipment may either be damaged or destroyed, or their service life may be significantly reduced.

This is why there is a need for effective means of protection against electrical disturbances for single-phase electrical equipment coupled to an output line of a three-phase transformer, and more particularly, means for avoiding damage caused by overvoltages. electric.

Summary of the invention

One of the objects of the invention is to provide effective means of protection against electrical disturbances that may affect single-phase electrical equipment coupled to an output line of a three-phase transformer. Another object of the invention is to provide means for avoiding damage caused by electrical overvoltages. Another object of the invention is to provide automatic means for restoring the power supply after the occurrence of a disturbance, without the intervention of a specialized agent or an operator. Another object of the invention is to provide efficient and economical means.

One or more of these objects are filled by the protection device, the distribution system and the method, according to the claim (s) independent (s). The dependent claims further provide solutions to these objects and / or other advantages.

More particularly, according to a first aspect, the invention relates to a protection device, for at least one single-phase electrical equipment adapted to be powered by an electric current flowing on a first electrical line coupled to a first phase of a three-phase transformer. . In particular, in Europe, the electrical equipment is typically designed to be powered by a nominal voltage of 230 V, and is designed to withstand nominal voltage variations of ± 15%. The three-phase transformer and said at least one equipment are further coupled to a point of neutral potential. The point of neutral potential is also often referred to as mass or simply neutral. The protection device comprises a measuring device configured to measure, periodically or continuously, a first voltage on the first electric relative to the point of neutral potential.

The protection device includes an overvoltage detection device configured to detect a first event of exceeding a first threshold by the first voltage. The first threshold is for example substantially equal to an AC voltage of 270 V. _r . The protection device comprises a relay device adapted to open or close the first power line, according to a command. For example, the relay device comprises a relay positioned in series on the first power line so that when the relay is open, the first power line is cut and the first voltage is zero. In this example, the relay is reversible by control, that is to say that the latter is able to be open or closed, depending on a command received.

The protection device comprises a control device configured to transmit to the relay device a command for opening the first line when the first event occurs.

In the event of overvoltage, typically when the AC voltage delivered at the output of the three-phase transformer is greater than 300 Vac, for example for Europe, the internal electronic components of the electrical equipment could deteriorate and cause the shutdown of operation. equipment, if the protection device according to the invention did not intervene. A commonly encountered risk is generally described as "neutral cutoff", caused for example by a bad connection to the neutral equipment, particularly due to a poor tightening of the neutral cable. Thus, in the event of a neutral cutoff, when the electrical loads of the electrical equipment of each of the three output lines of the three-phase transformer are not balanced, voltages up to a maximum voltage of 380 V can be observed at the terminals of the electrical equipment. Thus, the protection device according to the invention is designed to observe the voltage on an electrical line at the output of the transformer, and if necessary cut off said electric line almost instantaneously, if a predetermined threshold is exceeded. To protect the three power lines at the output of the transformer, it is possible to have a protection device by line and / or electrical equipment to protect.

The protection device may further comprise a configuration device adapted to allow the adjustment of the first threshold according to the electrical characteristics of the single-phase electrical equipment. Thus, it is possible to best adjust the first triggering threshold of the cutoff of the first line, depending on the characteristics of the equipment to be protected, for example taking into account its ability to tolerate overvoltages, or the level of protection required depending on the desired availability of the equipment.

The measuring device comprises for example an integrator rectifier device configured to calculate a first value V _r by straightening the first voltage and then integrating the first voltage over time. The surge detection device is then configured to detect the first event when the first value V _r is greater than the first threshold. This is an effective way to determine if the first voltage exceeds a predetermined threshold, and can be achieved using inexpensive components and resistant to high voltages, such as including diodes and capacitors.

