KR100860069B1 - Apparatus for purifying water having high oxygen content - Google Patents

Abstract

A cold/hot water dispenser for supplying water having high concentration oxygen is provided to improve safety and to prevent deaeration when mixing water with oxygen by operating operation handles for discharging a proper quantity of oxygen. A cold/hot water dispenser for supplying water having high concentration oxygen comprises a cold/hot water tank, a case, a discharge unit(59), an oxygen tank, a decompression unit, an oxygen inlet(46), an oxygen rate regulating valve(44), an oxygen water generating unit(50), and operation handles(8,10). The oxygen rate regulating valve is attached to a rear end of the oxygen inlet, and regulates an amount of oxygen to discharge a proper amount of oxygen by decompressing. The oxygen water generating unit has transferring channels(34,36), the discharge unit, an interrupting unit, and an interrupting valve(76). The transferring channels are connected to the oxygen rate regulating valve and a water inlet to transfer oxygen and water respectively. The operation handles are attached to an upper part of the oxygen water generating unit, and open a water transferring passage and the interrupting valve simultaneously by operating the interrupting unit.

Description

Cold and hot water machine to provide high concentration oxygen water {APPARATUS FOR PURIFYING WATER HAVING HIGH OXYGEN CONTENT}

1 is a perspective view showing the appearance of a cold and hot water machine for providing a high concentration of oxygen water according to an embodiment of the present invention,

Figure 2 is a side cross-sectional view showing the internal configuration of the cold and hot water machine for providing a high concentration oxygen water according to an embodiment of the present invention,

3 is a sectional side view showing main parts of an oxygen water generating unit of a cold / hot water machine for providing a high concentration oxygen water according to an embodiment of the present invention;

Figure 4a, 4b, 4c is a perspective view showing the accessory configuration of the cold and hot water machine for providing a high concentration oxygen water according to an embodiment of the present invention,

Figure 5 is a side cross-sectional view showing a flow control valve body of the cold and hot water heater for providing a high concentration oxygen water according to an embodiment of the present invention,

6 is a block diagram illustrating a circuit configuration of an oxygen water generator provided in a cold / hot water machine for providing high concentration oxygen water according to another exemplary embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

4: case, 8, 10: operation handle,

16: pneumatic lamp, 34, 36: transfer pipe,

40: oxygen container, 41: pressure detection unit,

42: pressure reducing means, 44: flow control valve body,

46: oxygen inflow pipe, 50: oxygen water generation unit,

52: body, 53: bonding plate,

59: discharge part, 76: intermittent valve,

82: oxygen cutting member, 84: vortex plate,

90: flow control part, 100: retention part.

The present invention relates to a cold and hot water machine for providing a high concentration of oxygen water, and more specifically, it is possible to discharge a certain amount of high-pressure oxygen only when drinking oxygen water to improve safety, maximize the contact area of water and oxygen and water and oxygen It relates to a cold and hot water machine for providing a high concentration of oxygen water to provide a high concentration of oxygen water by maximizing the residence time is mixed.

As is well known, oxygen is inhaled into the body by respiration, and is supplied to each organ of the human body by blood, and the supplied oxygen is consumed by brain activity and kinetic energy.

Oxygen consumption in vivo varies considerably between tissues, and the oxygen consumption of the brain is greater in the oxygen consumption between the brain and muscles. The brain, the largest oxygen consumer of all organs and organs, weighs only 1.4kg and is about 2% of the body's weight but about 25% of the body's consumption.

It doesn't have a substance like myoglobin that can store oxygen in the body like muscles, so the supplied oxygen is consumed all at once. When the air you breathe becomes anaerobic, the oxygen partial pressure required by the pulmonary blood does not occur, so there is a risk that even one breath of the anaerobic air may cause loss of consciousness.

Oxygen oxidizes our bodies and gives us resistance to infectious microbes and pathogens. You can't live without sending oxygen to every corner of your body. These movements are the heart and lungs, and the lungs have about 700 million lung cells (alveoli) from side to side to supply oxygen to the blood, and the pumping action of the heart to supply blood to the corners of the body.

Most people's blood is acidified due to lack of exercise and harmful foods, and cholesterol is attached to blood vessels, impeding blood flow and becoming a source of all adult diseases, but it can effectively restore the debilitated functions through the supply of fresh oxygen. .

