RU2808225C1 - Energy meter communication module - Google Patents

Abstract

FIELD: communications: telemechanics.

SUBSTANCE: used as part of automated systems for monitoring and accounting of energy resources. The communication module is connected to an energy meter and a remote server. The communication module analyzes data and transmits it to a remote server, and also has the ability to issue control actions directly to actuators of the energy infrastructure. If it is impossible to transmit data via one of the communication protocols, the communication module transmits data via another communication protocol.

EFFECT: increasing the efficiency of resource infrastructure management, increasing operational reliability, and increasing energy efficiency.

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Description

Technical field

The invention relates to the field of communications, telemechanics and can be used as part of automated systems for monitoring and accounting of energy resources.

State of the art

When industrial enterprises use electricity, natural gas, thermal energy, water, oxygen, nitrogen and other energy resources, the task of accounting and monitoring their consumption arises. At the same time, it is necessary to solve the problem of ensuring safety when using resources and promptly responding to emergency situations that arise due to improper operation or due to damage to the energy infrastructure.

In the current state of technology, the solution to the noted problems is, as a rule, carried out by introducing remote monitoring and control tools.

Thus, there is a known solution based on the patent document RU 153771 U1, 07.27.2015 [1], which is a translator of readings from a resource meter. The solution known from [1] provides remote transmission to the user of energy meter readings via a wireless communication channel. At the same time, this solution does not provide the ability to remotely control actuators, which may be necessary, for example, in the event of an emergency. In addition, this solution has low reliability in terms of data delivery, since it does not provide alternative communication channels, and also has low energy efficiency due to the constant use of energy from the power source.

The proposed invention is aimed at overcoming the noted shortcomings of the state of the art and, when implemented, makes it possible to achieve technical results consisting in increasing the efficiency of resource infrastructure management, increasing operational reliability, and increasing energy efficiency.

Disclosure of the Invention

To achieve the above, as well as other technical results that follow for a specialist from this description, a communication module for an energy metering device is proposed, containing a protective housing with a detachable cover in which a printed circuit board is located, on which a connector for communication with an energy metering device is located, a slot for the module subscriber identification, antenna, memory, modem and microcontroller, wherein the communication connector provides information exchange with the metering device and receives power for the communication module, the modem provides wireless communication with remote devices, and the microcontroller is configured to control the communication module in this way that the communication module receives data on energy resource consumption from the metering device, categorizes and saves them, as well as transmits the stored data to a remote server via a wireless channel at predetermined intervals, and in the event that the transfer of data to the remote server via the first communication protocol is not is successful, the communication module transmits the same data to the remote server via the second communication protocol together with information that data transfer via the first communication protocol has not been carried out; in case of receiving a control command for the metering device from a remote server, the communication module transmits the corresponding control command to the metering device; if, as a result of data categorization, anomalous data is identified in one of the categories, the communication module transmits the corresponding information to the remote server, generates and transmits a command to the metering device to control the actuator corresponding to the specified category, or generates and transmits a command to the actuator corresponding to the specified category by wireless channel; in this case, the microcontroller ensures that the modem of the communication module is in a sleeping state outside of communication sessions.

In particular embodiments, communication protocols can be selected from the group including: GSM/GPRS, NB-IoT, LoRaWAN, Sigfox.

The following description provides information regarding the implementation of the invention, showing the possibility of achieving the specified technical results.

Carrying out the invention

This section of the description shows a preferred embodiment of the invention, presented for the purpose of disclosing the essence, but not for the purpose of limiting the legal protection defined by the claims. A person skilled in the art will understand that the invention may be subject to minor technical changes, for example, in the case of the emergence of new communication protocols, which do not affect the achievement of new technical results, but have an impact on the obvious quantifiable improvement in the technical and operational characteristics of the product.

The proposed invention is intended for joint operation with an energy metering device. An energy metering device is not considered directly within the framework of this application, however, it should further be taken into account that an energy metering device is understood as any device capable of receiving data related to the amount of energy resources used from the corresponding measuring devices directly or through an intermediate device, as well as for exchange of information with the proposed communication module.

Energy resources for the purposes of this application are understood to mean any consumable resource, the volume consumption of which can be measured by technical means, in particular, such as electricity, liquid or gas. It is also further assumed that the communication module is configured to receive, analyze and categorize data simultaneously related to several identical and/or different types of energy resources.

In a preferred embodiment, the proposed communication module is designed as a separate module, enclosed in a protective plastic housing with a detachable cover. The combination of the housing part and the cover can be done, for example, by means of magnetic fastening to simplify maintenance and repair of the communication module. Part of the housing and cover may contain technological elements corresponding to each other, intended for sealing the communication module.

Inside the protective case there is a functional part of the module, which is a printed circuit board with electronic components placed on it. The basic components that ensure the operation of the invention are a connector for communication with an energy meter, a slot for a subscriber identification module, an antenna, memory, a modem and a microcontroller. The connection of these and auxiliary components that ensure the functioning of the communication module can be performed using conventional microelectronics design methods.

In the proposed solution, the term “modem” means a multi-mode modem that provides the ability to communicate using several different communication protocols, or a set of modems combined for joint operation, each of which has the ability to receive/transmit data using a specific communication protocol.

