KR20150020903A - A Magnetic Alkali ion water generator - Google Patents

Abstract

The present invention relates to an alkaline water ionizer for outputting magnetized water, in which water is passed through a spiral rotating device to allow it to magnetize while passing through a magnetizing device in a state in which a flow velocity is maintained at a high speed and a cooling circulation pipe is provided outside the magnetizing device And a vibration device is added to remove foreign matter adhering to the magnetizing device at a predetermined time interval. The present invention relates to an alkaline ionizer for outputting magnetized water,
A filter unit; A water storage tank for temporarily storing the water passing through the filter unit; A rotary tube for discharging water passing through the water tank at a high speed and guiding the water to be vortexed and output through a spiral tube; A spiral magnet provided on an inner circumference of the rotary tube and having a cylindrical shape, a spiral magnet insertion type spiral magnet through which the water passes; A refrigerant pipe installed outside the magnet insertion type spiral pipe and increasing the susceptibility by lowering the temperature of water passing through the spiral pipe; And a vibrating means installed at one end of the magnet inserted spiral tube for vibrating the magnet inserted in the spiral tube for a predetermined time to vibrate the magnet installed in a spiral shape to prevent the contamination from being fixed to the magnet .

Description

{Magnetized Alkaline ion water generator}

In particular, the present invention relates to a magnetized alkaline ionizer, and more particularly, to a magnetized alkaline ionizer having a structure in which water is passed through a spiral rotating device to rapidly magnetize the magnetized water while passing through a magnetizing device while maintaining a flow velocity, The present invention also relates to a magnetized alkaline water ionizer having a vibrating device to remove foreign matter adhering to the magnetizing device at a predetermined time interval.

In general, a water purifier is a device that uses tap water or ground water as raw water to filter out foreign substances or harmful substances contained in raw water to drink.

The structure of a conventional general water purifier is described below with reference to FIG.

The water in the main storage tank 7 flows into the water supply pipe 1 through the connection pipe 10 and the water in the main water storage tank 7 is purified in the purified water portion 2 in the raw water supply pipe 1 and stored in the main storage tank 7, And then flows into the cold water tank 11 and the hot water tank 12 to be stored in the cold water tank 11 and the hot water tank 12 to receive the purified water.

The integer part 2 described above is purified when the raw water is passed through each filter by connecting the Sediment filter 3, the free carbon filter 4, the UF ceramic filter 5 and the POST carbon filter 6 in series , The filter is periodically replaced with a lifetime, or the specific filter is replaced by measuring the degree of contamination separately.

When the cold water tank 11 is intended to drink water stored in the main storage tank 7 as it is or to drink more cold water, a separate device such as a compressor is additionally installed to store cold water having a predetermined cold temperature, It is to drink the cold water by manipulating the head cock according to the user's intention.

The hot water tank 12 is heated by periodically heating the hot water tank 12 by surrounding the hot water tank 12 with a hot wire or a heater and storing warm water and drinking hot water by manipulating the hot water tank according to the user's intention .

Therefore, the conventional general water purifier merely filters foreign matter or harmful substances from the raw water, and it is difficult to expect more functions.

In order to solve the above problems, the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a magnetizing apparatus in an intermediate line for outputting cold and hot water, which induces magnetization to pass through a magnetizing apparatus at a high flow rate, So that contaminants do not accumulate in the magnetizing apparatus and are removed.

As means for achieving the above object,

The present invention relates to a filter unit (10) for sequentially purifying water using a multistage filter; A water storage tank (40) for temporarily storing the water passing through the filter unit; A rotary pipe (50) for discharging water passing through the water tank at a high speed and inducing the water to be vortexed and output through a spiral pipe; A magnet inserted spiral (60) installed in a lower part of the rotary tube in a cylindrical shape and provided with a spiral magnet on its inner periphery and through which the spiral magnet is passed; A refrigerant pipe (70) installed outside the magnet-inserted spiral pipe and increasing the susceptibility by lowering the temperature of water passing through the spiral pipe; A vibrating means (80) installed at one end of the magnet insertion type spiral tube and vibrating the magnet installed in a spiral shape by vibrating the magnet inserted spiral tube for a predetermined time to prevent the contamination from being fixed to the magnet And the like.

