ES2567504B1 - Smart contactor - Google Patents

Abstract

Smart contactor to be installed in the branch (20) that is arranged between the smart meter with integrated IPC (1) and the switch (IGA) (3) of the housings (5), for the charging station (7) of Vehicles (8) that have an external load relay (7) that is governed by an actuating coil (11) and an electronic control circuit (10), which controls the average load (16), according to the step of the switch (17) that controls the automatism (15) which acts by means of the actions and following a certain procedure on the control switch (18) of the external relay (12).

Description

DESCRIPTION

Smart Contactor

Field of technique 5

The object of the present invention is an intelligent contact, which comes to fulfill a need created under Royal Decree 1053/2014, of December 12, which approved a new Complementary Technical Instruction (ITC) of Low Voltage (BT) ITC-BT-52 "Special purpose facilities, Infrastructure for the recharging of electric vehicles", of the Low Voltage Electrotechnical Regulation (REBT), approved by Royal Decree 842/2002, of August 2, and Other complementary technical instructions were modified. This ITC-BT-52 has allowed in its scheme 2, that after the smart meter with integrated Power Control Switch (ICP) installed in the centralization of counters of the house and before the 15 General automatic switch (IGA) of the General Table of the housing control, a derivation of the electrical circuit can be established, in order to establish a station or charging socket for electric vehicles, which are located in the garages of the houses, very far from the house itself, by example when one lives in a fourth floor and the garage is in the basement (-2). In these cases, for the assumption that there was an excess of consumption that produced a trip of the ICP integrated in the smart meter, the IGA of the house would have to be disconnected, so that the smart meter with integrated ICP detects that all loads have been disconnected (or what is the same, detects a very high impedance). Once the smart meter with integrated ICP detects this disconnection of the charges, it will reset its ICP so that when the consumer reconnects the home's IGA, the electricity supply resumes. But the problem arises from the fact that when the vehicle's charging station is connected, connected to a branch prior to that of the switch (IGA), the ICP integrated in the smart meter will not reset again, despite having opened the IGA of the dwelling, since the meter will detect that there is a connected load, that of the vehicle's charging station. This would mean that, in order to reset said ICP, the garage had to be lowered to also disconnect the charging station, so that the smart meter with integrated ICP detected that everything was disconnected, and then reset the ICP. In order to resume the supply, both the vehicle charging station and the IGA switch of the house should be reconnected. But let's observe the difficulties and disorders that the user or consumer implies, having to move from the house to the garage. to disconnect everything for a moment, and then reconnect everything.

Well, to solve this problem, many provisions can be made, 40 including those of performing a new power line from the garage, to the house and putting another switch of the electric vehicle charging station next to the IGA, but this it cannot always be done, since the community conduits do not always allow it, and if all the houses of the community did it, it would be something impossible to do. Four. Five

The present invention of the intelligent contact, belongs to this sector of the technique, which is totally new and that refers to the power supply lines of the charging stations of vehicles that are in combination with the homes, in short an electrical component and electronic and that gives a solution to the problem or the 50

described situation, guaranteeing the reset of the ICP without having to move to the garage.

Background of the invention

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There are many relay devices and rearm devices known in the market, but none that serve to solve a new and different situation to those that have been known or planned in the state of the art, and which in the present case they require a new and different solution than the one established with the contactors known in the sector. 10

Exhibition of the invention

The present invention aims at an intelligent contact, which is arranged in the line of the power grid that is established at the exit of the smart meter 15 with integrated ICP and in a branch prior to the IGA of the house, and which has as purpose and destination power the charging station of an electric vehicle and enable the reset of the ICP integrated in the smart meter with integrated ICP maneuvering only the IGA of the house and without the need for additional wiring installation between the house and the smart contact. twenty

This intelligent contact is divided or is constituted in turn into two parts: a) on the one hand what is an external relay that allows the network to pass through to the load or isolation depending on whether or not it is activated and b) An electronic control circuit that allows to control the state of the electromechanical contact and allows at the same time to isolate it (by opening the contact and also isolating the actuating coil of the external relay) as a network load.

The electronic control circuit to which we refer has the mission of, by means of conveniently programmed tests or tests, to determine the status of the ICP 30 integrated in the smart meter with integrated ICP (the possible states being open or closed) and to act upon contact electromechanical according to said state. This control circuit consists of four blocks: - Power block, - automation, - Measuring load and - External relay control switch.

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- The energy block: Since the set must have a very high impedance, the energy reserve system that is in the energy block obtains the minimum power necessary to not be detected as a load, and taking into account that the energy is the power for the time, the election of a suitable time allows to guarantee that the sufficient energy will be available to operate the electronic circuit 40.

