RU2552474C1 - Smart system for conversion of hardness salts - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: system for conversion of hardness salts contains the housing 1 which contains the generator of non-sinusoidal electromagnetic oscillations of shaking frequency, to outphase outputs 2 of which the radiating wires 3, 4 are connected with a possibility of their winding in mutually opposite directions on the pipeline 10. In the housing 1 the unit of smart alerting mode 5 connected with the generator of non-sinusoidal electromagnetic oscillations of the shaking frequency and the independent power supply 6 are located. Indicator 7 is located on the housing 1. The alarm sensor 8 is connected with the housing 1. Couplers 9 are made of non-conducting material with a possibility of fixing of radiating wires 3, 4 and located on the pipeline 10.

EFFECT: invention allows to improve reliability of the system operation and to ensure its safety.

5 cl, 1 dwg

Description

The invention relates to the field of power engineering and is intended to protect and clean from deposits of hardness salts (scale) on the internal surfaces of pipelines, heating systems, water heating and heating equipment (boilers, boilers, radiators, heat exchangers, etc.), and can also be used in washing and dishwashers, refrigeration equipment, etc.

A known method of thermal softening and iron removal of water (RF patent No. 2225848, C02F 5/02, 03/20/2004), which includes heating and boiling water with the removal of acid reagents and sediment, by which water is boiled in a deaerator, in which case metal is dissolved and nodes of the deaerator with the formation of metal hydroxide, which acts as a stabilizer of hardness salts, while the deaerator is equipped with a device for separating sediment, and the water in the deaerator is heated by steam and purge water from the boiler using alkali and ferrous iron in it to soften and stabilize water.

The disadvantage of the analogue is the complexity and cumbersome design.

Known control unit for the softening device (RF patent №2493107, C02F 1/42, 20.09.2013), containing a main supply line for untreated water, a main discharge line for mixed water, a sensor for detecting the untreated water hardness WH _outcome or mixed water _mixed WH a secondary outlet line that is fed with source water from the main inlet line, a secondary outlet line that is supplied to the main outlet line, a bypass pipe that runs parallel to the secondary outlet line and the secondary inlet ii automatically adjustable mixing device for mixing the mixed water _mixed flow V (t) from the first partial flow V (t) _part1soft secondary supply line and a second partial flow V (t) _part2raw bypass conduit, electronic control unit configured so that by means of a certain water hardness WH the _outcome or WH _mixed provides additional adjustment of the set position of the mixing device for setting the water hardness in the mixed water stream V (t) is _mixed for a given calculation new value.

The disadvantage of the analogue is the complexity and cumbersome design.

The closest in technical essence and the achieved result to the claimed one is a radio frequency transducer of hardness salts (RF patent No. 56891, С02F 1748, 09/27/2006), containing the main pipeline of the processed water system, a generator of non-sinusoidal electromagnetic oscillations of oscillating frequency, to the antiphase outputs of which are connected emitters wound in the opposite direction to the main pipeline.

The disadvantage of the analogue is the limited functionality due to the lack of continuous monitoring of the state of the equipment of the RF transducer of hardness salts.

The objective of the invention is to expand the functionality of the radio frequency transducer of hardness salts by introducing continuous monitoring of the state of its equipment.

The technical result of the invention is to increase the reliability of the complex and ensure its safety.

The problem is solved, and the technical result is achieved in that the conversion complex of hardness salts, comprising a housing in which a generator of non-sinusoidal electromagnetic oscillations of oscillating frequency is located, to the antiphase outputs of which are connected radiating wires with the possibility of winding them in the opposite direction to the pipeline, according to the invention contains a smart alert mode unit located in the housing, connected to a non-sinusoidal electromagnetic generator oscillations oscillating frequency and an autonomous power source indicator located on the housing, the sensor and alarm screed made of non-conductive material to be fixed emitters and conductors arranged on the pipeline.

In addition, according to the invention, the smart alert mode unit can be implemented as a GSM module.

In addition, according to the invention, a rechargeable battery can be used as an autonomous power source.

In addition, according to the invention, the indicator can be made LED.

In addition, according to the invention, the couplers can be made of plastic.

The invention is illustrated in the drawing, which shows a diagram of an intelligent complex conversion of hardness salts.

The intelligent complex for converting stiffness salts contains a housing 1, inside of which there is a generator of non-sinusoidal oscillations of the oscillating frequency with antiphase outputs 2, connected to the emitter wires 3 and 4. Inside the housing 1 there is an intelligent alert mode unit 5, for example, a GSM module connected to an autonomous source power 6, for example a battery, and a generator of non-sinusoidal oscillations of the oscillating frequency with antiphase outputs 2 associated with the indicator 7. The unit is intellectually This warning mode 5 is connected to the alarm sensor 8. To fix the wires-emitters 3 and 4, ties 9 made of conductive material, such as plastic, are used and are installed on the pipeline 10.