The filter unit 10 includes a water filter 11 and an alkali-ceramic filter 12; The water filter 11 includes a sediment filter, a pre-carbon filter that performs a filtering function by the adsorption action by micropores of the carbon block, a post-carbon filter ), A membrane filter (UF-membrane filter), and an ultraviolet filter (UV filter); The tourmaline ball is composed of 50% by weight of tourmaline, 30% by weight of Neoserra, 5% by weight of loess, 5% by weight of activated charcoal, 5% by weight of kaolin and 5% by weight of kaolin, and the magnesium ball is composed of 98% by weight of magnesium and 2% by weight of zinc.

An automatic valve 20 installed on the output side of the filter unit for selecting a flow of water to output magnetized water or ionized water and a control unit for controlling other devices by inducing operation of the automatic valve, The control unit 30 controls the refrigerant pipe to pass through the rotary pipe by opening the automatic valve when the user selects the magnetized water and controls the refrigerant pipe to pass through the refrigerant pipe, So that the magnet does not accumulate foreign matter.

The horizontal vibration means 500 includes a lower substrate 521, a brush 525 for receiving external power, a stator 520 made of a magnet for supplying a magnetic field, ; And a brushless motor which is provided with a winding coil electrically connected to the brush so that electricity is supplied to the winding coil from the brush and is rotatable about the shaft 531 by the interaction of the winding coil and the magnet, (510); And a housing 530 for internally accommodating the rotor 510 and the stator 520 therein.

Of the vibration means 80, the vertical vibration means 500a includes a case 581 having an internal space of a predetermined size; A magnet 582 mounted on the lower surface of the lower plate 583 and magnetized vertically; A yoke 584 to which the magnet 583 is mounted to form a magnetic circuit together with the lower plate 583 and the magnet 582; A spring member 586 mounted between the casing 581 and the yoke 584 to vibrate the vibrating body including the weight 585 mounted on the yoke 584; And a vibration generating coil 587 provided on the upper surface of the bracket 588 for sealing the lower portion of the casing 581. [

As described above, according to the present invention, a magnetizing device is installed in an intermediate line for outputting cold / hot water, and the magnetizing device is guided to pass through the magnetizing device at a high flow rate, and a vibration device is additionally provided, So that the pollutants can be removed without being accumulated.

1 is a structural view of a conventional water purifier.
2 is an overall view of the ionizer according to the present invention.
3 is a sectional view of a rotary pipe of the present invention.
4 is a detailed view of the rotary tube of the present invention.
5 is a detailed configuration diagram of the magnetization means of the present invention.
6 is a sectional view of the horizontal oscillator in the vibration device of the present invention.
7 is a sectional view of the vertical oscillator in the vibration device of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

2 is an overall view of the ionizer according to the present invention.

3 is a sectional view of a rotary pipe of the present invention.

4 is a detailed view of the rotary tube of the present invention.

5 is a detailed configuration diagram of the magnetization means of the present invention.

6 is a sectional view of the horizontal oscillator in the vibration device of the present invention.

7 is a sectional view of a vertical oscillator in the vibration device of the present invention,

The components of the present invention mainly include a filter unit 10, an automatic valve 20, a control unit 30, a water reservoir 40, a rotary pipe 50, a magnet insertion spiral pipe 60, A tube 70, and a vibration means 80.

The filter unit 10 includes a water filter 11 and an alkali-ceramic filter 12.

The water filter may include a sediment filter, a pre-carbon filter that performs a filtering function by adsorption by micropores of a carbon block, a post-carbon filter, a membrane A filter (UF-Membrane Filter), and an ultraviolet filter (UV filter). The raw water is sequentially passed through each filter, and various harmful components and odors are removed, and ultimately converted into clean water.