- The automatism is designed to be disconnected (or in an ultra low power mode) during the time in which the power reserve is obtained. Once the reserve system has enough energy so that the automatism can operate, it activates and obtains the energy from the reserve until its operation ends.

- The measurement load is an element that, when connected, allows the input voltage to be measured by determining whether a trip has occurred in the ICP 50 integrated in the smart meter with integrated ICP. The load is connected during

minimum time necessary to be able to carry out the measurement. Once done it disconnects. The connection time is the one necessary to measure and adequate so that the smart meter with integrated ICP does not detect the process as a connected load.

 5

- The control switch: Depending on the measurement result, the system will decide whether to close (connect the load) or open (disconnect the load) the control switch (thus connecting or disconnecting the external relay and therefore the load). This element only consumes energy in the change of state, so it also uses the energy stored in the energy reserve for its operation. 10

The electronics work cycle would consist of or have the following phases: First, it should be noted that consumption is close to zero to fill the energy reserve, since it is in this state until an energy reserve is available enough. Secondly, a connection of the measuring load of the voltage is made. To pass the load disconnection. An estimate is then made of the state of the network based on the measured voltage. To definitively order the opening or closing of the external relay control switch according to that measurement.

Taking into account that a sufficient reserve of 20 energy cannot always be available, an energy reserve based on the arrangement of a battery that complements the energy reserve provided in the previous assumption, which was obtained as an alternative, may be available as an alternative from the BT network itself. With this configuration, autonomy of the system is gained and regardless of the functional conditions of the smart meter with integrated ICP, the rest of the arrangement and operation of the smart contact object of the invention and described above being fully maintained.

Brief description of the diagrams

Next, the diagrams explain the different parts and arrangements 30 of the intelligent contact object of the invention complementing the specification illustrating the preferred example but in no case limiting the invention.

The foregoing, and other features and advantages, will be more fully understood from the following detailed description of an exemplary embodiment with reference to the attached diagrams, in which:

Fig. 1 consists of the scheme of a general installation in which it can be verified how the network bypass for the vehicle charging station is made between the smart meter with integrated ICP and the IGA of the dwelling, and the place in which is installed 40 contact intelligent object of the invention.

Fig. 2 consists of the scheme of the parts into which the intelligent contact object of the invention is divided: On the one hand the electronics of the control circuit and on the other an electromechanical contact. Four. Five

Fig. 3 consists of the internal circuit diagram of the intelligent contact control circuit electronics, with the blocks that constitute it.

Fig. 4 consists of the same scheme as that of Fig. 3 complementing the power reserve 50 with a battery.

Description of the different elements of the invention

1.- Smart meter with integrated ICP.

2.- Centralization of counters 5

3.- General Automatic Switch (IGA) of the house (5)

4.- Own housing charges (5)

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5.- Housing

6.- Contact smart.

7.- Vehicle charging station (8) 15

8.- Electric vehicle of the charging station (7)

9.- Smart contact input network (6)

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10.- Electronic control circuit of the intelligent contact (6)

11.- External relay actuation coil (12)

12.- External relay controlled by the control circuit (10) of the intelligent contact (6) 25

13.- Smart contact output network (6), towards the charging station (7)

14.- Power reserve of the control circuit (10)

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15.- Control circuit automation (10)

16.- Measurement load of the control circuit (10)

17.- Measurement load switch (16) controlled by the automation (15). 35

18.- External relay control switch (12) controlled by the automation (15)

19.- Power reserve (supplemented with battery) of the control circuit (10)

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20.- Derivation of charge taking to the charging station (7) of the vehicles (8)

Detailed description of an embodiment example

In view of the foregoing, the present invention relates to an intelligent contact (6), which starting from an installation that has a meter centralization (2), in which one of the smart meters with ICP is located integrated (1) that controls the load of a house (5), which in turn has a switch (IGA) (3) that opens or closes the passage of the own loads (4) of the house (5). This installation is made a branch (20) of charging to the charging station (7) of vehicles (8), network in which smart contact is arranged (6)

connected by the input network (9) and the output network (13) to the charging station (7).

The intelligent contact (6) object of the present invention is mainly constituted by two parts:

a) An external relay (12) operated by means of an actuation coil (11) and which will be governed by

b) An electronic control circuit (10). 10

The electronic control circuit (10) in turn is made up of four parts such as: - The power reserve (14), - An automatism (15), - A measuring load (16) and a control switch ( 18) of the external relay (12).

