KR20160139563A - Large drinking water to equipped magnetic pump - Google Patents

Abstract

The present invention relates to a large-sized drinking water machine capable of supplying hygienic drinking water to a taker without a separate water purification filter. The present invention comprises: a first solenoid valve (100) for controlling the amount of raw water introduced from the outside; a magnetism-generating pump (200) for receiving raw water to change the binding force of water molecules by magnetism and mixing water and micro-air to generate mixed water; a spray nozzle (300) for spraying the mixed water flowing out from the magnetism-generating pump (200) toward a centrifuge (400); a centrifuge (400) for allowing blades (410) installed therein to finely pulverize air bubbles in the mixed water sprayed from the spray nozzle (300), thereby increasing the oxygen solubility in the mixed water; and a second solenoid valve for controlling the discharge amount of the mixed water flowing out from the centrifuge (400).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a large drinking water-

The present invention relates to a large drinking water device equipped with a magnetic generation pump, comprising: a first solenoid valve (100) for controlling the amount of raw water introduced from the outside; (300) for spraying the mixed water discharged from the magnetic generation pump (200) to the centrifugal separator (400), and a mixing nozzle A centrifugal separator 400 for finely pulverizing air bubbles in the mixed water injected from the injection nozzle 300 to increase the solubility of oxygen in the mixed water; And a second solenoid valve (500) for controlling the amount of external discharge of the mixed water. The present invention relates to a large drinking water system equipped with a magnetic generation pump.

Generally, a large water purifier is a kind of drinking water supply facility installed to allow a large number of people to drink drinking water indoors and outdoors of public facilities such as schools, parks, and sports facilities.

As one example of such a large-sized water purifier, " a group water supply negative water supply device (Korea registered utility model No. 20-0249747) " in Patent Document 1 has a water purifier case of a predetermined size, A water supply pipe connected to the water supply pipe and adapted to regulate the amount of the negative water discharged from the water storage tank; Wherein the water supply pipe is provided with a main pipe through which negative water stored in the water storage tank escapes, a distribution pipe connected to the main pipe and provided in the lateral direction inside the negative water pipe case, And a plurality of water intake pipes connected to the proper position and extending to the outside of the case for negative water, and is installed at a lower side of the water storage tank A cleaning pipe installed in the case for removing the chlorine component, organic substances and germs contained in the raw water flowing into the water tank from the raw water, And a sterilizer for sterilizing the germs by irradiating ultraviolet rays to the water that has been cooled and warmed by the cold / hot water heater installed at a proper place of the main duct. The chlorine component, the organic matter, and the germs contained in the tap water are removed, so that the hygienic safety and clean water can be attacked.

However, the " unitary water supply negative water supply device " of Patent Document 1 has a problem in that it is difficult to manufacture and maintain, because the structure for removing chlorine, organic matter, and germs in raw water is removed and the process for sterilization and disinfection is complicated.

In addition, by adopting the water purification method using the water filter, it is troublesome to replace the water filter at any time for a certain period of time, and when management of the water filter is neglected, bacteria and other contaminants are generated in the water filter, There is a problem that negative water is supplied.

Patent Document 1: Korean Utility Model Registration No. 20-0249747

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a magnetic generating pump having a function of increasing dissolved oxygen in raw water, suppressing microorganisms by generating minute bubbles, A large drinking water machine equipped with a magnetic generation pump which is easy to manufacture and maintain and which can supply hygienic negative water to an individual without a separate water filter.

In order to solve the above problems, a large drinking water device equipped with a magnetic generation pump according to the present invention includes a first solenoid valve 100 for controlling the amount of raw water introduced from the outside, A magnetic induction pump 200 for changing the binding force of water molecules and mixing water and fine air to produce mixed water; and a spraying unit 200 for spraying mixed water, which is discharged from the magnetic generation pump 200, A centrifugal separator 400 for finely pulverizing air bubbles in the mixed water injected from the injection nozzle 300 to increase the solubility of oxygen in the mixed water; And a second solenoid valve (500) for controlling the amount of external discharge of mixed water flowing out of the centrifugal separator (400).