The overvoltage detection device can be arranged to detect a second event relating to the passage under a second threshold of the first voltage. The control device is then configured to send to the relay device a command to close the first line on the occurrence of the second event. The second threshold is for example substantially equal to an AC voltage of 270 V _AC . Thus, when the first electrical voltage returns to a level bearable by the electrical equipment, the first power line is then restored automatically without the intervention of an operator or a specialized agent, and the operation of the electrical equipment can then immediately resume. The protection device may also include a configuration device adapted to allow the adjustment of the second threshold according to the electrical characteristics of the single-phase electrical equipment. In the case where the measuring device comprises for example an integrating rectifier device configured to calculate a first value V _r by straightening the first voltage and then integrating the first voltage over time, the overvoltage detection device can configured to detect the second event when the first value is less than or equal to the second threshold.

According to a second aspect, the invention relates to an electrical distribution system comprising: a three-phase electrical transformer delivering on three electric lines L1, L2, L3 respectively three phases P1, P2, P3, the electric transformer being further coupled to a neutral potential point N; at least one single-phase electrical equipment electrically coupled to the neutral potential point N and to one of the three electrical lines L1, L2, L3 for supplying said at least one electrical equipment with current; a device according to the first aspect, electrically coupled to the power line for supplying the single-phase electrical equipment.

Said at least one electrical equipment is for example a lighting device for illuminating a street or a public installation.

According to a third aspect, the invention relates to a method for protecting at least one single-phase electrical equipment adapted to be powered by an electric current flowing on a first electrical line coupled to a first phase of a three-phase transformer, the three-phase transformer and said at least one device being further coupled to a point of neutral potential N. The method comprises the following steps: a first step of measuring a first voltage on the first electric relative to the point of neutral potential; a second step of detecting a first event relating to the exceeding of a first threshold by the first electrical voltage; a third step of opening the first power line, if the first event was detected during the second step.

The first threshold can be determined according to the electrical characteristics of the single-phase electrical equipment.

The method may further comprise: a fourth step of detecting a second event relating to the passage under a second threshold of the first electrical voltage; a fifth step of closing the first line on the occurrence of the second event.

The second threshold can be determined according to the electrical characteristics of the single-phase electrical equipment.

During the first step, a first value V _r can be calculated by straightening the first voltage and then integrating the first voltage over time. The first event is then detected at during the third step when the first value is greater than the first threshold. The second event can then be detected during the fifth step when the second value is less than or equal to the second threshold.

Brief description of the figures

Other features and advantages of the present invention will become apparent in the following description of embodiments, with reference to the accompanying drawings, in which: FIG. 1 is a block diagram illustrating the principle of the power supply of single-phase electrical equipment by a three-phase electrical transformer; FIG. 2 is a block diagram of a protection device, for single-phase electrical equipment, against the electrical disturbances at the output of an electrical line of a three-phase transformer, according to one embodiment of the invention; FIG. 3 is a diagram of a method according to one embodiment of the invention for protecting single-phase electrical equipment against electrical disturbances at the output of an electrical line of a three-phase transformer; FIG. 4 is a block diagram of a system, according to one embodiment of the invention, of electrical distribution to electrical equipment, in particular lighting devices, provided with a protection system against electrical disturbances.

detailed description

Figure 1 schematically illustrates the principle of the power supply of single-phase electrical equipment by a three-phase electrical transformer. The transformer delivers a first phase PI on a first electrical line L1, a second phase P2 on a second electrical line L2, and a third phase P3 on a third electrical line L3. The transformer is coupled to a point N of neutral potential. In operation, the voltage U1 between the first electrical line L1 and the point N, the voltage U2 between the second electrical line L1 and the point N, and the voltage U3 between the third line L1 and the point N are substantially equal to a nominal value typically equal to 230 V _AC +/- 15% in Europe. At least one first device can be coupled to the first line L1 and the point N to be powered by the voltage U1. At least one second device can be coupled to the second line L2 and the point N to be powered by the voltage U2. At least one third device may be coupled to the third line L1 and the point N to be powered by the voltage U3. A risk commonly encountered is in general called "Neutral Cut", caused for example by a bad connection to the N point by the equipment. Thus, in the event of a neutral cut-off, when the own loads supported by the lines L1, L2, L3 are not balanced, that is to say different, compound voltages that can reach a maximum voltage, namely 380 V , can be observed at the terminals of electrical equipment.