The alkali-ceramic filter 12 is a mixture of tourmaline ball and magnesium ball at a ratio of 7: 3. The tourmaline ball emits a large amount of far-infrared rays and anions, and has a sterilizing effect and a good metabolism. It is a mixture of fine powder of loess, activated charcoal, gold mica and chaoling at a certain ratio, molding it in spherical form, and then burning. Magnesium balls emit a large amount of far infrared rays and anions, and have a germicidal effect and metabolism smoothly The weight ratio of the tourmaline ball to the magnesium ball constituting the alkali-ceramic filter 12 is as follows.

The tourmaline ball was blended in a blender with powders of tourmaline 50 wt%, Neoserra 30 wt%, loess 5 wt%, activated carbon 5 wt%, mica 5 wt% and kaolin 5 wt%, kneaded evenly in a kneader, The magnesium ball was formed by mixing 98 wt% of magnesium and 2 wt% of zinc, followed by drying and firing, followed by repeated molding and firing to form a bead size in a cutting machine (ventilator) % Is melted and poured into a mold to form a spherical shape and polished to form a magnesium ball.

The automatic valve (20) is installed at the output end of the filter unit to select the flow of water and operates to output magnetized water or ionized water.

The control unit 30 controls the other device by inducing the operation of the automatic valve according to the user's selection or feedback of completion of the operation of the automatic valve.

The water storage tank 40 temporarily stores the water that has passed through the filter unit.

The rotary pipe (50) serves to discharge the water passing through the water tank at a high speed, and is guided to be vortexed and output through a spiral pipe.

The magnet insertion spiral tube 60 has a cylindrical shape and is installed at a lower portion of the rotary tube. A spiral magnet is provided on the inner periphery of the magnet tube, and the spiral magnet is designed to allow water to pass therethrough.

The refrigerant pipe (70) is installed outside the magnet-inserted spiral pipe and lowers the temperature of the water passing through the spiral pipe to increase the magnetic susceptibility.

The vibrating means 80 is installed at one end of a magnet-inserted spiral tube, and vibrates the spiral-shaped magnet by vibrating the magnet-inserted spiral tube for a predetermined time to prevent the contamination from sticking to the magnet .

In addition, the controller 30 controls the refrigerant to pass through the refrigerant pipe when the automatic valve is opened, and further vibrates the magnet inserted spiral tube by operating the vibrating means to induce the foreign substance to not accumulate on the magnet.

That is, when the user selects the magnetized water for inputting magnetized water, the control unit 30 operates the automatic valve to supply water to the magnetized water output line, simultaneously operates the refrigerant tube to allow the refrigerant to pass therethrough , And operates the vibration device so that no foreign matter accumulates on the magnet.

Hereinafter, the vibration means of the present invention will be described in detail as follows.

First, for the sake of explanation, the entirety of the left and right vibration type horizontal vibration means is denoted by 500 and the entire upper and lower vibration type vibration means is denoted by 500a.

6 is a cross-sectional view of an embodiment of a horizontal vibration means 500 that vibrates in a lateral direction as an embodiment of the present invention,

The horizontal vibration unit 500 includes a rotor 510 rotatably mounted on the shaft 531 with respect to the stator 520 and a housing 510 housed inside the rotor 510 and the stator 520. [ (530).

When power is supplied from the outside through the brush 525 mounted on the lower substrate 521 of the stator 520, currents of different polarities are induced in the pair of brushes 525, The upper end of the rotor 510 is elastically contacted with the commutator 515 provided on the lower surface of the upper base 511 of the rotor 510 so that the rotor 510 is rotated through the commutator 515 in contact with the brush 525, And supplies the power to the winding coils 512 provided in the coil.

Due to the interaction between the electric field generated by the current flowing in the winding coils 512 and 513 and the magnetic field generated by the magnet 522 of the stator 520, 531 as a center.

At this time, since the contact point between the brushes 525 and the segments of the commutator 515 which contact the brushes 525 is changed every time the rotor 510 rotates, the polarity of power supply is continuously changed, Thereby causing vibration as an incoming signal.

In FIG. 6, reference numeral 514 denotes an insulator surrounding the winding coil and the weight, reference numeral 532 denotes a bearing member, and reference numeral 535 denotes a bracket for sealing the open lower portion of the housing 530.