On the other hand, water is the basis of life as a means of transporting and dissolving matter, the absorption, excretion, and transport is made in the dissolved state in the body, most of the biological reaction of the cell is in the liquid state.

55% to 75% of the human body is made up of water and occupies a large share in the human body. However, if the body lacks water, water is not a substance that can be stored in the body and must be supplied continuously. Water in the human body continues to circulate, and the balance of water is important to maintain it. Water is released through the lungs, kidneys, intestines, and skin.

Water also performs an important function of temperature control, preserving body temperature. This is because water absorbs and releases heat more slowly than anything else. Therefore, as described above, water containing a large amount of oxygen essential to the human body is an essential element for maintaining the health of our body.

Therefore, in recent years, the development of various devices for providing oxygen water has been spurred, such an oxygen water providing device generates oxygen using electrolysis or substitution reaction of ozone, and then dissolves the oxygen in water to produce oxygen water. In this case, but in this case, the equipment cost is also generated a lot, and there is a high risk of failing to produce an appropriate high concentration of oxygen depending on the conditions such as temperature.

In addition, the above conventional oxygen water supply apparatus is to supply oxygen to dissolve in water using an electronic control valve (aka, solenoid valve) in most cases, in this case, if the electronic control valve breaks down due to high-pressure oxygen There was a problem that the risk is very high. In other words, a certain amount of oxygen is required to develop a device so that only a proper amount is discharged when drinking water.

In addition, when the oxygen is provided to the pre-stored water through the conventional oxygen water providing device, the contact area between the oxygen and the water is not large, and the oxygen is released to the outside of the water so that the residence time of the oxygen and water is too long. Due to the shortness there was a problem that can not supply a high concentration of oxygen water.

The present invention has been made in view of the above-described prior art, and it is possible to discharge a certain amount of high-pressure oxygen only when drinking oxygen water, thereby improving safety, maximizing the contact area of water and oxygen, and mixing water and oxygen. It is an object of the present invention to provide a cold and hot water machine for providing a high concentration of oxygen water to provide a high concentration of oxygen water by maximizing the residence time.

In order to achieve the above object, according to a preferred embodiment of the present invention seating the water reservoir in the upper portion, the case having a cold inlet water passage, the water inlet pipe communicating with the cold and hot water passage therein; A cold / hot water dispenser for discharging water through a discharge unit attached to the case, comprising: an oxygen container provided inside the case and filled with oxygen; A decompression unit communicating with the oxygen vessel to reduce the pressure of oxygen discharged from the oxygen vessel; An oxygen inlet pipe communicating with the decompression unit and transferring oxygen passing through the decompression unit; A flow rate control valve body coupled to a rear end of the oxygen inlet pipe and configured to adjust an oxygen flow rate to discharge a predetermined amount of oxygen; Combined with each of the flow control valve body and the water inlet pipe is formed in the transfer path for transferring water and oxygen, respectively, and in communication with the water transfer path and the oxygen transfer path, respectively, the mixing furnace for mixing water and oxygen An oxygen water generating unit having a discharge unit provided thereon, an intermittent unit for intermittent the water transfer path, and an intermittent valve formed at an intermediate predetermined portion of the oxygen transfer path to regulate the oxygen transfer; It is coupled to the upper end of the body of the oxygen water generating unit, it is rotated during the operation to operate the intermittent part to open the water transfer path, and at the same time provides a high concentration oxygen water, characterized in that configured to include an operation handle to open the intermittent valve. Cold and hot water machine is provided.

Preferably, the flow control valve body and the flow rate control portion consisting of a cylindrical housing; It consists of a cylindrical stay portion coupled to the rear end of the flow control section, the flow control section is provided with a flow control port housing chamber that accommodates a spherical flow control port therein, the flow control port is free to flow therein. The front end of the flow control unit is coupled to the oxygen inlet pipe and has an inlet having an inflow path therein, and the retention section has a retention chamber for receiving and injecting a certain amount of oxygen therein. The discharge part is formed in the discharge passage communicating with the oxygen inflow path therein, the inclined surface is formed at the front edge of the connecting passage communicating the staying chamber and the flow control port storage chamber to close and close the flow control port and release the movement of oxygen. Provided is a cold and hot water machine for providing a high concentration of oxygen water, characterized in that intermittent.