FIG. 2 is a block diagram of a protection device 10, for a single-phase electrical equipment 12, against the electrical disturbances at the output of a power line, for example the first line L1, of a three-phase transformer, according to a mode embodiment of the invention. The following example is given for a protection of the electrical equipment powered by the first line L1. However, the device operates identically coupled to any of the three lines L1, L2, L3, depending on the electrical equipment to be protected. The power supply of the single-phase equipment 12 is coupled to the first line L1 and to the neutral point N so as to receive a voltage U1 from the transformer. The protection device 10 comprises a first input 14 adapted to be coupled to the first line. Ll, and a second input 16 adapted to be coupled to the neutral point N. The device comprises an output 18 on which the phase PI is delivered, and thus allow to couple other devices to the first line L1. The protection device comprises a device for measurement 22 configured to measure, periodically or continuously, the voltage U1 between the first input 14 and the second input 16, that is to say between the first line L1 and the neutral point N. The protection device comprises a overvoltage detection device 24 configured to detect a first event relating to the exceeding of a first threshold S _H by the voltage U1. The first threshold S _H is for example substantially equal to an ac voltage of 270 V _AC . The overvoltage detection device can be arranged to detect a second event relating to the passage under a second threshold S _B of the electrical voltage U L. The second threshold S _B is for example substantially equal to a voltage of 270 V AC. _AC . The protective device comprises a relay 30, arranged between the first input 14 and the output 18, so as to open or close the first line L1, depending on a command. The protection device comprises a control device 28 configured to transmit to the relay 30 a command for opening the first line L1 upon the occurrence of the first event, when the latter is detected by the detection device 24. The device The control circuit may also be configured to transmit to the relay device a command for closing the first line when the second event occurs, when the latter is detected by the detection device 24. The protection device may further comprise a configuration device 26 adapted to allow the adjustment of the first threshold S _H and / or the second threshold S _B depending on the electrical characteristics of the single-phase electrical equipment. Thus, it is possible to best adjust the first threshold S _H triggering the cutoff of the first line, depending on the characteristics of the equipment to be protected, for example taking into account its ability to tolerate overvoltages, or the level of protection required depending on the desired availability of the equipment. It is also possible to best adjust the second threshold S _b recovery of the first line, depending on the characteristics of the equipment to be protected, for example taking into account its ability to tolerate overvoltages, or the level of protection required depending on the desired availability of the equipment.

The measuring device comprises, for example, an integrator rectifying device configured to calculate a first value V _r by raising the voltage U1 and then integrating the voltage U1 over time. The surge sensing device is then configured to detect the first event when the first value V _r is greater than the first threshold.

FIG. 3 is a diagram of a method according to one embodiment of the invention for protecting single-phase electrical equipment against the electrical disturbances at the output of a power line, for example the first line L1, of a three-phase transformer. The following example is given for a protection of the electrical equipment powered by the first line L1. However, the device operates identically coupled to any of the three lines L1, L2, L3, depending on the electrical equipment to be protected. In particular, the method can be implemented by the protection device 10 described above. The method comprises a prior step 100, during which the first line L1 is closed, for example by sending a command to the closing relay 30 of the first line L1. Then, during a first step 110, the voltage U1 on the first line L1 is measured relative to the neutral point N. During the first step, a first value V _r can be calculated by straightening the first voltage U1 and then integrating the first voltage Ul over time. In a second step 120, a first event is detected relating to the exceeding of a first threshold S _H by the first voltage U1. In a third step 130, the first line L1 is opened, if the first event has been detected during the first step. the second step 120. Then, during a fourth step 140, the voltage Ul is measured on the first line L1 relative to the neutral point N. In a fifth step 150, a second event relating to the passage under a second threshold is detected. S _B of the first voltage U1. The first line L1 is closed, if the second event has been detected in the fifth step. FIG. 4 is a block diagram of a system, according to one embodiment of the invention, of electrical distribution to electrical equipment, in particular lighting devices, equipped with a protection system against electrical disturbances. The electrical distribution system comprises: a three-phase electrical transformer 210 delivering on three electric lines L1, L2, L3 respectively three phases P1, P2, P3, the electric transformer being further coupled to a point of neutral potential N; single-phase electrical equipment 220 electrically coupled to neutral potential point N and to three power lines L1, L2, L3; protectors 10, electrically coupled to the power lines L1, L2, L3.