This vibration motor uses a method of obtaining mechanical vibration by rotating a rotor 510 having an eccentrically disposed weight body when an external power is supplied. The rotational force of the rotor 510 is mostly transmitted to the brush 525 and the commutator And a rectifier or brush-type motor structure for supplying current to the coil of the rotor 510 through a rectifying action through a contact between the brushes 515.

7 is a cross-sectional view of a vertical oscillator which is simple in structure and generates vertical vibration in the vertical direction. As shown in the figure, the vertical oscillator 500a Includes a casing 581 having an inner space of a predetermined size and a yoke 584 on which a lower plate 582 is mounted and a vertically mounted magnet 583 is mounted and a yoke 584 mounted on the yoke 584 A spring member 586 mounted between the casing 581 and the yoke 584 so as to vibrate the vibrating body including the weight 585 to be lifted up and down and a bracket 588 for sealing the lower portion of the casing 581, And a vibration generating coil 587 provided on the upper surface of the motor.

The operation of the vertical oscillator 500a having such a configuration is performed in a magnetic circuit composed of the magnet 582, the lower plate 583 and the yoke 584 when power is supplied to the vibration generating coil 587 The oscillating body including the magnet 582, the lower plate 583, the yoke 584, and the weight 585 is connected to the spring member 586 by the interaction between the magnetic field and the electric field generated in the vibration generating coil 587, So that it vibrates in the vertical direction.

Hereinafter, the assembly method of the present invention will be described.

A rotary tube 50, a magnet-inserted spiral tube 60, and a refrigerant tube 70. The filter unit 10, the automatic valve 20, the control unit 30, the water storage tank 40, And the vibration means 80, all of which are inserted into the interior of the alkaline ionized water main body.

An ionized water pipe and a magnetized water pipe are connected to the output end of the filter unit 10. When the raw water passes through the filter unit 10, the automatic valve 20 can be controlled to selectively supply ionized water or magnetized water. If the user selects ionized water, water is supplied through the ionized water pipe to generate alkaline ionized water. When the user selects the magnetized water, raw water passing through the filter unit 10 is temporarily stored in the water storage tank. A rotary pipe 50 and a magnet-inserted spiral pipe 60 are provided below the water storage tank 40 to output magnetized water.

In addition, a coolant pipe (70) is installed outside the magnet insertion spiral pipe (60) so that the raw water flows in a cooled state when passing through the magnet insertion type spiral pipe (60) In addition, a vibration means (80) is further provided at a lower end of the magnet insertion type spiral pipe (60) to prevent foreign matter from accumulating on the spiral pipe by giving vibration to the magnet insertion type spiral pipe (60).

That is, when the present invention is used, the water having passed through the filter unit 10 is cooled through the cold water line and the hot water line, and the water in the warmed state is output, and the magnet inserted spiral pipe 60 So that the magnetized water can be outputted to the outside while passing through.

Hereinafter, the operation of the present invention will be described.

The present invention is configured such that a user can select and drink alkaline ionized water and magnetized water.

If the user selects the alkaline ionized water, the control unit 30 controls the automatic valve 20 to output the water having passed through the filter unit 10 to the alkaline ionized water pipe to generate and output alkaline water.

In addition, when the user selects the magnetized water, the control unit 30 outputs the water that has passed through the filter unit 10 through the magnetizing device, so that the user can take the magnetized water.

The operation of generating magnetized water in the present invention will be described in more detail as follows.

The magnetizing apparatus of the present invention comprises a filter unit 10 comprising a water reservoir 40, a rotary pipe 50, a magnet insertion spiral pipe 60, a refrigerant pipe 70, and a vibration means 80, The passing water is temporarily stored in the water storage tank, the water collected in the water storage tank flows rapidly through the rotary pipe 50, and the water with the increased flow rate is magnetized while passing through the magnet inserted spiral pipe.