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The operation of this intelligent contact (6) object of the present invention is as follows:

Through the input network (9) the energy reserve system (14), obtains the minimum energy essential to not be detected by the smart meter with the integrated ICP 20 (1) as if it were a load, so the choice of a certain time allows to guarantee that sufficient energy will be available to operate the electronic control circuit (10). The automatism (15), which is powered by the power reserve (14) and is designed to be disconnected (or in any case in an ultra-low consumption mode) during the time in which the power reserve is obtained (14) . 25 Once the energy reserve system (14) has enough energy for the automation (15) it can work, when it finishes its operation, it is switched off again to allow the energy reserve (14) to recover and be able to repeat The same work cycle.

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For its part, the electronic control circuit (10) has a measuring load (16) which is an element that, when connected by instructions of the automation (15) on the switch of the measuring load (17) that closes, letting the load that arrives from the energy reserve (14) pass through it, allows you to measure the voltage of the input, depending on the measured voltage, whether or not there has been a disconnection of the ICP 35 integrated in the smart meter. Said measurement load is switched on for the minimum time necessary to carry out the measurement, and once it is done, the measurement load switch (17) is disconnected. Said connection time is the one necessary to measure and adequate so that the smart meter with integrated ICP (1) does not detect the process as a connected load. 40

It is then that depending on the result of the measurement carried out by the automation (15) with the measuring load (16), the system will decide whether to close (connect the load) or open (disconnect the load, through the control switch ( 18) which will act directly on the actuation coil (11) of the external relay (12) The control switch (18) 45 would only consume energy in the change of state, so it also uses the energy stored in the energy reserve (14).

Definitely. This smart contact (6) installed in the charging network of the charging station (7) of the vehicles (8) and dependent on the smart meter with integrated ICP 50 (1), is being monitored in a silent and invisible way, if the smart counter with

Integrated ICP (1) has tripped its ICP or not, letting the current pass or not, so that in the event that it has no current flow, the intelligent contact (6) proceeds to give the corresponding instructions on the control switch ( 18) so that it in turn acts on the actuating coil (11) of the external relay (12) to open or close the load through the network output (13), so that the smart meter with integrated ICP (1) 5 can be reassembled under the manual and direct instructions of the switch (IGA) (3) of the house (5), without having to move the person.

Claims (3)

1. Contact smart to be installed in a branch (20) that is arranged between a smart meter with integrated ICP (1) and a switch (IGA) (3) of some houses (5), for a charging station (7 ) of some vehicles (8), 5 characterized by having said contact of: • an external relay (12) governed by an actuating coil (11);  10 • an electronic control circuit (10) consisting of: or a power reserve (14) connected with an input network (9) to said branch (20),  fifteen or a measuring load (16) controlled by a switch (17), or a control switch (18) governing said external relay (12); and 20 or an automatism (15) powered by said energy reserve (14); controlling said automatism (15), by means of appropriate instructions, the control switch (17) of the measuring load (16) and the control switch (18) of the external relay (12). 2. Intelligent contact which, in combination with claim 1, is characterized by having the electronic control circuit (10) of an energy reserve supplemented with battery (19) instead of the alternative based solely on a power reserve (30). 14), maintaining the rest of the smart contact provision (6). 3. Procedure to control an intelligent contact installed in a branch (20) that is arranged between a smart meter with integrated ICP (1) and an IGA switch (3) of some houses (5); for a charging station (7) of vehicles (8), the procedure being implemented by a contact endowed with: • an external relay (12) governed by an actuating coil (11);  40 • an electronic control circuit (10) consisting of: or a power reserve (14) connected with an input network (9) to said branch (20),  Four. Five or a measuring load (16) controlled by a switch (17), or a control switch (18) governing said actuation coil (11) of the external relay (12); Y  fifty or an automatism (15) powered by said energy reserve (14); controlling said automatism (15), by means of appropriate instructions, the control switch (17) of the measuring load (16) and the control switch (18) of the external relay (12); characterized in that said method comprises: • obtain said energy reserve (14), in an amount not detectable by the smart meter 5 with integrated ICP (1), and in an amount sufficient to operate the automatism (15) until its operation is finished maintaining said automatism (15) disconnected during the time that the energy reserve (14) is obtained, and producing the energy reserve (14) after the completion of said automation operation (15); 10 • connect the measuring load (16) by instructions of the automation (15) on the switch of the measuring load (17) that closes, connecting the measuring load (16) for a time necessary to make a voltage measurement of the input and for a suitable time so that the smart meter with integrated ICP 15 (1) does not detect the process as a connected load, and proceed to disconnect the switch of the measurement load (17) once the measurement is made; • determine, depending on the measured voltage, if the ICP integrated in the smart meter is open or closed; and 20 • decide, on the part of the system, and depending on the result of the measurement, connect or disconnect the load through the control switch (18) that acts directly on the actuating coil (11) of the external relay (12 ). 25  30