RU2429203C1 - Water treatment device - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device includes in-series connected secondary electric power supply source 7, electric oscillation generation unit 1 and dipole transmitter 5 fixed on process object 8. Device also includes indication unit 6. Electric oscillation generation unit 1 consists of in-series connected control device 4, microcontroller 2 and signal amplifier 3 connected to outputs of dipole transmitter 5. Control input of signal amplifier 3 is connected to one output of control device 4. The other output of control device 4 is connected to the first signal input of indication unit 6, the second signal input of indication unit 6 is connected to the second information output of microcontroller 2. The first, the second and the third power outputs of secondary power supply source 7 are connected to similar outputs of microcontroller 2, signal amplifier 3 and indication unit 6. Control input of control device 4 is connected to control bus 9.

EFFECT: increasing water treatment efficiency, electromagnetic compatibility and enlarging functional capabilities and application field without sufficient complication of the device.

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Description

The invention relates to techniques for water treatment and is intended to prevent the formation and purification of solid deposits on the working surfaces of the elements of water supply and water treatment systems.

Deposits on the walls of devices of water supply and water treatment systems of the sludge in the form of a hard and hard to remove layer (scale) due to the content of mineral salts in the water, mainly magnesium and calcium, are the most common problem encountered in industry and in everyday life. As a result, a narrowing of the inner diameter of the pipes is observed, the thermal conductivity decreases and the heat transfer conditions deteriorate. Over time, energy losses in water treatment systems increase and can reach 40-60% or more.

The problems associated with the formation of scale are solved using both chemical and physical (reagent-free) methods. The use of the chemical method is associated with high material costs and problems of disposal of reagents used in the cleaning process, most often acids and their compounds. Of the physical methods, magnetic, electromagnetic, and ultrasonic methods of water treatment have recently received practical application.

The most interesting electromagnetic method of water treatment due to its wide capabilities. Here, under the influence of an electromagnetic field in the working volume of a technological object (an element of a water treatment system or water supply — a pipe with water), the physical properties of water change without changing the salt composition. The silicates, magnesium and calcium salts contained in it lose their ability to form in the form of a dense stone and are released, especially after heating, in the form of easily removed sludge. In addition, water treated in this way breaks and removes the already deposited scale and prevents its further formation.

Similar water treatment devices can be installed at industrial and domestic water treatment and water supply facilities: in highways supplying water to hot and cold water supply networks, boilers, instantaneous water heaters, steam and hot water boilers, cooling systems of various technological equipment (compressor stations, powerful electric machines, thermal equipment), etc.

The following technical solutions for the electromagnetic treatment of water are known from sources of scientific, technical and patent information, the relevance of which is obvious at this time in the face of an increasing shortage of energy resources.

A device for magnetic fluid processing according to A.S. SU No. 865832, C02F 1/48, publ. 09/23/1981, which contains a serially connected control circuit, a three-phase thyristor converter and three-phase electromagnetic windings mounted on a diamagnetic object of influence. The thyristor converter is connected to a three-phase supply network.

A device for the magnetization of medicinal and food liquids is known according to Patent RU No. 2089513, C02F 1/48, publ. 09/10/1997. It contains a control device that controls the operation of the alternating current source through a current switch, and a solenoid mounted on a cell with a liquid. Electrical signals from the AC source pass into the solenoid according to the law of the control device.

A device for water treatment (with a variant execution) is known according to Patent RU No. 2174960, C02F 1/48, C02F 103: 02, publ. 10/20/2001. According to the description, the device (its variants) is made in the form of a wall device, consisting of an electromagnetic pulse generator and a pair of emitters in the form of wires. In order to reduce energy consumption and reduce the cost of the water treatment process, the emitters are installed on the pipe of the direct or reverse sides of the water supply system, are made in the form of 12 turns of a typical wire with different winding directions and fastened at the ends with a plastic lock.