The reason why water is allowed to pass through the rotary pipe 50 and the spiral pipe 60 is to increase the susceptibility. However, if the flow rate of water is low, the water susceptibility of the water decreases. Accordingly, So that the water passes through the magnet 61 of the magnet-inserted spiral tube 60 while being in contact with the magnet.

Since the magnetized water is generated more as the water becomes colder, a coolant pipe 70 is further installed outside the magnet-inserted spiral pipe 60 to cool the magnet-inserted spiral pipe 60 as water passes through it, Respectively.

According to the present invention, since the vibrating means 80 is disposed under the magnet-inserted spiral tube, the foreign substances mixed with the raw water may adhere to the magnet 61. Accordingly, in the present invention, So that the foreign matter sticking to the magnet can be easily removed.

As a result, when the present invention is used, it is possible to selectively drink alkaline ionized water, cold and hot water, and magnetized water, thereby providing a product that meets consumer's preferences.

10:
20: Automatic valve
30:
40: Water tank
50: Rotating tube
60: magnet-inserted spiral tube
70: Refrigerant pipe
80: vibration means

Claims (5)

A filter unit (10) for sequentially purifying water using a multistage filter;
A water storage tank (40) for temporarily storing the water passing through the filter unit;
A rotary pipe (50) for discharging water passing through the water tank at a high speed and inducing the water to be vortexed and output through a spiral pipe;
A magnet inserted spiral (60) installed in a lower part of the rotary tube in a cylindrical shape and provided with a spiral magnet on its inner periphery and through which the spiral magnet is passed;
A refrigerant pipe (70) installed outside the magnet-inserted spiral pipe and increasing the susceptibility by lowering the temperature of water passing through the spiral pipe;
A vibrating means (80) installed at one end of the magnet insertion type spiral tube and vibrating the magnet installed in a spiral shape by vibrating the magnet inserted spiral tube for a predetermined time to prevent the contamination from being fixed to the magnet Wherein the alkaline ionized water is added to the ionized water. The method according to claim 1,
The filter unit (10)
A water filter (11), and an alkali-ceramic filter (12);
The water filter 11 includes a sediment filter, a pre-carbon filter that performs a filtering function by the adsorption action by micropores of the carbon block, a post-carbon filter ), A membrane filter (UF-membrane filter), and an ultraviolet filter (UV filter);
The tourmaline ball is composed of 50% by weight of tourmaline, 30% by weight of Neoserra, 5% by weight of loess, 5% by weight of activated charcoal, 5% by weight and kaolin 5% by weight, and the magnesium ball is composed of 98% by weight of magnesium and 2% by weight of zinc. The method according to claim 1,
An automatic valve 20 installed on the output side of the filter unit for selecting a flow of water to output magnetized water or ionized water and a control unit for controlling other devices by inducing operation of the automatic valve, 30,
When the user selects the magnetized water, the controller 30 opens the automatic valve and controls the refrigerant to flow through the rotary pipe, controls the refrigerant to pass through the refrigerant pipe, and operates the vibrating means so that no foreign matter accumulates on the magnet Wherein the magnetized alkaline water ionizer is operated. The method according to claim 1,
Among the vibrating means (80)
The horizontal vibration means 500,
A lower substrate 521, a brush 525 for receiving external power, a stator 520 made of a magnet for supplying a magnetic field,
And a brushless motor which is provided with a winding coil electrically connected to the brush so that electricity is supplied to the winding coil from the brush and is rotatable about the shaft 531 by the interaction of the winding coil and the magnet, (510);
And a housing (530) for internally housing the rotor (510) and the stator (520). The method according to claim 1,
Among the vibrating means (80)
The vertical oscillation means 500a includes:
A case 581 having an internal space of a predetermined size;
A magnet 582 mounted on the lower surface of the lower plate 583 and magnetized vertically;
A yoke 584 to which the magnet 583 is mounted to form a magnetic circuit together with the lower plate 583 and the magnet 582;
A spring member 586 mounted between the casing 581 and the yoke 584 to vibrate the vibrating body including the weight 585 mounted on the yoke 584;
And a vibration generating coil (587) provided on an upper surface of a bracket (588) for sealing a lower portion of the casing (581).

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