The magnetic generation pump 200 includes a main body housing 210 having a drive motor P therein and a rotor insertion hole 221 formed at the center of the main housing 210, A first magnetism generating unit 222 which is formed by perforating the magnet and has N magnetic poles 250 and S magnetic poles 260 having magnetic properties around the rotor inserting holes 221, And a driving motor P which is mounted on the rotor inserting hole 221 and is coupled to a shaft axis C of the driving motor P and rotated by a driving force of the driving motor P, A rotor 230 including a second magnetic generation part 231 which is disposed at an interval between the N pole magnets 250 and the S pole magnets 260, An inlet pipe 241 which surrounds the stator 220 and is connected to the front end of the main body housing 210 and into which the raw water flows, Characterized in that the cover consists of a bla housing 240 are discharge pipe 242 is formed for discharging to 300.

A venturi meter 600 is installed in the discharge pipe 242 and an air inlet hole 242a is formed at one side of the discharge pipe 242 so that external air is introduced into the venturi meter 600 , And a multi-stage mesh member (700) is formed inside the air inlet hole (242a) to refine the air drawn in from the outside.

The first mesh network 710 having a size of 100 microns, the second mesh network 720 having a size of 10 microns and the third mesh network 730 having a size 3 microns are sequentially arranged in the interior of the multi-stage mesh member 700 And the coral yarn 740 is accommodated in the lower part.

The inner circulation duct 800 is connected to the centrifugal separator 400 through the first solenoid valve 100 so that the amount of raw water A third solenoid valve 900 is formed to control the first solenoid valve 900.

As described above, according to the present invention, the magnetic generation pump having the function of increasing the dissolved oxygen in the raw water, suppressing the microbes by microbubbles and removing the chlorine is installed in the water purification line, It is easy to repair and it is possible to supply hygienic negative water to the consumer without a separate water filter.

FIG. 1 is a perspective view showing an external structure of a large drinking water machine equipped with a magnetic generation pump according to a preferred embodiment of the present invention. FIG.
FIG. 2 is a flowchart showing the entire configuration of a large drinking water handset equipped with a magnetic generation pump according to a preferred embodiment of the present invention
3 is a perspective view showing a state of a magnetic generation pump in a structure of a large drinking water machine equipped with a magnetic generation pump according to a preferred embodiment of the present invention.
FIG. 4 is an exploded perspective view showing a disassembled state of the magnetic generation pump in the structure of a large drinking water machine equipped with a magnetic generation pump according to a preferred embodiment of the present invention. FIG.
5 is a plan view showing the arrangement of the N and S pole magnets formed on the stator and the rotor of the magnetic generation pump in the structure of the large drinking water machine equipped with the magnetic generation pump according to the preferred embodiment of the present invention
6 is a perspective view showing a state of a multi-stage mesh member provided in a magnetic generation pump in a configuration of a large drinking water machine equipped with a magnetic generation pump according to a preferred embodiment of the present invention.
7 is a cross-sectional view showing a cross section of a magnetism generating pump in a configuration of a large drinking water machine equipped with a magnetic generation pump according to a preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, with reference to the accompanying drawings, a large water handwriter 1 having a magnetic generation pump according to an embodiment of the present invention will be described in detail. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

The large drinking water handler 1 equipped with the magnetic generation pump according to an embodiment of the present invention mainly includes a first solenoid valve 100, a magnetic generation pump 200, a centrifuge 400, a second solenoid valve 500 ).

Before describing the present invention, it should be noted that the present invention is a large drinking water handwheel (1) equipped with a magnetic generation pump, and is a device having a function of providing water that can be taken by human beings such as a water purifier or a water purifier.

First, the first solenoid valve 100 will be described. As shown in FIG. 2, the first solenoid valve 100 controls the flow rate of raw water supplied from the outside to the purifier body 10.