Preferably, the mixing furnace is in close contact with the inner circumference, the cold and hot water machine for providing a high concentration oxygen water, characterized in that the oxygen cutting member further comprises a plurality of capillary pores formed to increase the contact area with water by cutting the oxygen Is provided.

Preferably, the inside of the oxygen cutting member is provided with a cold and hot water for providing a high concentration of oxygen water, characterized in that it further comprises a swirl plate twisted in the form of twist to increase the contact time of the oxygen and the water.

Preferably, the intermittent valve is provided with a cold and hot water for providing a high concentration of oxygen water, characterized in that the O-ring is further interposed on the predetermined portion of the outer periphery.

Preferably, the oxygen water generating unit attached to the front of the case is coupled to the plurality of O-rings are respectively spaced apart from the front of the coupling plate, the water inlet is formed in the center of the central O-ring, the oxygen inlet Provided is a cold or hot water machine for providing a high concentration of oxygen water, characterized in that the double O-ring structure formed in a predetermined portion between the central O-ring and another O-ring spaced apart.

Preferably, the lower predetermined portion of the operation handle is provided with a cold and hot water for protruding toward the intermittent valve side is provided with a pressing projection for pushing the intermittent valve is characterized in that the high concentration oxygen water.

Preferably, the oxygen inlet pipe further includes a pressure sensing unit for sensing the oxygen pressure in a predetermined portion of the middle, and is further attached to the front of the case, the pressure sensing unit further includes a pneumatic lamp that is turned on when detecting the oxygen below the set pressure Provided is a cold and hot water machine for providing a high concentration of oxygen water, characterized in that.

Preferably, the decompression unit is equipped with a plurality of pressure regulators therein, the high concentration oxygen water, characterized in that configured to perform a secondary decompression function to depressurize the high pressure to low pressure, and to sequentially decompress the low pressure oxygen to a low pressure Cold and hot water machine is provided to provide.

On the other hand, the present invention seats the water reservoir in the upper portion, the case having a water inlet pipe passed through the cold and hot water, the cold and hot water passing therein; A cold / hot water dispenser for discharging water through a discharge unit attached to the case, comprising: an oxygen container provided inside the case and filled with oxygen; A decompression unit communicating with the oxygen vessel to reduce the pressure of oxygen discharged from the oxygen vessel; An oxygen inlet pipe communicating with the decompression unit and transferring oxygen passing through the decompression unit; A flow rate control valve body coupled to a rear end of the oxygen inlet pipe and configured to adjust an oxygen flow rate to discharge a predetermined amount of oxygen; Combined with each of the flow control valve body and the water inlet pipe is formed in the transfer path for transferring water and oxygen, respectively, and in communication with the water transfer path and the oxygen transfer path, respectively, the mixing furnace for mixing water and oxygen A discharge part provided is formed, and an intermittent part is formed to control the water transfer path, and a solenoid valve is formed at an intermediate predetermined portion of the oxygen transfer path to regulate oxygen transfer, and is contacted by an operation handle to make a key signal. An oxygen water generator configured to pressurize the pressure button to generate the operation handle; It is coupled to the upper end of the body of the oxygen water generating unit, and rotated during operation to operate the intermittent part to open the water transfer path, and at the same time comprises a manipulation handle configured to contact the pressure button to open the solenoid valve Cold and hot water groups for providing oxygen water are provided.

EMBODIMENT OF THE INVENTION Hereinafter, the 1st Embodiment of this invention is described in detail with reference to drawings.

1 is a perspective view showing the appearance of a cold and hot water machine for providing a high concentration oxygen water according to an embodiment of the present invention, Figure 2 is an internal configuration of a cold and hot water machine for providing a high concentration oxygen water according to an embodiment of the present invention It is a side cross-sectional view shown.

Referring to this, the cold and hot water machine 2 for providing a high concentration of oxygen water according to an embodiment of the present invention improves safety by allowing a certain amount of high pressure oxygen to be discharged only when drinking oxygen water, and improves the contact area between water and oxygen. It is a device to provide high concentration of oxygen water by maximizing and maximizing the residence time of mixing water and oxygen.

In more detail, the cold / hot water machine 2 for providing high concentration oxygen water according to an embodiment of the present invention is provided with a case 4 constituting the outside thereof, similar to a typical cold / hot water machine, and a water reservoir 12 thereon. ) Is settled, and the front panel part 6 is comprised. In addition, the front predetermined portion of the front panel portion 6 is provided with operation handles 8 and 10 for operating cold water and hot water discharge, respectively.