Intelligent complex conversion of hardness salts works as follows. The technology of water treatment is based on the principle of changing the shape of a calcium carbonate crystal under the influence of electromagnetic waves in the sound range. These waves are absolutely harmless to humans. Under their influence, the structure of the crystals of hardness salts changes. The scale converted to brittle crystals is easily washed off the surface and carried away by the stream. And new crystals do not form. Water does not change its salt composition. 5 ... 6 days after the cessation of processing, the form of the calcium carbonate crystal is restored, the properties of softened water are lost. They are restored by reprocessing.

Water subjected to anti-scale treatment is supplied through pipeline 10. A generator of non-sinusoidal oscillations of the oscillating frequency with antiphase outputs 2 through emitter wires 3 and 4, previously fixed on the pipeline 10 with ties 9, acts on the hardness salts dissolved in water by means of an electromagnetic field. As a result of this effect, hardness salts lose for some time the ability to combine into crystals and settle on the walls of the pipeline in the form of scale, while the salt composition of the water does not change.

An electromagnetic field enters the pipeline, regardless of its material, as follows. Antiphase voltage pulses are supplied to the emitting wires 3 and 4 with a frequency generated by the oscillator of non-sinusoidal oscillations of the oscillating frequency 2. Due to capacitive coupling between the emitting wires 3 and 4 and pipeline 10 (in the case of a conductive pipeline) or with water in the pipeline 10 (in the case of non-conductive pipeline) in the section of the pipeline 10 between alternately wound emitter wires 3 and 4 (see Fig.), alternating current pulses occur, generating both outside and inside water pipe 10 alternating magnetic field, which in turn generates alternating current pulses in a conductive liquid, such as water. Thus, in the flow of a conductive fluid pumped through the pipeline 10, a pulsed alternating electromagnetic field is created with a frequency constantly changing over time.

A block of intelligent alert mode 5 is connected to a generator of non-sinusoidal oscillations of the oscillating frequency with antiphase outputs 2, which provides the ability to display information about the state of the intelligent complex of conversion of hardness salts, about its functional failure, including breakdown or distortion of the generated signal. The intelligent notification mode unit 5 notifies, for example, by sending an SMS notification to the equipment owner when an external power source is turned on or off. When you turn off the external power source, the intelligent alert mode unit 5 operates from an autonomous power source 6, such as a battery. The operation of the generator of non-sinusoidal oscillations of the oscillating frequency with the out-of-phase outputs 2 is displayed on the indicator 7. The intelligent alert mode unit 5 also notifies the owner of the equipment or the guard about the unauthorized appearance of an extraneous object in the room where this equipment is installed, by means of an alarm sensor 8, performing security functions. This allows you to effectively resist attempts to steal equipment, the commission of terrorist acts and other crimes at the facility with the installed equipment.

The peculiarity of the intellectual complex for the conversion of hardness salts is that in addition to performing its main functions to prevent the appearance of scale, it performs a number of tasks:

1) remote interactive informing the owner of the equipment about a functional failure of the equipment itself, including damage or distortion of the generated signal;

2) when the external energy source is turned off, the corresponding signal is remotely interactively transmitted to the owner of the equipment, which allows to increase the life-support efficiency of the facility in which this equipment is installed, notifying of a possible malfunction of the entire heating system or a power outage;

3) notification of the owner of the equipment about the unauthorized appearance of an extraneous object in the room where this equipment is installed, performing security functions.

Thus, the intelligent complex of conversion of hardness salts thereby allows for continuous round-the-clock protection of the room in which this equipment is installed, by notification, for example, by SMS notification. This equipment is most useful for heat generating companies, housing and communal services management companies, cultural and social facilities, administrative buildings, etc.

So, the claimed invention allows to increase the reliability of the work by introducing screeds and to increase the information content of the state of the intellectual complex for the conversion of hardness salts and, accordingly, its safety by introducing the block of intelligent alert mode while maintaining the function of providing protection against scale.

In addition, the claimed invention allows to expand the functionality of the transducer of hardness salts by introducing continuous monitoring of the condition of its equipment.

Claims (5)

1. A complex for converting stiffness salts, comprising a housing in which a generator of non-sinusoidal electromagnetic oscillations of a oscillating frequency are located, to the antiphase outputs of which are connected emitter wires with the possibility of winding them in the opposite direction to the pipeline, characterized in that it contains an intelligent mode unit located in the housing alerts connected to a generator of non-sinusoidal electromagnetic oscillations of the oscillating frequency and an autonomous power source, indicator, aspolozhenny on the housing, alarm sensor coupled to the housing and covering, made of non-conductive material to be fixed emitters and conductors arranged on the pipeline. 2. The complex conversion of hardness salts according to claim 1, characterized in that the intelligent alert mode unit is made in the form of a GSM module. 3. The complex of conversion of hardness salts according to claim 1, characterized in that a rechargeable battery is used as an autonomous power source. 4. The complex conversion of hardness salts according to claim 1, characterized in that the indicator is made of LED. 5. The conversion complex of hardness salts according to claim 1, characterized in that the screeds are made of plastic.