Next, the magnetic generation pump 200 will be described. 2, 3, and 4, the magnetic generation pump 200 is a component that removes residual chlorine and microorganisms in the raw water introduced from the outside and increases the dissolved oxygen (DO), and includes a main body housing 210 A stator 220, a rotor 230, and a cover housing 240.

The main body housing 210 is preferably formed with a seating portion (not shown) so that the driving motor P can be inserted and seated in the inside of the main body housing 210.

The stator 220 is a component formed at the front end of the main body housing 210 and includes a rotor insertion hole 221 and a first magnetic generation portion 222.

The rotor inserting hole 221 is inserted into the rotor 230 to be described later and can be rotated inside the stator 220 by the driving force of the driving motor P. [

5, the N-pole magnet 250 and the S-pole magnet 260 having magnetism around the rotor insertion hole 221 alternate with each other, And the attraction force of the water molecules of the raw water flowing into the magnetic generation pump 200 as the attraction force is applied by the electromotive force of the N pole magnet 250 and the S pole magnet 260 Thereby making it possible to break down the structure of the water molecule.

The rotor 230 is rotated by the driving force of the driving motor P and is a component that is seated on the rotor inserting hole 221 and is engaged with the shaft axis C of the driving motor P. [

On the other hand, an N pole magnet 250 and an S pole magnet 260 having magnetic properties, like the first magnetic generator 222, are alternately spaced apart from each other at a predetermined interval around the rotor 231 And the second magnetic generation portion 231 is disposed on the second magnetic generation portion 231. When the rotor 231 is rotated by the drive motor P, (+) Ion and (-) ion are generated between the inner side surfaces of the electron insertion hole 221 and the N pole magnet 250 and the S pole magnet 260 together with the first magnetic generator 222 The structure of the water molecule can be subdivided and ion activated by changing the binding force of the water molecules of the raw water flowing into the magnetic generation pump 200 owing to the attractive force generated by charging, It does not flow back to the pipe 241 but moves to the discharge pipe 242 to be described later, 0). ≪ / RTI >

The cover housing 240 is a kind of cover member coupled to the front end of the main body housing 210 when the stator 220 is wrapped around the inflow pipe 241 and the injection nozzle 300 And a discharge pipe 242 for discharge.

Meanwhile, a venturi meter 600 may be installed inside the discharge pipe 242. The venturi meter 600 is a flow rate changing device using the Bernoulli's principle, which corresponds to a level of technology well known in the technical field of the present invention, and thus a detailed description thereof will be omitted.

7, an air inlet hole 242a is formed at one side of the discharge pipe 242, and external air is introduced into the venturi meter 600 through the air inlet hole 242a. Thereby making it possible to mix water and air to produce mixed water.

At this time, it is preferable that the multi-stage mesh member 700 is provided inside the air inflow hole 242a so that fine air is generated by making the air introduced from the outside finer.

As shown in FIG. 6, the multi-stage mesh member 700 includes a first mesh network 710 having a size of 100 microns, a second mesh network 720 having a size of 10 microns, and a third mesh 720 having a size of 3 microns, And the net 730 are sequentially stacked so that the air introduced from the outside can be changed into fine air.

Further, by further accommodating the coral yarn 740 in the lower portion of the tank, residual chlorine in the mixed water can be removed.

As described above, due to the structure of the magnetic generation pump 200, the water molecules and the outside air of the raw water are refined and the bacteria in the water are sterilized by O- generated by the OH- bonding by the broken down water molecules (+) Ion and (-) ion to precipitate and remove odor, and at the same time, prevent foreign matter from adhering to the inside of the pipe through which water flows in and out.

Next, the centrifugal separator 500 will be described. The centrifugal separator 500 functions to increase the solubility of oxygen in the mixed water by finely pulverizing air bubbles in the mixed water injected from the injection nozzle 300 using the blades 410 provided therein.

Next, the second solenoid valve 500 will be described. The second solenoid valve 500 controls the amount of mixed water discharged when the mixed water flowing out of the centrifugal separator 400 flows out to a faucet (not shown) of the purifier body 10.