In addition, the cold / hot water machine 2 for providing a high concentration of oxygen water according to an embodiment of the present invention is formed with a door 14 for replacing the oxygen container 40 in a predetermined portion of one side of the case (4) In addition, a pneumatic lamp 16 is attached to a predetermined front surface of the case 4 to warn that the oxygen pressure of the oxygen container 40 is lowered below a set pressure.

At this time, the pneumatic lamp 16 is a well-known device, when the pressure is lowered below the set pressure through the pressure sensing unit 41 mediated in the middle of the valve 46 for discharging oxygen, to turn on the red lamp do.

On the other hand, the cold water heater (2) for providing a high concentration of oxygen water according to an embodiment of the present invention also has a cold water tank 20 and a hot water tank 24 is disposed vertically and vertically inside the same as a conventional cold and hot water, A known freezing coil 22 is wound around the outer circumference of the cold water tank 20, and a known heating coil 26 is wound around the outer circumference of the hot water tank 24, and the freezing coil 22 A well-known heat exchange system is constructed by the decompressor 28, the heat exchanger 30, and the compressor 32.

At this time, the cold water tank 20 and the hot water tank 24 is in communication with the discharge portion formed with the operation handles (8, 10), respectively, and the transfer pipes (34, 36) for transferring cold water and hot water, respectively are formed And an oxygen container 40 filled with oxygen, which is located inside the case 4, and the oxygen container 40 is connected to the flow rate control valve body 44 of the present invention through the pressure reducing means 42. Is connected to the pipe, the flow control valve body 44 is connected to the oxygen inlet pipe 46, the oxygen inlet pipe 46 and the cold and hot water transfer pipes (34, 36) are mixed with water and oxygen The oxygen water generator 50 is provided to generate oxygen water.

At this time, the decompression means 42 (hereinafter, referred to as a decompression unit) is provided with a pressure regulator therein, the pressure regulator is a known product, although the oxygen container 40 is generally 150kg / cm ² Although a single pressure regulator for reducing the pressure of 5 kg / cm ² is used, in the present invention, a plurality of pressure regulators are mounted in series in the pressure reduction portion 42 to perform secondary pressure reduction. That is, when oxygen of 5 kg / cm ² pressure is discharged, since the contact time for dissolving in water is shortened and degassing occurs, in the present invention, a plurality of pressure regulators in the decompression unit 42, the final pressure The pressure is reduced to this pressure.

The flow control valve body 44 is a valve body for adjusting the flow rate of oxygen so that a certain amount of high-pressure oxygen can be discharged only when drinking oxygen water, the oxygen water generating unit 50 is the operation for oxygen water drinking When operating the handles 8 and 10, it is a means for dissolving the oxygen into the water discharged to dissolve in high concentration. In addition, the flow rate control valve body 44 is the third pressure reduction is made during the process of discharging the oxygen. It will be described in detail below.

Figure 3 is a side cross-sectional view showing the main portion of the oxygen water generating unit of the cold and hot water for providing a high concentration oxygen water in accordance with an embodiment of the present invention, Figure 4a, 4b, 4c is a high concentration oxygen water in accordance with an embodiment of the present invention It is a perspective view which shows the accessory structure of the cold / hot water machine for providing.

Referring to this, the oxygen water generating unit 50 of the cold / hot water machine 2 for providing high concentration oxygen water according to one embodiment of the present invention supplies water inlet pipes 34 and 36 and oxygen to supply cold water and hot water. The oxygen inlet pipe 46 and the rear end thereof are fastened to each other, and the oxygen water generator 50 has a transfer path 58 for transferring cold water or hot water therein, and an oxygen transfer path 73 for transferring oxygen. Is formed therein, and a body 52 having a mixing furnace 68 in which water and oxygen are mixed is provided, and a front end of the body 52 is formed with a discharge portion 59 bent vertically. .

In addition, the rear end of the body 52 is formed by extending the coupling plate 53 to which the water inlet pipes 34 and 36 and the oxygen inlet pipe 46 are fastened, respectively, in front of the coupling plate 53. A plurality of O-ring inserting holes 54 are formed, and a plurality of O-rings 56a and 56b are inserted to be spaced apart from each other through the O-ring inserting hole 54.