Electrical equipment is for example lighting devices for lighting public roads or installations.

Claims

1. Protection device (10), for at least one single-phase electrical equipment (12) adapted to be powered by an electric current circulating on a first electrical line (Ll; L2; L3) coupled to a first phase (PI; P2; P3) of a three-phase transformer (210), the three-phase transformer and said at least one piece of equipment being further coupled to a neutral potential point (N), characterized in that it comprises: a measuring device (22) configured to measure a first electrical voltage on the first electrical relative to the neutral potential point; an overvoltage detection device (24) configured so as to detect a first event relating to the exceeding of a first threshold by the first electrical voltage; a relay device (30) adapted to open or close the first electrical line, depending on a command; a control device (28) configured so as to send to the relay device a command to open the first line upon the occurrence of the first event.

2. Device according to claim 1, in which the first threshold is substantially equal to 270 V _AC .

3. Device according to claim 1 or 2, further comprising a configuration device (26) adapted to allow adjustment of the first threshold as a function of the electrical characteristics of the single-phase electrical equipment.

4. Device according to any one of claims 1 to 3, wherein the overvoltage detection device (24) is arranged so as to further detect a second event relating to the passage below a second threshold of the first electrical voltage; the control device being configured so as to send to the relay device a command to close the first line upon the occurrence of the second event.

5. Device according to claim 4, in which the second threshold is substantially equal to 270 V _AC .

6. Device according to claim 4 or 5, further comprising a configuration device (26) adapted to allow adjustment of the second threshold as a function of the electrical characteristics of the single-phase electrical equipment.

7. Device according to any one of claims 1 to 6, in which the measuring device comprises an integrating rectifier device (22) configured to calculate a first value (V _r ) by rectifying the first electrical voltage then integrating the first electrical voltage over time; the overvoltage detection device (24) being configured to detect the first event when the first value is greater than the first threshold.

8. Device according to claim 7 and any one of claims 4 to 6, wherein the overvoltage detection device (24) is configured so as to detect the second event when the first value is less than or equal to the second threshold.

9. Electrical distribution system comprising: a three-phase electrical transformer (210) delivering on three electrical lines (Ll, L2, L3) respectively three phases (PI, P2, P3), the electrical transformer being further coupled to a potential point neutral (N); at least one single-phase electrical equipment (12) electrically coupled to the neutral potential point (N) and to one of the three electrical lines for supplying said at least one piece of electrical equipment with current; a device according to any one of claims 1 to 8, electrically coupled to the electrical line intended to power said at least one single-phase electrical equipment.

Electrical distribution system according to claim 9 wherein said at least one piece of electrical equipment is a lighting device for illuminating a path or a public installation.

Method for protecting at least one single-phase electrical equipment (12) adapted to be powered by an electric current circulating on a first electric line (Ll; L2; L3) coupled to a first phase (PI; P2; P3) of a three-phase transformer (210), the three-phase transformer and said at least one piece of equipment being further coupled to a neutral potential point (N), characterized in that it comprises the following steps: a first step of measuring (110) a first electrical voltage on the first electrical relative to the neutral potential point; a second step of detecting (120) a first event relating to the exceeding of a first threshold by the first electrical voltage; a third step of opening (130) of the first electrical line, if the first event was detected during the second step.

12. Method according to claim 11, in which the first threshold is determined as a function of the electrical characteristics of the single-phase electrical equipment.

13. Method according to any one of claims 11 to 12, further comprising: a fourth detection step (140) of a second event relating to the passage below a second threshold of the first electrical voltage; a fifth closing step (150) of the first line upon the occurrence of the second event.

14. Method according to claim 13, in which the second threshold is determined as a function of the electrical characteristics of the single-phase electrical equipment. Method according to any one of claims 11 to 14, in which during the first step a first value (V _r ) is calculated by rectifying the first electrical voltage then integrating the first electrical voltage over time; the first event being detected during the third step when the first value is greater than the first threshold.