EA019062B1 - Energy accounting system - Google Patents

Abstract

The invention relates to a measuring technique, in particular to the utilities, such as electric energy, water, gas, etc., accounting system on the basis of the data received from the remote utilities consumption measuring devices, and can be used for organizing the utilities accounting systems both in industry, in particular in power engineering, and in public utilities. The invention provides a utilities accounting system comprising a plurality of geographically distributed electronic devices for utilities consumption accounting, each of which comprises a utilities consumption data measurement and processing unit and an optical port connected by the optical communication channel with the relevant collective optical port, the output of which is connected with the input of the relevant collective interface signals shaper with the formation of an interface converter, designed as a separate remote unit, the output of which is connected with the remote utilities consumption data collection and processing terminal. The proposed utilities accounting system provides an opportunity for utilities accounting in automatic or computer-aided mode, has improved maintainability and lower cost, and provides an opportunity for upgrading the utilities accounting system without having to remove the utilities accounting devices.

Description

(57) The invention relates to measuring equipment, in particular, to a metering system for energy resources, such as electric energy, water, gas, etc., on the basis of data received from remote devices for measuring energy consumption, and can be used in organizing metering systems energy resources both in industry, in particular energy, and in public utilities. An energy metering system is proposed, including many geographically distributed electronic energy metering devices, each of which contains a node for measuring and processing information about energy consumption and an optical port connected by an optical communication channel to a corresponding collective optical port, the output of which is connected to the input of the corresponding collective interface signal generator with the formation of the interface converter, made in the form of a separate remote unit, the output of which th remote terminal associated with the collection and processing of information on the consumption of energy. The proposed energy metering system provides the ability to meter energy in an automatic or automated mode, has increased maintainability and lower cost and provides the ability to modernize the energy metering system without the need for dismantling energy metering devices.

019062 Β1

The invention relates to measuring equipment, in particular to a metering system for energy resources, such as electric energy, water, gas, etc., based on data received from remote devices for measuring energy consumption, and can be used in organizing energy metering systems as in industry, in particular energy, and in utilities.

Traditionally, for the purpose of payment, energy meter indicators are taken into account by energy consumers themselves, and periodic monitoring is carried out by employees of organizations selling these energy resources to consumers. Such a process is rather laborious and ineffective. Firstly, each consumer needs to visually take at least a monthly visual count of the current numerical meter readings, calculate the flow rate in relation to the previous reading (i.e. it is necessary to keep a constant record), check the current tariffs, fill out payment documents, pay at banking institutions, etc. .d. Secondly, organizations selling energy resources, given the large number of consumers distributed over large territories, need to maintain a fairly large staff of employees who control the correct accounting and payment of energy resources by consumers. In this regard, all over the world they strive to automate as much as possible the processes of accounting for energy resources. For these purposes, electronic energy metering devices are being created that provide the ability to convert data on energy consumption into a form that allows them to be transmitted via certain data transmission channels (wired or wireless) to a remote terminal for collecting and processing information on energy consumption.

There are various energy metering systems with data transmission systems for energy consumption from geographically distributed electronic energy metering devices to a remote terminal for collecting and processing energy consumption information, in which electric networks, radio lines, fiber optic communication lines, etc. are used as data transmission channels. . [thirteen]. At the same time, in such systems, fiber-optic communication lines (as having the widest signal bandwidth and as the most resistant to external, including electromagnetic) influences and, as a result, transmitting data with maximum speed and reliability), and modern electronic energy metering devices are equipped with an optical port.

So, in particular, it is known a device for taking readings of a meter of an energy carrier, containing a fiber optic data line between the meter and the counter interface unit, including a pair of optical fibers [4]. This publication says that the light from the light source from the meter interface through one of the two fibers (channels) through the focusing head is fed to the rotating dial counter, and the second fiber (channel returned from the metering head is recorded from the meter interface) through the focusing head ) pulsating light reflected from the arrow. Thus, it provides the ability to easily and economically read information from multiple counters.

