TWM542031U - Saturated hydrogen water producer - Google Patents

Description

Saturated hydrogen water manufacturing device

The present invention relates to a process for hydrogen water, especially a device for repeatedly charging natural water in a closed pressure tank to spray hydrogen to completely dissolve hydrogen to form a saturated hydrogen water of saturated hydrogen water.

According to the human body, the metabolism is an oxidation reaction, which naturally generates free radicals. In addition, in the process of resisting foreign pathogens, the white blood cell phagocytic bacteria will also have free radicals; because the free radicals have a strong oxidizing power, It attacks the cells and damages the cells; the medical community generally believes that free radicals are one of the root causes of various chronic diseases, cancers, and even human aging. Hydrogen is a kind of antioxidant with strong reducing power. Since hydrogen can selectively combine with active oxygen radicals with positive potential to generate water, clinical experiments have shown that hydrogen can reduce the amount of free radicals in human body. It achieves the effect of reducing the acidic body to a healthy alkaline body, thereby achieving anti-oxidation, anti-aging and even eliminating chronic diseases. One of the methods for utilizing hydrogen in the human body is to dissolve hydrogen into water to form hydrogen water, and the function of drinking hydrogen water is to use water as a carrier to facilitate the hydrogen gas to enter the body to produce a reducing effect on its harmful free radicals.

In recent years, many companies have invested in the development of hydrogen water generators, and most household hydrogen water generators use electrolyzed water or react with magnesium to react hydrogen into water. However, the way of electrolyzing water will be at its electrodes. The deposit of minerals affects the water quality, and the magnesium reaction will leave residual magnesium oxide in the water, both of which must be filtered to ensure the quality of the hydrogen water, but one more filtration process will make the hydrogen in the hydrogen water escape. And reduce its concentration. In the prior art, there is an invention patent of I485116 "Method for producing hydrogen-containing water for beverages", and the main discussion of the invention patent is "the nitrogen, oxygen, etc. dissolved in the raw water at atmospheric pressure at room temperature may hinder the dissolution of hydrogen. And make it dissolve hydrogen concentration It is far less than the saturated concentration of hydrogen; therefore, when the pressure vessel after removing nitrogen and oxygen is filled with hydrogen gas and the hydrogen in the pressure vessel is maintained at 2 to 10 atmospheres, the hydrogen gas will be efficiently dissolved in the original gas. In the water." Therefore, the apparatus of the invention includes a degassing tower 6, an electrolysis unit 7, a hydrogen dissolving tower 8, and an MF unit 10, as shown in Fig. 1, and the hydrogen water generating step includes: (a) raw water Purification step, (b) raw water degassing step, (c) hydrogen dissolving step, (d) sterilization step, (e) filling step, (f) heat sterilization step; and MF microfiltration step shown in the scheme . Since the invention patent uses a vacuum degassing tower to remove gas in the water, the running cost is very high, and the degassing process causes the raw water to lose nitrogen, oxygen and the like to change the water quality; further, the invention uses an electrolysis device to make the raw water Hydrogen is produced, and the amount of hydrogen will not be sufficient to supply continuous production, that is, the insufficient amount of hydrogen will make the hydrogen solution not reach saturation, and the subsequent MF microfiltration process will reduce the hydrogen dissolved in the hydrogen water. The concentration further affects the quality of the hydrogen water; based on the foregoing phenomenon, although the invention can achieve the effect of continuous mass production, the manufacturing method has at least high production cost, water quality change, hydrogen dissolution not saturated, and hydrogen gas. Escapes to reduce the lack of hydrogen concentration.

The reason is that the main purpose of this creation is to provide a device for producing saturated hydrogen water so that the hydrogen gas dissolved in the produced hydrogen water can be saturated, and the hydrogen gas will not escape for a long time.

The second objective of the present invention is to provide a manufacturing apparatus for saturated hydrogen water, which has the advantages of simple process steps, low production cost, and continuous mass production required for industrial production.

Another object of the present invention is to provide a device for manufacturing saturated hydrogen water, in which natural water does not need to be degassed, so that the produced hydrogen water still retains the sweet taste of nitrogen, oxygen and the like.

A further object of the present invention is to provide a device for producing saturated hydrogen water which has a high negative voltage for producing hydrogen gas, thereby highly degrading the harmful free radicals in the human body.

This creation uses natural water as the raw material for making saturated hydrogen water. According to the pH value of natural water. Between 6.5 and 9.5, the taste is sweet and easy to be absorbed by the human body. It is not only suitable for long-term drinking, but also contains a proper amount of minerals such as calcium, magnesium, sodium, iron and fluorine, which can supplement our lost or missing ingredients. It is more beneficial to health.