2, an inner circulation duct 800 connected directly to the centrifugal separator 400 is formed from the first solenoid valve 100, and the inner circulation duct 800 is connected to the inner circulation duct 800, The third solenoid valve 900 for regulating the amount of raw water flowing into the second solenoid valve 800 is configured so that raw water can be circulated by operating the third solenoid valve 900 when raw water is not used.

Meanwhile, the centrifugal separator 400 may be provided with a sensing sensor 420 for sensing the amount of dissolved oxygen in the mixed water. The third solenoid valve 900 is opened and closed by the sensing sensor 420 so that the third solenoid valve 900 is operated when the raw water is not used, It is possible to configure the raw water to be circulated until the set value of the dissolved oxygen amount set in the detection sensor 420 is reached.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: Large drinking bowl with magnetic pump
10: purifier body
100: first solenoid valve
200: Magnetic generating pump 210: Body housing
220: stator 221: rotor inserting hole
222: first magnetic generation section
230: Rotor 231: Second magnetic generating portion
240: cover housing 241: inlet pipe
242: discharge pipe 242a: air inflow hole
250: N pole magnet 260: S pole magnet
300: injection nozzle
400: Centrifuge 410: Blade
420: Detection sensor
500: Second solenoid valve
600: Venturi meter
700: Multistage mesh member 710: First mesh network
720: second mesh network 730: third mesh network
740: Coral Corp
800: internal circulation duct
900: Third solenoid valve

Claims (5)

A first solenoid valve (100) for regulating the amount of raw water flowing from the outside;
A magnetic generation pump 200 for introducing raw water to change the binding force of water molecules by magnetism and mixing water and fine air to produce mixed water;
A spray nozzle 300 for spraying the mixed water discharged from the magnetic generation pump 200 to the centrifugal separator 400;
A centrifugal separator 400 for finely pulverizing air bubbles in the mixed water injected from the injection nozzle 300 to increase the solubility of oxygen in the mixed water;
And a second solenoid valve (500) for controlling the amount of external discharge of mixed water flowing out from the centrifuge (400). The method according to claim 1,
The magnetic generation pump (200)
A main body housing 210 having a drive motor P therein,
A rotor inserting hole 221 is formed at the center of the main body housing 210 and an N pole magnet 250 and a S pole magnet 250 having magnetism around the rotor inserting hole 221 are formed at the center, A stator 220 including a first magnetism generating unit 222 installed at a predetermined interval and alternately arranged with a predetermined distance therebetween,
An N pole magnet (not shown) which is seated on the rotor inserting hole 221 and is coupled to the shaft axis C of the driving motor P and rotated by the driving force of the driving motor P, The rotor 230 includes a second magnetic generation part 231 which is spaced apart from the first magnetic generation part 231 by a predetermined distance,
An inlet pipe 241 for receiving raw water and an outlet pipe 242 for discharging mixed water to the injection nozzle 300 are formed at the top of the main body housing 210, And a cover housing (240) formed on the outer surface of the cover housing (240). The method of claim 2,
A venturi meter 600 is installed inside the discharge pipe 242,
An air inlet hole 242a is formed at one side of the discharge pipe 242 so that external air can be introduced into the venturi meter 600,
Wherein the air inlet hole (242a) is formed with a multi-stage mesh member (700) for refining air introduced from the outside. The method of claim 3,
Inside the multi-stage mesh member 700,
A first mesh network 710 having a size of 100 microns from the top, a second mesh network 720 having a size of 10 microns, and a third mesh network 730 having a size of 3 microns are sequentially stacked, and a coral yarn 740 is accommodated (1) having a magnetic generating pump. The method of claim 3,
An internal circulation line 800 directly connected from the first solenoid valve 100 to the centrifugal separator 400 is formed,
Wherein a third solenoid valve (900) is formed in the inner circulation line (800) to regulate the amount of raw water into the inner circulation line (800).

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