At this time, the transfer path 58 formed to communicate with the inside of the body 52 is formed in the center of the first O-ring 56a, the oxygen transfer path 73 is the first O-ring 56a and the second It is formed in the spaced part predetermined part of the o-ring 56b.

Therefore, the water flowing into the transfer path 58 is not discharged to the outside by the first O-ring 56a, and the oxygen introduced into the oxygen transfer path 73 is the first O-ring 56a and the second. The o-ring 56b is supplied to a necessary point without being discharged to the outside.

In addition, the transfer path 58 formed in the body 52 and the predetermined path in the middle of the path of the mixing path 68 is formed by the blocking surface 66 formed with a through hole to intermittently supply the water, the transfer path Between the 58 and the mixing furnace 68, a retention portion 60 in which water is retained is formed, and an intermittent portion 64 which is in close contact with the through hole of the blocking surface 66 and controls the supply of water is provided. The rod 62 is formed to extend on the upper end of the intermittent portion 64, and the upper end of the rod 62 is hinged to the operation handles 8 and 10. For convenience, the direction in which the oxygen inlet pipe 46 is formed is referred to as a front end and the rear end in the direction in which the manipulation handles 8 and 10 are formed.

Accordingly, when the lower ends 8a and 10a of the operation handles 8 and 10 are pushed in the A direction, the rod 62 hinged to the upper end of the operation handles 8 and 10 rotates upwards. The intermittent portion 64, which is pulled in the (B direction) and closes the through hole of the blocking surface 66, is separated from the blocking surface 66, so that the water in the retention portion 60 can be discharged to the mixing furnace 68 ( Water is transferred in the E direction).

In addition, an oxygen inflow path 72 is formed at a front surface of the coupling plate 53 to which the front end of the flow control valve body 44 coupled to one end of the oxygen inflow pipe 46 is coupled. A space in which the intermittent valve 76 is inserted is formed between the inflow path 72 and the oxygen transfer path 73, and an inclined surface 74 is formed at the front end of the space. The flow control valve body 44 will be described in detail with reference to FIG. 4.

The intermittent valve 76 has an intermittent part 80 formed at the front end thereof, and an O-ring 81 is coupled to the rear end of the intermittent part 80, and a pressurizing part at the rear end of the intermittent valve 76. 78 is formed, and a pressing projection 70 for pressing the pressing portion 78 protrudes forward at a front center predetermined portion of the manipulation handles 8 and 10.

On the other hand, the intermittent valve 76 is a spring (not shown) is interposed in a predetermined portion of the outer periphery, so that the intermittent valve 76 is always kept closed.

Therefore, the cold / hot water machine 2 for providing the high concentration oxygen water according to an embodiment of the present invention to drink the water stored in the cold water tank 20 and the hot water tank 24, the operation handle (8, 10) When the lower end portions (8a, 10a) of the pushed in the A direction, the path between the transfer path 58 and the mixing furnace 68 is opened to discharge water into the mixing furnace 68, and at the same time the operation handle ( The pressurizing protrusion 70 protruding to the front end of the 8, 10 presses the pressurizing portion 78 of the check valve 76 (moved in the C direction and pressurized). The O-ring 81 coupled to the rear end is separated from the inclined surface 74 to open the path to the oxygen transfer path 73 so that oxygen flows into the mixing path 68 (oxygen transfer in the D direction). .

On the other hand, the oxygen water generating unit 50 of the cold and hot water heater (2) for providing a high concentration of oxygen water according to an embodiment of the present invention is oxygen in the inner circumference of the mixing furnace 68 that is the interior of the discharge portion (59) When the cutting member 82 is inserted, the oxygen cutting member 82 is inserted into the inner circumference of the mixing furnace 68 and at the same time in close contact with the oxygen transfer path 73 to be transferred through the oxygen transfer path 73. The oxygen is forced to pass through the oxygen cutting member 82.

At this time, the oxygen cutting member 82 is a plurality of micro holes (82a) is formed in the body, as shown in Figure 4b is the oxygen is passed through the oxygen through the micro holes (82a) to be oxygen and The contact area of water is enlarged to produce high concentration of oxygen water.