In the proposed solution, the term “antenna” is understood as a multi-mode antenna that provides the ability to provide communication via several different communication protocols (frequencies), or a set of antennas combined for joint operation, each of which has the ability to receive/transmit a signal using a specific communication protocol (in particular , a certain frequency range).

In the proposed solution, the term “memory” is understood as an element of a microcontroller designed to store information, or a separate element of non-volatile (FLASH) memory, interacting with which the microcontroller performs its assigned functions.

In the proposed solution, the term “slot” means a connector designed for the removable installation of one or more SIM cards (in different embodiments, the connector(s) may have different sizes corresponding to the form factor of the SIM card), either one or several eSIM modules located on a printed circuit board.

In the proposed solution, a connector for communication with a metering device is understood as a connector that simultaneously provides the ability to power the communication module and exchange data from the communication module with the metering device, or a set of connectors, one of which is intended for receiving/transmitting data, and the other for powering the communication module.

In the proposed solution, the microcontroller performs the functions prescribed to it according to a predetermined program, while in an embodiment, the microcontroller is designed to be programmed via a specialized interface located on a printed circuit board, or via an interface provided with a connector for communication with a metering device, or via a wireless interface.

The present invention works as follows.

The communication module is installed at the location of the energy metering device in such a way that it is possible to communicate via a wired interface through a communication connector. An energy metering device collects information from devices designed to measure the consumption of a resource. It is assumed that the meter can simultaneously receive information from several measuring instruments, each of which measures the consumption of a specific resource. For example, a meter can receive data from water, gas and/or electricity consumption meters.

Next, the data received by the metering device is transmitted to the communication module. The initiation of the transfer of the specified data can be provided by the communication module by sending a corresponding request to the metering device, or it can be transmitted at a predetermined time interval agreed upon between the metering device and the communication module. The required time intervals can be preset from the server, for example, through remote programming of the microcontroller.

When receiving data from the metering device, the communication module categorizes and analyzes it. Then it saves them in the appropriate memory area. Categorization of data can be carried out, for example, based on the identifier (ID) of the measuring device, which is included in the packet of transmitted data. This embodiment does not exclude the possibility of the communication module receiving data, the categorization of which has been previously carried out by the metering device. When receiving data, the communication module also analyzes it to identify anomalous data.

Anomalous data can be understood as data relating to the volume of consumption of a resource over a certain period of time. For example, having information about consumption in previous periods of time, and when the fact of increased and/or decreased consumption is identified as a result of analysis, the communication module transmits the corresponding information to the remote server, generates and transmits a command to the metering device to control the actuator corresponding to the specified category, or generates and transmits the command to the actuator corresponding to the specified category via a wireless channel. In this case, the command to control the actuator can also be transmitted by the remote server through the communication module. The noted functions allow, for example, to increase the safety of building operation through early detection of possible damage to the infrastructure. For example, increased water consumption over a short period of time may indicate a pipeline leak, while the communication module can provide operational control of the corresponding shut-off valves or actuators that are part of the smart home infrastructure using the appropriate wireless communication protocol.

Data stored in the memory of the communication module can be requested from a remote server or transmitted automatically according to a predetermined schedule.

The communication module is powered preferably from the battery included in the metering device. In order to save energy and increase operating time, the microcontroller ensures that the modem of the communication module is in a sleeping state outside of communication sessions.

To increase the reliability of data delivery in the event that data transfer to a remote server via the first communication protocol is not successful, the communication module transmits the same data to the remote server via the second communication protocol, together with information that data transfer via the first protocol no connection made. In addition to the above, the implementation of this function in the communication module allows you to quickly identify a malfunction that has arisen in it, which generally increases the reliability of the functioning of the automated control and accounting system for energy resources.

Thus, the essential features of the proposed invention make it possible to achieve all the above technical results and the implementation of the invention can be implemented by a specialist using known methods in the field of electrical and radio engineering.

Claims (2)

1. Communication module of an energy metering device, containing a protective housing with a detachable cover, in which there is a printed circuit board on which a connector for communication with the energy metering device, a slot for a subscriber identification module, an antenna, memory, a modem and a microcontroller are located, with a connector for communication ensures the exchange of information with the metering device and receives power for the communication module, the modem provides communication via wireless communication channels with remote devices, and the microcontroller is configured to control the communication module in such a way that the communication module receives data on energy resource consumption from the metering device and implements it categorization and storage, as well as transfer of stored data to a remote server via a wireless channel at predetermined intervals, and, if the transfer of data to the remote server via the first communication protocol is not successful, the communication module transmits the same data to the remote server via the second communication protocol together with information that data transmission via the first communication protocol has not been carried out; in case of receiving a control command for the metering device from a remote server, the communication module transmits the corresponding control command to the metering device; if, as a result of categorizing data in one of the categories, anomalous data is detected, the communication module transmits the corresponding information to the remote server, generates and transmits a command to the metering device to control the actuator corresponding to the specified category, or generates and transmits a command to the actuator corresponding to the specified category by wireless channel; in this case, the microcontroller ensures that the modem of the communication module is in a sleeping state outside of communication sessions. 2. Communication module according to claim 1, characterized in that the communication protocols are selected from the group including: GSM/GPRS, NB-IoT, LoRaWAN or Sigfox.