GR1010283B - Electricity anti-theft measurements for public and private power generation and trading companies - Google Patents

Abstract

The present invention relates to measures applied to protect against theft of electricity in power generation and trading companies. There two protection stages by which each company can control, at any time, whoever tries to intervene, violate and destroy the security securing the power supply meter ’s box (1). This is possible if a SIM card (3) bearing printed thereon the power meter’s code, is inserted inside the seal of the power supply box so that the power theft appears on the power provider's computer. The second stage (figure 2) enables the company -with some additional financial cost- to interrupt or reconnect the power supply via cellular telephony frequencies. Furthermore, a 40-50 Ampere relay is installed (8) inside the power meter’s box (1), which relay will cut off the power supply at the meter’s input.

Description

DESCRIPTION

PROTECTION MEASURES AGAINST ELECTRICITY THEFT OF PUBLIC AND PRIVATE ELECTRICITY GENERATION AND TRADING COMPANIES SA.

The present invention consists of two stages. The first stage (figure 1) concerns the protection against the theft of electricity from the box of the electricity provider (1). To achieve this measure of protection against energy theft, it is sufficient to place between the power supply box (1) and its cover a button (2) of two alternative commands in parallel which is activated with a reduced voltage of 12V which it will receive from the safety transformer (6) when tampering with the electrical box.

These proposed security measures come to replace the existing insecure measures for electricity theft which consist of an insecure metal seal of the electricity company which is easily uncontrollably breached.

The object of the present invention is that the electricity meter cannot be tampered with by thieves in the future.

To achieve this desired effect we use a SIM card (3) replacing the existing metal seal of the box with a SIM card which anyone who tries to break into the electricity box (1) will command through frequencies to the electricity provider To complete the this order requires cooperation with one of the telephone companies that will provide the order frequency.

I propose two stages by which each company will be able to check at any time and moment. Anyone who tries to intervene, violate, destroy the fuse that secures the supply meter box that records the kw/h for the known reasons (theft), be immediately noticed by the Company. This is possible if inside the seal of the supply box a SIM card (3) is placed on which the code of the meter will be printed, so that you can update immediately, through a frequency in the control of the provider's computer, as is done with the bracelet of prison houses.

The second stage (figure 2) gives the Company the possibility, with some additional financial cost, to interrupt the supply or reconnect the supply to the supply meter from the Company's control, as long as a 40-50 Ampere relay is installed (8 ) inside the meter box (1), which will cut the power supply to the meter input, so that the phase does not reach the free automatic fuse to be inactive. In other words, it is the at-will elicitation of orders by the provider with the parallel cooperation of the frequencies of the mobile telephony companies which will give orders through the SIM card to the proposed electrical plan which will have the ability to interrupt or reconnect the electricity supply. The proposed components for the construction and assembly of the electrical plan are in accordance with the electrical regulation (ELOT HD 384).

The components that make up the assembly of the electrical circuit in this case should be installed inside the box of the kw/h electricity meter, that is, the existing conventional one, or the future electronic one. Larger dimensions of the box are required. These proposals are aimed at financial benefits for the Electricity Supply Companies due to exemption from theft, as well as exemption from the employment of human resources.

Claims (2)

The purpose of the invention is to protect electricity supply companies from theft. In recent years, there has been a phenomenon of tampering with the boxes in which the meters are installed, which record the consumable KW/h of the consumers. The meter boxes have a sealing lid which is integrated with screws on the box and as is known, they are connected in parallel with a metal security seal and anyone who tries to break it to commit energy theft is obliged to destroy the seal. The provider so far does not have the ability to immediately perceive the theft. Now, according to the mentioned proposal of the invention with the proposed technical characteristics, the provider will have the possibility to be informed immediately if someone tries to tamper with the meter box that records the KW/h. The theft at the same time will be shown in the CONTROL of the provider with the data of the compromised meter. Also, the provider will have the possibility, using the frequencies of the various mobile telephony companies, to interrupt or reconnect the service at will. For this reason, the existence of a SIM card slot between the box and the meter cover has been proposed, alongside the existing metal seal. The provider will benefit financially from the proposed invention, and the country from the preservation and utilization of old cash and the saving of valuable foreign exchange that will result from avoiding their replacement. 1. In order to ensure the theft of electricity based on the plans that follow, I propose two stages. In the first stage (figure 1) inside the box (1) of the provider, a button (2) is permanently installed which is activated with a harmless voltage of 12V coming from the step-down transformer (6) and the 6 A (7) and 40 A (5) fuses when the button on the lid of the supply box (1) is pressed and whoever tries to break the supply by opening the box lid then the button (2)returns to its original position as a result of which it instructs the provider through the SIM card (3) on which the meter code will be printed and through the frequencies of the mobile phone companies which electricity meter code you violate for electricity theft. The know-how in the first case applies to two-phase 230V supplies. In this case, it is possible to use the metal fuses which have been used until now for auxiliary reasons. Also, the proposed security system should have a rechargeable source of electricity, e.g. a battery, which will have the ability to ensure the electronic operation of the system over time in the event that the provider's network is out of service due to problems for a long period of time, e.g. in in the event of a power outage. 2. The second stage (figure 2) includes the voluntary triggering of commands by the provider with the parallel cooperation of the mobile telephony frequencies through a SIM card (3) on which the meter code will be printed, in the proposed electrical plan which will have the possibility for the provider to interrupt or reconnect the supply of electricity to the consumer from the control of the main computer of the electricity provider. As we mentioned above and in the first stage inside the box (1) of the provider, a button (2) is permanently installed which is activated by a harmless voltage of 12V coming from the step-down transformer (6) and the 6 A (7) and 40 A (5) fuses when pressed by the lid of the supply box (1) and whoever tries to tamper with the supply by opening the lid of the box, then the button (2) returns to its original position, as a result of which it instructs the provider through the SIM card (3) and the mobile phone company frequencies which electricity meter code is hacked for electricity theft. In the second phase, a relay is additionally inserted, i.e. a switch (8) whose coil is supplied with a harmless voltage of 12V from the step-down transformer (6) with a resistance of the relay of 50-60 A, which will receive the automatic command at will through frequencies from the provider for the interruption and reconnection of the supply with an additional 50 A fuse (9). This procedure serves and gives the right to the provider, in addition to security measures for theft, it also gives the right to the provider to interrupt or reconnect the supply of electricity to the consumer in case he does not meet his obligations. The know-how in the second case applies in addition to the two-phase 230V supplies and also applies to the three-phase 380 V installations. In this case, it is possible to use for auxiliary reasons the metal safety seals which have been used until now. Also, the proposed security system should have a rechargeable source of electricity, for example, which will have the ability to ensure the electronic operation of the system over time in the event that the provider's network is out of operation due to problems for a long period of time, e.g. in the event of a power outage.