BG67239B1 - Energy independent logger - Google Patents

Abstract

The present invention relates to an energy independent logger, which will find application in the field of water supply and sewerage systems and facilities, and in particular for the monitoring of water supply and sewerage networks. The designed energy independent logger comprises a tubular metal housing (6), in which are mounted an axial reversible pump turbine (1), coupled directly to the axis (2) of an alternating current generator (3). The alternating current generator (3) is clamped to the inside of the tubular metal housing (6), and in one of the ribs and respectively in the tubular metal housing (6) is provided an opening through which the cables of the alternating current generator (3) pass to a regulator (4). The regulator (4) is connected to a rechargeable battery (5) for powering a telemeter (8) with a built-in 3G modem. The regulator (4), the rechargeable battery (5) and the telemeter (8) are housed in a second housing (7) connected to the tubular metal housing (6). According to the invention, the regulator (4) consists of a rectifier unit of the three-phase alternating current from the alternating current generator (3) and an electronic element for regulating the charge of the rechargeable battery (5). The created logger allows for remote measurement, control and balancing of the water cycle. Via he built-in 3G modem, with the respective SIM card and the constant power supply, the device (8) sends data in real time to a web-based application for visualization and management of the measurement data.

Description

The present invention relates to an energy independent logger which will find application in the field of water supply and sewerage systems and facilities, and in particular for the monitoring of water supply and sewerage networks.

BACKGROUND OF THE INVENTION

The water supply of the settlements, industrial and agricultural sites is carried out by a built water supply system. It is a set of engineering facilities that extract, purify, transport and deliver to consumers the necessary quantities of water. Sources for water abstraction are springs, groundwater, rivers, dams, lakes and seawater after desalination. The natural water extracted from them contains some impurities that are removed before it reaches the end user.

With the increase in production costs for the supply of drinking, industrial and irrigation water to the end user and its growing importance as an asset, the modern water supply system needs more efficient monitoring and management. Leaks in the water supply system are among the main reasons for the huge losses of water in the network. In addition to losing a huge amount of water, the presence of leaks in the system can also lead to water pollution in the network, cause damage to buildings and facilities, etc. It is necessary to carry out constant monitoring of the network both for timely detection of leaks and reduction of water losses, as well as for regulation of pressure and for prevention of accidents in the depreciated water supply and sewerage networks.

In practice, acoustic or correlation devices are most often used to detect leaks and damage to the network. Known data collection devices - data loggers need batteries and have a complex implementation.

Patent document WO 1996/022508, published on 25.07.1996, relates to a data logger / logger mounted on a wheel. The document discloses an acoustic sensor that is excited by the noise produced by the engine of the vehicle or machine and an internal distance sensor. The sensor and the sensor are connected to a microcontroller and are placed together with a battery in a box. In this way, a device is created capable of recording in its internal memory the state of the engine, the distance traveled and the maximum speed developed for each of the programmed time periods.

Patent document US 2017/0350100, published on 07.12.2017, relates to an intelligent, exhaust pipe for drawing water from the feed water supply. The exhaust pipe includes an inlet, with a first connection configured to allow the connection of the retaining pipe with a hydrant to the supply line and an outlet, with a second connector configured to be connected to the pipe. A flow meter measures the volume of water flowing from the inlet to the outlet, and an information recorder is connected to the measuring device for reading the volume of the measured water. The GPS module determines the location of the pipe when the flow meter reads the water flow, and the wireless communication module transmits the recorded volume of water and the corresponding GPS location to a central monitoring center.

BG 67239 Bl

He is a well-known energy-independent logger, which has an autonomous power supply and provides real-time monitoring of key indicators in the water supply network.

Technical essence of the invention

The object of the invention is to create an energy-independent logger with an autonomous power supply and to provide real-time monitoring of physical, chemical and other indicators in the water supply network.

The problem was solved by creating an energy-independent logger, which includes a tubular metal housing in which are mounted an axial reversible turbine, coupled directly to the axis of an alternating current generator. The alternating current generator is clamped to the inside of the tubular metal housing, and in one of the ribs and respectively in the metal housing is provided an opening through which the cables of the alternating current generator to the regulator pass. The controller is connected to a rechargeable battery to power a telemetry device with a built-in 3G modem. The regulator, the accumulator battery and the telemetry device are housed in a second housing connected to the tubular metal housing.

According to the invention, the controller consists of a rectifier unit of the three-phase alternating voltage from the alternating current generator and an electronic element for regulating the charge of the accumulator battery.

The advantage of the created energy independent logger is that the specially designed built-in reversible turbine with low pressure drop will produce the necessary amount of electricity to supply a combination of meters for water quantity, water quality, pressure and level, as in at the same time, thanks to the low head losses, it will not hinder the normal operation of the water supply system. In addition, the logger allows remote measurement, control and balancing of the water cycle.