The energy metering system ASKUE-Byt is also known, consisting of energy metering devices containing an interface signal shaper, and the outputs of interface signal shapers of all energy metering devices are combined into a single interface network for group information exchange [5]. In various versions of the system, various data transmission channels from energy metering devices are used. In the described system, at the same time, energy metering devices do not contain additional technical means for local data collection and parameterization at the installation site.

Based on the set of essential features, a set of technical means of Energomer TU 4222-026-46146329-99 [6], including many geographically distributed electronic energy metering devices, each of which contains a node for measuring and processing information about energy consumption, an optical port can be adopted as a prototype and a shaper of interface signals whose inputs are connected to the output of a node for measuring and processing information on energy consumption, as well as a remote terminal for collecting and processing information on consumption e energy. In such a system, interface signal generator units are included in each electronic energy meter (located in one common housing of the energy meter with the measuring unit, etc., i.e. together with the mechanical, electrical, etc. parts of the device energy metering). At the same time, the rates of development of technical solutions in the field of mechanics and electricity are significantly lagging behind the rates of development of technical solutions in the field of data transmission means, and thus interface signal generators require constant modernization or replacement as interface exchange means develops. In addition, interface signal conditioners are the least protected part of energy metering devices from external influences, and also have a significant cost compared to the mechanical and / or electrical part of devices. Moreover, in case of malfunction of the interface signal generator, as a rule, the entire energy meter should be replaced. In the event that the device is still subject to repair in terms of the interface signal generator, it is necessary to re-check the mechanical and / or electrical parts of the meter and seal the entire device as a whole

- 1 019062 watering organizations. It should also be noted that the majority of the existing fund of energy metering devices are devices of an old design that do not contain interface signal conditioners. All this makes it economically unprofitable and sometimes technically impossible to create territorial automatic or automated energy metering systems using methods and technical means known from the prior art.

Thus, the objective of the invention is the creation of a modern energy metering system, which would provide the ability to meter energy in an automatic or automated mode. The system should have increased maintainability and lower cost and provide the ability to modernize the energy metering system without the need to dismantle energy metering devices.

The problem is solved by the claimed energy metering system, including many geographically distributed electronic energy metering devices, each of which contains a node for measuring and processing information about energy consumption, an optical port and an interface signal shaper, the inputs of which are connected to the output of the node for measuring and processing information on energy consumption , as well as a remote terminal for collecting and processing information on energy consumption. The problem is solved, in particular, due to the fact that the system additionally contains at least one collective optical port connected by an optical communication channel to the optical port of each of at least two energy metering devices through a system of optical fibers, the output of which is connected to the input of the corresponding shaper interface signals, made in the form of a collective shaper of interface signals, while the collective optical port is combined with a collective shaper interface signals with the formation of the interface converter, made in the form of a separate remote unit, the output of which is connected to a remote terminal for collecting and processing information on energy consumption. Thus, taking into account the configuration of the claimed system, in particular, taking into account the fact that the interface signal generator is a collective interface signal converter for a number of electronic energy meters as part of a separate interface converter, it is possible to solve the maintainability problem in a simple, original and economical way and modernization of the system as a whole. So, if it is necessary to repair, modernize or replace the interface signal generator, all distributed electronic energy metering devices remain unchanged, and only one interface converter unit is subject to repair, modernization or replacement. At the same time, the proposed configuration significantly reduces the cost of creating such energy metering systems in the housing stock and at enterprises equipped with energy metering devices of an obsolete design. In this case, it is only necessary to replace obsolete energy metering devices with modern ones equipped with an optical port, install an interface converter with a collective interface signal shaper and connect geographically distributed energy metering devices with a fiber system.

The inventive system also simplifies the accounting with the help of one unit (interface converter) of various types of energy resources - electric energy, gas, water, thermal energy for heating water and heating.

In various preferred forms of implementing the inventive energy metering system, the interface signal generator may comprise a PbC modem or a local computer network modem.

In the inventive energy metering system, the optical ports and optical fibers of the optical fiber system are preferably configured to operate in the infrared range.

At least one interface converter in the system, in addition to the interface signal generator and the collective optical port, may further comprise a means for displaying information, including information on energy consumption, as well as controls for displaying information, including information on energy consumption, received from each meter of energy resources through the corresponding optical communication channels.