In addition, the vortex plate 84 is inserted into the oxygen cutting member 82, the vortex plate 84 is a twisted plate twisted as shown in Figure 4c, the vortex plate 84 The longer the residence time of the oxygen passed through the oxygen washing member 82 and the water introduced into the mixing furnace 68 through the transfer path (58) is longer through. As the residence time of the mixture increases, the contact area and the contact time of oxygen and water can be extended to provide a high concentration of oxygen water.

Figure 5 is a side cross-sectional view showing a flow control valve body of a cold and hot water heater for providing a high concentration oxygen water according to an embodiment of the present invention.

Referring to this, the flow control valve body 44 passes through the pressure reducing unit 42 for reducing the oxygen pressure charged in the oxygen container 40 to discharge a certain amount of oxygen through the oxygen inlet pipe 46. By intermittently intermittent, it has a structure to simultaneously perform decompression function and quantitative discharge function. Already, since the pressure reducing unit 42 includes a plurality of pressure regulators (not shown), the first pressure reducing to reduce the high pressure to low pressure and the second pressure reducing to reduce the low pressure to low pressure are performed. The flow rate control valve body 44 provided at the rear end performs the pressure reducing function again, and performs the function of controlling to discharge only a certain amount of oxygen. That is, not all oxygen mixed with water is dissolved in water, so it is necessary to generate high concentrations of oxygen while efficiently managing the consumption of oxygen. Therefore, the flow regulating valve 44 is controlled to discharge only the amount of oxygen that can be dissolved.

In more detail, the flow regulating valve body 44 is composed of a flow control section 90 formed of a cylindrical housing, and a cylindrical stay portion 100 coupled to the rear end of the flow control section 90.

The flow control section 90 accommodates a spherical flow control device 98 therein, and has a flow control device housing 92 so that the flow control device 98 can flow in a non-directional manner therein. The inlet 94 is coupled to the oxygen inlet pipe 46 at the front end of the flow control section 90, the inlet path 96 is formed inside the inlet 94 The inflow passage 96 is in communication with the flow rate control opening housing 92.

At this time, the staying part 100 is formed to protrude a fastening part which is fastened to the flow rate control part 90 at the front end, and a thread line (a screw line) at the outer circumference of the fastening part and the inner circumference of the fastening hole of the flow rate control part 90. 102 is formed, so it is fastened by screwing.

In addition, the retention part 100 is provided with a retention chamber 108 for receiving and retaining a predetermined amount of oxygen therein, and a connection passage 104 communicating with the retention chamber 108 in the front end fastening portion. Is formed, and the discharge part 110 of the rear end has the discharge path 112 communicating with the oxygen inflow path 72 is formed therein. At this time, the discharge unit 110 is directly coupled to the oxygen inlet passage 72 or coupled through a separate pipe.

In addition, the front edge of the connection path 104 is formed in the inclined surface 106, the oxygen supplied to the flow control section 90 is in close contact with the flow control outlet 98 and the retention portion 100 Will be interrupted.

Next, the operation of the flow regulating valve body 44 of the cold / hot water machine for providing the high concentration oxygen water according to the embodiment of the present invention is provided in the inlet 94 of the flow regulating valve body 44. The position of the flow rate intermittent outlet 98 is determined depending on whether the intermittent valve 76 shown in FIG. 3 is opened or closed.

That is, if the intermittent valve 76 is closed, the pressure in the staying chamber 108 is not reduced, so that the flow rate intermittent port 98 is inclined surface of the connection path 104 formed in the staying part 100. The contact is released from the 106 and the oxygen remaining in the oxygen inlet pipe 46 is moved into the residence chamber 108 and the discharge passage 112 through the inflow passage 96 and the connection passage 104. .

At this time, the oxygen moved into the staying chamber 108 and the discharge path 112 is reduced to a low pressure, but because the high pressure than the oxygen in the free state, when the discharge conditions are made to the mixing furnace 68 side Will be discharged.

In this state, when the intermittent valve 76 is opened, the oxygen remaining in the residence chamber 108 and the discharge passage 112 is discharged at its own pressure, so that the pressure in the residence chamber 108 is reduced. Thus, the flow rate intermittent hole 98 is in close contact with the inclined surface 106 of the connection path 104 formed in the retention portion 100, the oxygen remaining in the oxygen inlet pipe 46 is the inflow path 96 And it cannot be moved to the staying room 108 through the connection path 104. Therefore, only the quantity of oxygen remaining in the residence chamber 108 and the discharge passage 112 is discharged to the mixing furnace 68 side due to its own pressure.