In order to achieve saturated hydrogen water with natural water, the device used in the creation includes: a water storage tank and a hydrogen tank for storing natural water and hydrogen, respectively; and a pressure tank, which is a closed container, The inner edge has a first accommodating space, and the outer edge is provided with a heat insulating layer; the top end of the first accommodating space is connected to the water storage bucket by a first inlet pipe and a first control valve, so that the natural quantity is quantitative The water is injected into the lower half of the first accommodating space; the first air inlet pipe and the second control valve are coupled to the hydrogen gas tank, so that the constant pressure hydrogen gas is continuously introduced into the upper half of the first accommodating space; a pump, the front end of which is connected to the bottom end of the first accommodating space by a first water outlet pipe, and the rear end of the pump is inserted into the top end of the first accommodating space by a return pipe, and a water is installed at the outlet thereof. The curtain sprayer repeatedly extracts natural water, and then pressurizes the hydrogen gas in a water curtain state after being pressurized, so that the hydrogen gas is dissolved into the natural water to gradually form saturated hydrogen water; an exhaust safety valve is installed in the first At the top of the containment space, hydrogen will be discharged to maintain the pressure tank a pressure detector; a concentration detector is installed at the lower end of the first accommodating space to detect the hydrogen content in the hydrogen water; and a filling device has a second accommodating space at the inner edge thereof The second outlet pipe is connected to a third control valve to connect the bottom end of the first accommodating space for filling the saturated hydrogen water produced by the pressure tank; a control unit is electrically connected to the pump, the concentration detector, The first control valve, the second control valve, and the third control valve are configured to control the opening and closing of the pump and the flow rate required for each of the control valves.

Thereby, when the pressure tank is filled with a certain amount of natural water and constant pressure hydrogen, the pump will repeatedly extract natural water to spray the hydrogen in a water curtain state, and the natural water will present a larger surface area like water. The water is cut like a knife, and the hydrogen is easily dissolved into the natural water to form hydrogen water; when the hydrogen water in the pressure tank is saturated with hydrogen, the saturated hydrogen water is introduced into the filling device.

According to the pre-existing feature, the present invention further includes an ice water layer between the first accommodating space and the heat insulating layer; and a drain pipe is disposed at the bottom end of the ice water layer for draining, and the side end thereof is The second inlet pipe is connected to an ice water tank via a fourth control valve to inject ice water, and a temperature detector is installed in the pressure tank to detect the temperature of the natural water, and the fourth control valve and the temperature detector are further The control unit is electrically connected to control the ice water of the ice water layer to maintain the temperature of the natural water in the pressure tank at a temperature uniform state.

According to the foregoing features, the present invention further includes installing a water level detector and a pressure detector in the pressure tank, and electrically connecting with the control unit respectively, so that the control unit can further control the pressure tank. Natural water reaches a certain amount and its hydrogen reaches the rated pressure.

According to the foregoing feature, the present invention further includes installing a fifth control valve in the filling device, and connecting the hydrogen tank via a second intake pipe, and the fifth control valve is electrically connected to the control unit. The control unit can control the hydrogen flow rate to further increase the hydrogen concentration of the saturated hydrogen water.

According to the foregoing feature, in the present creation, the hydrogen gas barrel is further connected to a hydrogen generating device at the front end.

With the help of the previous features, this creation has the following benefits:

(1) This creation is to repeatedly spray the natural water of constant temperature and pressure on the constant pressure hydrogen gas. Since the natural water system has a large area and cuts hydrogen like a water jet, the hydrogen gas will be easily dissolved into the natural water. The saturated hydrogen water is gradually formed, and the saturated hydrogen water can maintain a stable state in which hydrogen does not escape for a long time.

(2) The creation system uses a pressure-controlled barrel with constant temperature control for hydrogen dissolving operation, and the steps of the process are extremely simple and the production cost is low, and the continuous mass production benefit required for industrial production is met.

(3) In the production steps of this creation, the natural water does not need to be degassed, and the water quality of the natural water does not change, so the hydrogen water produced by the production still retains the sweet taste of nitrogen, oxygen and the like.

(4) This creation is repeatedly sprayed in a pressure tank with water curtain-like natural water on a constant pressure of hydrogen. The length of the iteration can change the negative potential of saturated hydrogen water, and the saturated hydrogen water with high negative voltage. will It has a highly reducing effect on harmful free radicals in the human body.