Given the fact that the claimed energy metering system can operate in an automatic or automated mode and the energy consumer does not need to continuously collect information, to reduce the cost of electronic energy metering devices, they can be performed without means of displaying information and / or controls. In this case, if necessary, the consumer can obtain information about the consumption of one or another type of energy carrier, for example, on the interface converter.

In addition, the interface converter in the inventive energy metering system may further comprise a scheme for accumulating information, including information on energy consumption, received from each meter of energy resources through the corresponding optical communication channels.

In the inventive energy metering system, energy metering devices may also additionally contain a built-in clock, while the interface converter further comprises a clock circuit for the integrated clock of the energy metering devices.

- 2 019062

The above-mentioned and other advantages and advantages of the claimed energy metering system will be discussed below on the example of one of the possible preferred, but not limiting forms of implementation with reference to the position of the drawing, which is a block diagram of the system in this particular form of implementation.

The drawing on a block diagram of the inventive system depicts one of the sets of geographically distributed electronic devices 1 !, 1 ₂ , 1 ₃ , ..., 1 _to accounting for energy. The composition of each of the electronic devices 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _for energy accounting includes a node 2 ₁ , 2 ₂ , 2 ₃ , ..., 2 _k, respectively, measurements and processing and an optical port 3 ₁ , 3 ₂ , 3 ₃ , ..., 3 _k, respectively. Electronic devices 1 !, 1 ₂ , 1 ₃ , ..., 1 _for energy metering within the framework of the system in question can be of the same type (metering devices for electricity, water, gas, etc.) and can be installed, for example, one or more in each apartment. Electronic devices 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _for energy metering can also be designed for metering various energy resources. The main requirement for electronic devices 11, 12, 13, ..., 1 _to accounting for energy resources within the framework of the claimed system is the availability of optical ports. In the system for each defined set of geographically distributed electronic devices

11, 1 ₂ , 1 ₃ , ..., 1 _{to the} metering of energy resources (for example, for one floor or one entrance of a residential building), a converter of 4 interfaces is provided as a separate remote unit. The structure of the converter 4 interfaces includes a collective optical port 3 and a collective shaper 5 interface signals. The collective optical port 3 of the converter 4 interfaces is connected by an optical communication channel with an optical port 31, 32, 33, ..., 3k, respectively, of each device 1 ₁ ,

1 ₂ , 1 ₃ , ..., 1 _{to the} metering of energy resources through a system of 6 optical fibers. The output of the interface converter 4 is connected to a remote terminal 7 for collecting and processing information about the consumption of energy resources. In the presented implementation form, the interface converter 4 further comprises information display means 8, including information on energy consumption, as well as information display control bodies 9, including information on energy consumption received from each device 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _to energy metering through the corresponding optical communication channels of the system of 6 optical fibers.

The remote terminal 7 for collecting and processing information about the consumption of energy resources, as a rule, is associated with many geographically distributed converters 4 interfaces. The execution form of terminal 7 for collecting and processing information on energy consumption, its location, hardware and software are not essential within the framework of the claimed system and therefore will not be considered.

The inventive energy metering system operates as follows.

Information on the consumption of energy from the node 2 ₁ , 2 ₂ , 2 ₃ , ..., 2 _to measuring and processing each of the many geographically distributed electronic devices, respectively 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _to accounting for energy through the optical port 31, 32, 33, ..., 3k of the corresponding device via the corresponding optical communication channel of the system 6 of optical fibers and through the collective optical port 3 of the converter 4 interfaces is fed to the input of the collective shaper 5 interface signals. In the inventive system, as an interface signal shaper 5, a PBC modem, a local area network modem, or any other suitable device known to those skilled in the art can be used. After the appropriate conversion, information on energy consumption received from each electronic device 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _for energy accounting is transmitted to any suitable and accessible specialists in this field to the input of the remote terminal 7 for collecting and processing information about energy consumption. At the remote terminal 7 for collecting and processing information on energy consumption, information is processed according to predetermined algorithms and sent for storage to the appropriate databases. According to the information processing results, in particular, the cost of each and every type of energy resource spent for a certain period by each consumer is calculated. The system may include informing each consumer automatically or upon request about the amount and cost of energy consumed and sending payment documents. Information on the consumed amount of energy for each of the electronic devices 1 !, 1 ₂ , 1 ₃ , ..., 1 _to the energy metering can also be displayed on the information display means 8 of the interface converter 4, the execution form of which can be chosen any suitable and may include both the simultaneous display of information on each of the devices in a constant mode, for example, in the form of separate display means, and the display of information on a specific device in demand mode. In this case, in the interface converter 4, corresponding information display control bodies 9 are provided. The interface converter 4 may additionally also comprise an information storage circuit, including with the possibility of its display on the information display means 8. Moreover, electronic devices 1 ₁ , 1 ₂ , 1 ₃ , ..., 1 _for energy accounting may or may not contain means for displaying information and / or control bodies. As the means for displaying information and information display controls, any suitable means (preferably displays) and organs (buttons, keys, etc.) known from electrical engineering and electronics can be used.

