RU179508U1 - DEVICE FOR ELECTROLYSIS OF WATER - Google Patents

Abstract

The utility model relates to the field of medical technology, in particular to devices for electrolysis of water and can be used to produce activated water with medicinal properties. The task to be solved by the claimed utility model is to expand the functionality of the device, reduce the risk of its operation, and improving the quality of water electrolysis. A device for water electrolysis, containing a vessel for water, a cover, a power supply, an anode and a cathode, is equipped with an electronic control unit, and a capacitor for preparing acid or alkaline water, the water vessel is made in the form of a jug with a handle, magnets are placed on the handle and body of the container, while the container is made in the form of glasses inserted one into the other, openings for free passage of water are made in the walls of each of them and a permeable membrane is placed between the side walls of the glasses, the lid is hollow to accommodate the electronic control unit, the electronic control unit contains a rectifier, relay unit, electronic key, microprocessor, Test resistor, reed switches, indicator, accelerometer, speaker, water level sensor and control buttons, while the outputs of the rectifier are connected to the relay unit, one output of which is connected to the cathode, the other to a silver electrode, the third output of the relay unit is connected to the input of the electronic key, the output of which is connected to a measuring resistor, the other end of which is connected to the anode and to the microprocessor, the additional input of the relay unit is connected to the microprocessor, and the reed switches are located opposite the magnets located on the handle of the jug and on the box truncated capacitance controls, LED, speaker, accelerometer, a water level sensor and reed switches are also connected to the microprocessor.

Description

The utility model relates to the field of medical technology, in particular to devices for electrolysis of water and can be used to produce activated water with healing properties.

A device for producing activated water ("living" and "dead" water) is known, comprising, filled with water, a glass vessel with a lid, electrodes (anode and cathode) placed in the vessel, the anode being additionally placed in an insulated canvas bag and electrodes through a rectifier the bridge is connected to a current source (G.Z. Manageryan, Collection of traditional medicine and alternative methods of treatment. Book 1, M. Bagira, 1994, p. 34).

The disadvantage of this device is the danger of its operation, due to the possibility of electric shock to users, the limited functionality of the device, low operating conditions of the device and limited opportunities to improve the quality of water electrolysis.

The closest technical solution for the combination of essential features is a device for electrolysis of water, containing a vessel for water, a lid and electrodes placed in the vessel connected to a current source (RF patent No. 2084246 according to class A61N 1/44 of 07.20.1997).

The disadvantage of this device is the danger of its operation, due to the possibility of electric shock to users, the limited functionality of the device, low operating conditions of the device and limited opportunities to improve the quality of water electrolysis.

The problem to which the claimed utility model is directed is to expand the functionality of the device, reduce the danger during its operation, and improve the quality of water electrolysis.

The problem is solved due to the fact that the device for water electrolysis, containing a vessel for water, a cover, a power supply unit, an anode and a cathode, is equipped with an electronic control unit, and a tank for preparing acid and alkaline water, the water vessel is made in the form of a jug with a handle , magnets are placed on the handle and body of the container, while the container is made in the form of glasses inserted one into the other, holes for free transmission of water are made in the walls of each of which, and is permeable between the side walls of the glasses the membrane, the cover is hollow to accommodate the electronic control unit, the electronic control unit contains a rectifier, relay unit, electronic key, microprocessor, measuring resistor, reed switches, indicator, accelerometer, speaker, water level sensor and control buttons, while the outputs of the rectifier connected to the relay block, one output of which is connected to the cathode, and the other to the silver electrode, the third output of the relay block is connected to the input of the electronic key, the output of which is connected to the measuring resistor, to the other which is connected to the anode and the microprocessor, the additional input of the relay unit is connected to the microprocessor, and the reed switches are located opposite the magnets located on the jug handle and on the container body, the control buttons, indicator, speaker, accelerometer, water level sensor and reed switch are also connected to the microprocessor .

In FIG. 1 shows a General view of the device in the form of a jug with a lid.

In FIG. 2 is a general view of the jug with a container placed in it, which can be installed in two positions.

In FIG. 3 - capacity design.

In FIG. 4 - a cover with a control unit, cathode and anode.

In FIG. 5 is a block diagram of an electronic control unit.

The device for electrolysis of water contains a vessel 1 in the form of a jug with a handle 2, a cover 3 with protruding down electrodes: an anode 4 with a protective ruthenium iridium coating and a cathode 5. At the same time, a vessel 6 is inserted into the vessel 1, into which the vessel 7. The containers 6 and 7 are made of plastic in the form of glasses inserted one into the other with holes that allow water to pass through. A magnet 8 is located in the handle housing 2, and a magnet 9 is located on the vessel body 6. A permeable membrane 23 is placed between the walls of the containers 6 and 7 along the lateral perimeter.

The electronic unit contains a rectifier 10, a relay unit 11, an electronic key on a seven-watt 12, a microprocessor 14, a measuring resistor 13, reed switches 15 mounted opposite the magnets 16, an indicator 17, an accelerometer 18, a speaker 19, a water level sensor 20 and control buttons 21. K the electronic control unit also connects a removable silver electrode 22, which is installed between the cathode and the anode (not shown conventionally in the figure).