As a prototype, a device for converting (processing) water according to GB Patent No. 2312635, C02F 1/48, priority 29.04.1996, publ. 11/05/1997. The known device contains a series-connected source of supply voltage, a generator unit and an antenna made in the form of a solenoid with a free end mounted on a pipe with water. The generator unit contains a two-phase generator of electrical oscillations. Its signals of complex shape pass into the solenoid antenna and act on the water flowing through the pipe.

The listed devices have common disadvantages, which are insufficiently effective exposure to the liquid medium through electromagnetic action, which ultimately narrows their functionality and limits the scope of use. For example, in the known devices [1-2], the electromagnetic effect on the liquid is carried out according to the signals of an alternating current source of mains voltage, followed by modulation through an electronic switch (thyristor converter). The source of electromagnetic radiation here is a multilayer solenoid, in the working space of which a technological object (liquid) is located.

As experience in the practical application of such devices shows, to effectively change the physical properties of water (liquid) with different salt composition and concentration, the formation of broadband electrical signals of a given power exposure is required according to the law of random function (probabilistic law), which is difficult to achieve when using an uncontrolled generator of electrical oscillations. In the known devices, as a generator of electrical oscillations, an alternating current source of industrial frequency f = 50 Hz, switched by an electronic key according to the law of the control device, is used. Probably, for the magnetization of alcohol-based drugs [2], this approach is sufficient, but not effective.

The noted disadvantages apply to the selected prototype [4] of the claimed device. Here, in contrast to the known devices [1, 2], an electronic non-tunable generator of a complex waveform (due to the parallel connection of two generators) operating on an inductive load is used as a source of electrical vibrations — a solenoid with a free output (emitter, antenna). This makes it impossible to effectively influence the liquid (water) and change its physical properties with a minimum of supplied electric energy, limiting the scope and functionality of the device.

A device for electromagnetic treatment of water [3] is also known, from the description of which it follows that it has an electromagnetic pulse generator operating on emitters in the form of wires, and a microprocessor is built into the wall-mounted device case, designed to change electromagnetic pulses. It is noted that the device (its variants) are installed on a direct-flow water supply system or on the reverse circuit of a water supply system. The absence of any scheme explaining the construction principle of this device and its operation does not allow us to evaluate its functionality, architecture, i.e. conduct a comparative analysis of a number of signs. Therefore, the authors, taking into account the fame of such a "technical solution", state about its lack of functionality and inefficiency of impact on the technological object.

The technical result of the invention is to expand the functionality and scope without significant complication of the device.

The achievement of the technical result in the proposed device for water treatment, containing a serially connected secondary power source, an electric oscillation generation unit and a dipole emitter mounted on the technological object, is provided by the introduction of an indication unit, while the electric oscillation generation unit consists of a control device, a microcontroller and signal amplifier connected to the terminals of the dipole emitter, while the control input of the amplifier signals is connected to one output of the control device, its other output is connected to the first signal input of the display unit, the second signal input of the display unit is connected to the second information output of the microcontroller, the first, second and third power terminals of the secondary power source are connected to the same terminals of the microcontroller, signal amplifier and display unit, respectively, and the control input of the control device is connected to the control bus.

A device for water treatment is illustrated by drawings. Figure 1 shows a block diagram of a device; figure 2 - its appearance.

The water treatment device (Fig. 1) contains an electric oscillation generation unit (BGEK) 1, a microcontroller 2, a signal amplifier 3, a control device 4, a dipole emitter 5 in the form of a pair of inductive emitters from flat conductors with antiphase switching, an indication unit 6, a source 7 secondary power supply (IWEP), technological object 8 and the control bus 9.

Power conclusions IVEP 7 are connected to the same inputs of the display unit 6, microcontroller 2 and signal amplifier 3. The first and second signal inputs of the indicating unit 6 are connected respectively to the output of the control device 4 and the output of the microcontroller 2. Its signal output through the signal amplifier 3 is connected to the terminals of the dipole emitter 5, which is rigidly fixed to the technological object 8. Two other outputs of the control device 4 are connected to the same the conclusions of the microcontroller 2 and signal amplifier 3, respectively, and its input is connected to the control bus 9.