- 3 019062

If a malfunction occurs in the shaper 4 of the interface signals or if it is necessary to upgrade it in the inventive system, only one separate unit is to be repaired or replaced - the converter of 4 interfaces, which greatly simplifies and reduces the cost of repair work. In addition, since one converter of 4 interfaces in the inventive system can serve a sufficiently large number of geographically distributed electronic devices 1 !, 1 ₂ , 1 ₃ , ..., 1 _for energy accounting, it can be performed with the possibility of performing a wider range of operations collection and processing of information on energy consumption, and this, in practice, will not lead to a rise in the cost of the system as a whole, significantly increasing its efficiency and versatility.

The inventive system with high efficiency can be used in the modernization of energy metering systems in the housing stock and in enterprises equipped with energy metering devices of an obsolete design, since such devices can be replaced by inexpensive modern devices equipped with an optical port, and there is no need to install expensive devices, each of which is equipped with expensive interface signal conditioners, which, among other things, are small in comparison with mechanical and / or electrical The chemical part of energy metering devices is a working resource.

The described system also eliminates the need for visual monitoring of the readings of energy metering devices at the place of their installation and, as a result, the need to expand the staff of the organization (s) selling their energy resources, including various types of energy sources.

Claims (8)

CLAIM 1. Energy metering system, including a multitude of geographically distributed electronic energy metering devices, each of which contains a node for measuring and processing information on energy consumption, the output of which is connected to the inputs of the optical port and driver of interface signals, at least one collective data collection and transmission device for every at least two energy metering devices, the input of which is connected to the outputs of the driver of the interface signals of the corresponding devices energy output, and the output is connected with a remote terminal for collecting and processing information on energy consumption, characterized in that it additionally contains at least one collective optical port connected by an optical communication channel to the optical port of each of the respective energy metering devices through a system of optical fibers, interface signal formers of at least a part of energy metering devices are made separately from energy metering devices in the form of one collective pattern The interface signal generator, whose input is connected to the output of the corresponding collective optical port, the corresponding collective optical port and the collective interface signal shaper combined with the formation of an interface converter, made as a separate unit within the collective data collection and transmission device, the output of which is connected to a remote terminal collection and processing of information on energy consumption. 2. The system according to claim 1, characterized in that it contains a PBC modem as an interface signal generator. 3. The system according to claim 1, characterized in that it contains a modem of a local computer network as a shaper of interface signals. 4. A system according to any one of claims 1 to 3, characterized in that the optical ports and optical fibers are adapted for operation in the infrared range. 5. A system according to any one of claims 1 to 4, characterized in that at least one interface converter further comprises means for displaying information, including information about the consumption of energy resources, as well as controls for displaying information, including information about the consumption of energy resources received from each energy metering device through the corresponding optical communication channels. 6. The system according to claim 5, characterized in that at least one energy metering device is made without means of displaying information and / or controls. - 4 019062 7. The system according to any one of claims 1 to 6, characterized in that the interface converter further comprises a scheme for accumulating information, including information on the consumption of energy resources, received from each energy metering device via the corresponding optical communication channels. 8. The system according to any one of claims 1 to 7, characterized in that the energy metering devices additionally contain a built-in clock, while the interface converter further comprises a synchronization scheme for the built-in clock of the energy metering devices.