The outputs of the rectifier 10 are connected to the relay block 11, one output of which is connected to the cathode 5, and the other to the silver electrode 22, the third output of the relay block is connected to the input of the electronic key on the seven-wrist 12, the output of which is connected to the measuring resistor 13, the other end of which is connected with the anode 4 and the microprocessor 14, the additional input of the relay unit is connected to the microprocessor, and the reed switches 15 are placed opposite the corresponding magnets 16 located on the handle of the jug and on the container body. The control buttons 21, indicator 17, speaker 19, accelerometer 18, water level sensor 20 and reed switch 15 are also connected to the microprocessor.

A device for electrolysis of water works as follows. Water is poured into a water vessel 1 with a handle 2 and closed by a cover 3. In this case, two electrodes are inserted into the vessel 1. The cathode and anode are immersed in one vessel. One of the electrodes is inside the container with glasses 6, 7, and the other outside.

The container can be installed in two positions: closer to the handle of the jug or closer to its spout. This allows you to place in the extracted vessels 6, 7 either the cathode 5 or the anode 4. Due to the presence of a magnet on the container body, the electronic unit with microprocessor 14 automatically determines which electrode is in the container and, based on these data, sets the pH limits in the container and in vessel whose values are set by the user. Using the control buttons 21, the user starts the ionization process as a result of which alkaline ionized water is formed near the cathode and acidic near the anode. At the end of the ionization process, the user, removing containers 6, 7, separates the water with an alkaline and acid reaction and uses it for its intended purpose.

If the containers 6, 7 are not installed in the vessel 1, but a removable silver electrode 22 is installed, the control unit automatically switches on the silvering mode due to the missing magnet 9, the time of which the user selects himself.

The electronic control unit operates as follows. A source with a voltage of 220 volts is connected to the rectifier 10 and fed to the relay unit 11, designed to switch the voltage on the electrodes in ionization or silvering modes (when using a silver electrode and in the absence of capacitors 6, 7), as well as for emergency shutdown in case of improperly installed lid of the jug, its tilt or with the wrong water level.

Through the contacts of the relay unit 11, the rectified voltage of negative polarity is supplied to the cathode or silver electrode (if used), and the voltage of positive polarity through the electronic switch on the seistor 12 and the measuring resistor 13, is fed to the anode 4.

The voltage drop across the measuring resistor 13 is controlled by a microprocessor 14, which, by controlling the key on the seistor 12, provides the necessary ionization parameters, taking into account the conductivity of the water used. The indicator 17 and control buttons 21 allow the user to select the required levels of ionization or silvering, as well as turn on and off the device. Based on the given parameters, adjusting the current at the anode and the process time, the microprocessor allows you to get water with fairly accurate pH, ORP or silver ion content.

Reed switches 15 and magnets 16 installed opposite them allow the microprocessor 14 to control: 1) the correct installation of the cover, 2) the location of the anode in the vessel or in the vessel, 3) the fact that the containers 6, 7 are installed in the vessel in which ionization mode is possible, and in the absence of the latter silvering mode. In the silvering mode, capacities 6, 7 in the vessel 1 are not installed, the reed switches do not work, and the microprocessor automatically perceives this mode as the silvering mode and starts the corresponding settings for the user.

To ensure additional electrical safety, the device contains a water level sensor 20, as well as two or three axial accelerometers 18. The accelerometer is triggered if the working device tilts to a critical angle at which water can flow out of the jug, for example, when tilting or falling, in this case protection is triggered and a warning voice message is given, and the voltage at the electrodes is turned off.

When the water level rises, the water level sensor 20 is triggered, the microprocessor 14 turns off the voltage on the electrodes and gives a voice warning signal through the speaker 19, which is built into the device. Voice messages are transmitted through the device’s speaker, duplicating information on the display about the selected operating mode, its end, or about errors - the cover is not tightly closed, etc.

Thus, the proposed device for water electrolysis can reduce the danger during its operation, due to the possibility of electric shock to the user, expand the functionality of the device, provide the ability to adjust the pH level of water and improve the quality of water electrolysis.

Claims (1)

A device for water electrolysis, containing a vessel for water, a cover, a power supply, an anode and a cathode, characterized in that it is equipped with an electronic control unit, and a container for preparing acid and alkaline water, the water vessel is made in the form of a jug with a handle, on the handle Magnets are placed in the container body, and the container is made in the form of glasses inserted one into the other, holes for free passage of water are made in the walls of each of them, and a permeable membrane is placed between the side walls of the glasses, the cover is full of hollow to accommodate the electronic control unit, the electronic control unit contains a rectifier, relay unit, electronic key, microprocessor, measuring resistor, reed switches, indicator, accelerometer, speaker, water level sensor and control buttons, while the outputs of the rectifier are connected to the relay unit , one output of which is connected to the cathode, and the other to a silver electrode, the third output of the relay unit is connected to the input of the electronic switch, the output of which is connected to a measuring resistor, the other end of which is connected to anode and with a microprocessor, an additional input of the relay unit is connected to the microprocessor, and the reed switches are located opposite the magnets located on the jug handle and on the container body, the control buttons, indicator, speaker, accelerometer, water level sensor and reed switch are also connected to the microprocessor.

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