Therefore, since the flow regulating valve body 44 has a mechanical structure, there is no fear of failure than when employing a simple electronic control valve, thereby ensuring safety. In addition, the flow control valve body 44 is to discharge the quantitative oxygen through the flow control valve 98 inside, so that it is possible to perform the third pressure reduction to naturally reduce the pressure of low pressure to a low pressure to be mixed with water When it is possible to easily dissolve the oxygen while eliminating the degassing phenomenon.

At this time, the amount of oxygen discharged through the flow rate control port 98 is the volume of the retention chamber 108 and the discharge path 112.

EMBODIMENT OF THE INVENTION Hereinafter, the 1st Embodiment of this invention is described in detail with reference to drawings.

6 is a block diagram illustrating a circuit configuration of an oxygen water generator provided in a cold / hot water machine for providing high concentration oxygen water according to another exemplary embodiment of the present invention.

Referring to this, the oxygen water generator (not shown in FIG. 3) provided in the cold / hot water machine for providing high concentration oxygen water according to another embodiment of the present invention is the mechanism shown in the oxygen water generator 50 of FIG. 3. The solenoid valve 122 which is an electronic control valve is comprised in the position of the control valve 76 of an appropriate structure.

That is, the flow regulating valve body 44 maintains its configuration in the same way, and forms the solenoid valve 122 at the position of the intermittent valve 76 to form the oxygen inflow path 72 formed on the coupling plate 53. And the path between the oxygen transfer path 73 and the circumference.

In addition, the pressurizing button 120 is configured to generate a key signal for opening the solenoid valve 122 at a position where the pressing protrusion 70 of the operation handles 8 and 10 is in close contact.

In addition, the oxygen water generating unit provided in the cold and hot water heater for providing high concentration oxygen water according to another embodiment of the present invention is provided with a solenoid valve driving unit 124 for opening and closing the solenoid valve 122, the solenoid valve A switching unit 126 is provided to switch the power to the 122, and a control unit 128 is provided to control the opening and closing of the switching unit 126 by receiving an operation signal of the pressing button 120.

In addition, the solenoid valve opening time data generated from the control unit 128 is stored in its own memory or a separate memory 130 of the control unit 128.

Therefore, when the pressure button 120 is pressed by the operation handles 8 and 12 attached to the cold / hot water machine, the controller 128 receives the signal to open the solenoid valve 122 for a predetermined time. Oxygen remaining in the retention chamber 108 of the flow regulating valve body 44 is discharged to the mixing furnace 68 side.

On the other hand, the cold or hot water machine for providing a high concentration of oxygen water according to an embodiment of the present invention is not limited to the above embodiment, but various modifications can be made within the scope not departing from the technical gist.

As described above, the cold and hot water machine for providing the high concentration oxygen water according to the present invention can be mixed with water and oxygen by one operation handle operation so that oxygen can be dissolved in the water, and the flow control valve body is constituted. There is no fear of breakdown, and because only the quantity of oxygen is discharged, there is no waste of oxygen, thereby ensuring safety, eliminating the degassing when mixing water and oxygen, and By maximizing the contact area between oxygen and water and maximizing the contact time between oxygen and water, there is an advantage that can generate a high concentration of oxygen water.

Claims (10)