The device operates as follows.

In the initial state, the device (figure 1) is de-energized. When connected to the supply network, its IVEP 7 generates a series of supply voltages and supplies them to the power terminals of the display unit 6, BGEK 1 and its signal amplifier 3, preparing the device for operation. The transfer of the device into operation mode is carried out by a control signal set via the control bus 9, which enters the control device 4.

The control device 4 sets the required power for generating an electrical signal from the radiation of the signal amplifier 3, starts the microcontroller 2 BGEK 1 to generate electrical oscillations in a given frequency range ΔF with programmed change of frequency F according to the law of random function (for example, with a normal distribution law).

The electrical signals of the microcontroller 2 pass through the amplifier 3 of the BGEK 1 signals, where they are amplified by the power to the required value, and pass to the dipole emitter 5, forming between its elements (pairs of inductive radiators from flat conductors with antiphase switching installed at a reference distance D from each other on the surface of the technological object 8) the electromagnetic field of the dipole A-B intensity H _A-B .

This field acts on the carrier (water) of the technological object 8 and changes its physical state through ionization and coagulation of the molecules of mineral salts, mainly magnesium and calcium, thus preventing the formation and growth of scale on the walls of the elements of the technological object 8.

The operating modes of the BGEK 1 device are displayed by its display unit 6. Regulation of its radiation power, the use of inductive emitters from flat conductors forming a dipole, the formation of an electromagnetic field of a complex dipole according to the desired random function law, can increase the electromagnetic compatibility and efficiency of the device for preventing and cleaning solid deposits (scale) on the working surfaces of the technological object 8, thereby expanding the functionality of the device and the field of technical use. This distinguishes the proposed device from well-known analogues and the selected prototype and allows to achieve a positive effect in solving the goal.

Practical implementation of the device (for explanation only): in the electric oscillation generation unit 1, microcontroller 2 of the MSP-430 series is used; signal amplifier 3 is made according to the emitter follower circuit on a KT815 transistor with RC elements; the control device 4 is made in the form of a mechanical multi-contact switch; dipole emitter 5 is made in the form of a pair of the same type of single-layer solenoids (antenna-windings) of flat conductors with free leads and antiphase inclusion; the indicating unit 6 is made according to a typical scheme using LEDs ALS324, K176ID2; IVEP 7 is assembled according to the well-known stabilized rectifier circuit with a half-wave rectifier and a stabilizer on the K142EN series IC. Technological object 8 is an element of a water treatment system in the form of a pipe segment with a carrier (in this case, water), on which a dipole emitter is fixed from the outside to create the required magnitude of the electromagnetic field. The proposed device does not have other features and can be industrially implemented (see figure 2).

Information sources:

1. Copyright certificate SU No. 865832, C02F 1/48. Publ. 09/23/1981.

2. Patent RU No. 2089513, C02F 1/48. Publ. 09/10/1997.

3. Patent RU No. 2174960, C02F 1/48. Publ. 10/20/2001.

4. GB patent No. 2312635, C02F 1/48. Publ. 05/11/1997, prototype.

Claims (1)

A water treatment device comprising a serially connected secondary power source, an electric oscillation generation unit and a dipole emitter mounted on a technological object, characterized in that an indication unit is inserted into it, and the electric oscillation generation unit consists of a control device, a microcontroller and an amplifier connected in series signals connected to the terminals of the dipole emitter, while the control input of the signal amplifier is connected to one terminal of the control device phenomena, its other output is connected to the first signal input of the display unit, the second signal input of the display unit is connected to the second information output of the microcontroller, the first, second and third power outputs of the secondary power source are connected to the same outputs of the microcontroller, signal amplifier and display unit, respectively, and the control the input of the control device is connected to the control bus.

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