Explanation of the attached figure

The present invention is illustrated in the attached figure 1, which is a schematic diagram of an energy independent logger.

Examples of the invention

The created energy independent logger, shown in figure 1, includes a tubular metal housing 6, in which are mounted an axial reversible turbine 1, coupled directly to the axis 2 of the alternating current generator j. The tubular metal housing 6 is made of welded flanges, cones and tubular elements with a machined slot for mounting the generator 3. The axial reversible turbine 1 is low efficiency and processes a small part of the energy of the water flow, the turbine 1 can operate with water flow in both directions of the tubular housing 6. The operating elements of the axial turbine 1 are propellers attached to a hub. The outer diameter of the propellers is 0.5-2 mm smaller than the diameter of the tubular metal housing 6 in which the turbine 1 is mounted. providing rotational motion to generate electric current from the generator j. Axis 2 is made of metal and gives the rotational motion of the turbine 1 to the rotor of the generator 3. The alternating current generator See permanent magnets, its rotor is encapsulated and the stator is wound. The rotor of the generator 3 is rolled

BG 67239 Bl bearings operating in an aqueous medium. The purpose of the design is to ensure the tightness of the windings of the generator 3, without the need to install seals. The alternating current generator h is clamped to the inside of the tubular metal housing 6. as in one of the ribs and respectively in the metal housing 6 is provided an opening through which the cables of the generator 3 to the regulator 4. The cables from the terminals of the generator 3 are sealed compacted.

The controller 4 is connected to a rechargeable battery 5 for powering a telemetry device 8 with a built-in 3G modem. The regulator 4, the battery 5 and the telemetry device 8 are housed in a second housing 7 connected to the tubular metal housing 6. The regulator 4 consists of a rectifier unit of three-phase alternating voltage from the generator 3 and an electronic element regulating the battery charge 5. providing power supply to an additional consumer. The electronic element visually provides information with LEDs about the state of the alternating current generator 3. The accumulator 5 accumulates and gives off the energy produced by the generator 3, providing continuous and stable power supply to the connected consumers, including during periods when there is no water flow in the pipeline, respectively in the metal tubular housing 6. The second housing 7 is connected to the tubular housing 6 and thus together constitute a complete product. The telemetry device 8 with built-in 3G modem is equipped with digital and analog inputs and is designed to record data on various indicators at the installation point of the energy independent logger.

The measured indicators are for example:

- water quantity by means of a connection with a measuring device - water meter, flow meter with pulse output;

- pressure - by connection to a transmitter with output 4-20 mA;

- water quality - by means of different transmitters with output 4-20 mA.

Principle of operation of the created energy independent camp.

The axial reversible turbine 1 and the adjacent accessories for driving and converting the kinetic energy of water into electricity, by means of the most simple and reliable design, provide continuous, independent power supply to the telemetry device 8 and other measuring devices along the water supply network. power not more than 25 W. The principle of operation is similar to the principle of Kaplan or Bulb turbines in hydroelectric power plants, but differs from them in that the leading indicator here is the generation of a minimum pressure drop. The efficiency of the turbine 1 is intentionally low, which allows it to work fully when changing the direction of the water, as well as in a wide range of water quantities.

The axial reversible turbine 1 is coupled to the axis 2 of the AC generator □. The generator 3 consists of a rotor with permanent magnets and a wound stator in a metal tubular housing 6, which is watertight. The generator 3 charges the battery 5 through the regulator 4.

The telemetry device 8 with built-in 3G modem is the main consumer of the energy produced by the axial reversible turbine 1. The telemetry device 8 collects data from various measuring devices, which will also be supplied by the accumulator battery 5 by the controller 4, respectively by the axial reversible turbine 1.

Thanks to the built-in 3G modem, with the corresponding SIM card and the constant power supply, the device 8 will send real-time data to a web-based application for visualization and management of measurement data.

Claims (2)

Energy independent logger, characterized in that it comprises a tubular metal housing (6) in which an axial reversible turbine (1) is mounted, coupled directly to the axis (2) of an alternating current generator (3), clamped to the inside of the tubular metal housing (6), as in one of the ribs and respectively in the tubular metal housing (6) is provided an opening through which the cables of the alternating current generator (3) to the regulator (4) pass, where the regulator (4) is connected to a rechargeable battery (5) for powering a telemetry device (8) with a built-in 3G modem, as the regulator (4), the rechargeable battery (5) and the telemetry device (8) are housed in a second housing (7) connected to the tube metal housing (6). Energy independent logger according to claim 1, characterized in that the regulator (4) consists of a rectifier unit of the three-phase alternating voltage from the alternating current generator (3) and an electronic element for regulating the charge of the accumulator battery (5).