A case having a water reservoir mounted on an upper portion thereof, and having a water inlet pipe communicating with the hot and cold water therethrough; In the cold and hot water machine for discharging water through the discharge portion attached to the case, An oxygen container provided inside the case and filled with oxygen; A decompression unit communicating with the oxygen vessel to reduce the pressure of oxygen discharged from the oxygen vessel; An oxygen inlet pipe communicating with the decompression unit and transferring oxygen passing through the decompression unit; A flow rate control valve body coupled to a rear end of the oxygen inlet pipe to adjust a oxygen flow rate to discharge a fixed amount of oxygen so that a decompression function is achieved; Coupled with the flow control valve body and the water inlet pipe, respectively, a transport path for transporting water and oxygen, respectively, is formed inside the oxygen water generator, and communicates with the water transport path and the oxygen transport path to mix water and oxygen, respectively. An oxygen water generating unit having a discharge part having a mixing path, an intermittent part for intermitting the water transfer path, and an intermittent valve provided at an intermediate predetermined portion of the oxygen transfer path to regulate the oxygen transfer; It is coupled to the upper end of the body of the oxygen water generating unit, by rotating during operation to operate the intermittent to open the water transfer path, and at the same time to provide a high concentration oxygen water, characterized in that it comprises an operating handle for opening the intermittent valve Cold and hot water machine. According to claim 1, wherein the flow control valve body and the flow rate control portion consisting of a cylindrical housing; It consists of a cylindrical stay portion coupled to the rear end of the flow control section, the flow control section is provided with a flow control port storage chamber that accommodates a spherical flow control port therein, the flow control port is free to flow therein. The front end of the flow control unit is coupled to the oxygen inlet pipe and provided with an inlet having an inflow path therein, and the retention section is provided with a retention chamber for receiving and injecting a certain amount of oxygen into the retention section. The discharge portion of the rear end is formed in the discharge passage communicating with the inflow passage therein, the inclined surface is formed at the front edge of the connecting passage communicating the staying chamber and the flow control port storage chamber is in close contact with the flow control outlet and the oxygen movement while By intermittently, the high concentration oxygen water, characterized in that the discharge of quantitative oxygen and decompression function is performed Hot and cold water machine to provide. The method of claim 1, wherein the oxygen contact member is in close contact with the inner circumference of the mixing furnace, the oxygen cutting member formed with a plurality of capillaries to increase the contact area with water by cutting the oxygen further provides a high concentration oxygen water. Cold and hot water machine. The hot and cold water heater according to claim 3, further comprising a vortex plate twisted in a twisted form to increase the contact time between the oxygen and the water, which is cut in the oxygen cutting member. According to claim 1, wherein the intermittent valve is a cold and hot water machine for providing a high concentration oxygen water, characterized in that the O-ring is further interposed in the predetermined portion of the outer periphery. According to claim 1, wherein the oxygen water generating unit attached to the front of the case is coupled to the plurality of O-rings are spaced apart from each other on the front of the coupling plate formed at the front end of the oxygen water generating unit, the water transfer path in the center of the central O-ring And the oxygen transfer path has a double O-ring structure formed at a predetermined portion between a central O-ring and another O-ring spaced apart from the central O-ring. The cold / hot water machine according to claim 1, wherein the lower end predetermined portion of the operation handle protrudes toward the intermittent valve to form a pressurizing protrusion for pushing the intermittent valve. The pneumatic lamp of claim 1, wherein the oxygen inlet pipe further includes a pressure sensing unit for sensing an oxygen pressure in a predetermined portion of the oxygen inlet tube, and is attached to the front of the case to light up when the pressure sensing unit senses oxygen below a set pressure. Cold and hot water machine for providing a high concentration oxygen water, characterized in that it further comprises. The method of claim 1, wherein the decompression unit is provided with a plurality of pressure regulators therein, the high pressure to low pressure, and configured to perform a second pressure reduction function to sequentially reduce the low pressure oxygen to a low pressure Cold and hot water machine to provide high concentration oxygen water. A case having a water reservoir mounted on an upper portion thereof, and having a water inlet pipe communicating with the hot and cold water therethrough; In the cold and hot water machine for discharging water through the discharge portion attached to the case, An oxygen container provided inside the case and filled with oxygen; A decompression unit communicating with the oxygen vessel to reduce the pressure of oxygen discharged from the oxygen vessel; An oxygen inlet pipe communicating with the decompression unit and transferring oxygen passing through the decompression unit; A flow rate control valve body coupled to a rear end of the oxygen inlet pipe and configured to adjust an oxygen flow rate to discharge a predetermined amount of oxygen; Coupled with the flow control valve body and the water inlet pipe, respectively, a transport path for transporting water and oxygen, respectively, is formed inside the oxygen water generator, and communicates with the water transport path and the oxygen transport path to mix water and oxygen, respectively. A discharge part having a mixing path is formed, an intermittent part is formed to control the water transfer path, and a solenoid valve is formed at an intermediate predetermined portion of the oxygen transfer path to regulate oxygen transfer, and is contacted by an operation handle. An oxygen water generator configured to press the button to generate a key signal; It is coupled to the upper end of the body of the oxygen water generating unit, and rotated during operation to operate the intermittent part to open the water transfer path, and at the same time comprises a manipulation handle configured to contact the pressure button to open the solenoid valve Cold and hot water machine to provide oxygen water.

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