10‧‧‧Water bucket

11‧‧‧First inlet pipe

20‧‧‧hydrogen barrel

21‧‧‧First intake pipe

22‧‧‧Second intake manifold

23‧‧‧Exhaust safety valve

24‧‧‧ Hydrogen generating device

30‧‧‧ ice bucket

40‧‧‧pressure bucket

41‧‧‧First accommodation space

42‧‧‧Insulation

43‧‧‧ ice water layer

44‧‧‧Drainage pipe

45‧‧‧Second inlet pipe

46‧‧‧

47‧‧‧First outlet pipe

48‧‧‧Return pipe

49‧‧‧Water curtain sprayer

50‧‧‧Control unit

51‧‧‧First control valve

52‧‧‧Second control valve

53‧‧‧third control valve

54‧‧‧fourth control valve

55‧‧‧ fifth control valve

60‧‧‧ filling device

61‧‧‧Second accommodation space

62‧‧‧Second outlet

71‧‧‧Water level detector

72‧‧‧ Pressure detector

73‧‧‧ Temperature detector

74‧‧‧ concentration detector

C1‧‧‧Low-temperature ice water

C2‧‧‧heating ice water

H1‧‧‧ Hydrogen

W1‧‧‧ natural water

W2‧‧‧ Hydrogen water

W3‧‧‧Saturated hydrogen water

Figure 1 is a block diagram of a prior art hydrogen-containing water device for beverages.

Figure 2: Block diagram of the process steps in this creation.

Figure 3: Block diagram of the device in this creation.

Figure 4: Control block diagram of the control unit in this creation.

First, please refer to Figure 2, which is the process steps of the creation, including: (A) injecting a certain amount of natural water (B) thermostatically controlling natural water (C) introducing constant pressure hydrogen (D) hydrogen dissolving to form hydrogen water (E) Detection of hydrogen concentration (F) Filled with saturated hydrogen water. Wherein, in step A, natural water is injected into the lower half of a sealed pressure tank, and a control unit is coupled to a water level detector and a control valve to inject natural water into the pressure tank for quantification. The thermostatically controlled natural water in step B is connected to a temperature detector and a control valve by a control unit, so that ice water is injected into the outer layer of the pressure tank to exchange heat with the natural water, and the natural water is controlled to be in a uniform temperature state. In step C, the constant pressure hydrogen is introduced, and the application control unit is connected to a pressure detector and a control valve to continuously introduce hydrogen into the upper half of the pressure tank and maintain the constant pressure state. Further, the hydrogen in the D step is dissolved, and the natural water is extracted from the bottom end of the pressure tank to be pressurized, and then the hydrogen is sprayed from the top of the pressure tank in a water curtain state, so that the hydrogen is dissolved in the natural water to gradually form saturated hydrogen water; The hydrogen concentration is measured by a concentration detector to measure the hydrogen concentration in the hydrogen water. In principle, the hydrogen concentration must be >950 ppb. The filling of the saturated hydrogen water in the last step F means that when the hydrogen gas of the hydrogen water in the pressure tank reaches a saturated state, the saturated hydrogen water can be introduced into the filling device.

Please refer to FIG. 3, which is a block diagram of the device in the present invention, which includes a water storage tank 10 for storing natural water W1, a hydrogen tank 20 for storing hydrogen H1, and an ice water tank 30 for The low temperature ice water C1 is stored; a pressure tank 40 is a closed container, and the inner edge is provided with a first The accommodating space 41 is provided with a heat insulating layer 42, and an ice water layer 43 is disposed between the first accommodating space 41 and the heat insulating layer 42. The apex of the first accommodating space 41 is The first water inlet pipe 11 and a first control valve 51 are coupled to the water storage tank 10 to inject a certain amount of natural water W1 into the lower half of the first accommodating space 41; and a first air inlet pipe 21 and a The second control valve 52 is connected to the hydrogen tank 20, and the constant pressure hydrogen gas H1 is continuously introduced into the upper half of the first accommodating space 41; an exhaust safety valve 23 is installed in the first accommodating space 41. The top end, the purpose of which is to discharge the hydrogen gas H1 so that the pressure tank 40 does not overpressure burst, and the hydrogen gas H1 maintains a rated pressure in the first accommodating space 41; according to the hydrogen gas H1 in the sealed pressure tank 40 The inside of the ice water layer 43 is provided with a drain pipe 44 for discharging the warmed ice water C2, and the side end thereof is further connected by a second inlet pipe 45. The fourth control valve 54 is connected to the ice water tub 30 to inject the low temperature ice water C1.

a front end of the first accommodating space 41 is connected to the bottom end of the first accommodating space 41 by a first outlet pipe 47, and the rear end of the pump 46 is inserted into the top end of the first accommodating space 41 by a return pipe 48, and The outlet is provided with a water curtain sprayer 49, so that the natural water W1 or the hydrogen water W2 is repeatedly extracted continuously, and then the hydrogen H1 is sprayed in a water curtain state, and the natural water W1 or the hydrogen water W2 passes through the water curtain. After the sprinkler 49, a larger surface area is presented, and the hydrogen H1 is cut like a water jet, so that the hydrogen H1 is easily dissolved into the natural water W1 or the hydrogen water W2 to form a saturated hydrogen water W3; a filling device 60 having an inner edge A second accommodating space 61 is connected to the bottom end of the first accommodating space 41 by a second water outlet pipe 62 and a third control valve 53 when the saturated hydrogen water W3 is formed in the first accommodating space 41. Then, the saturated hydrogen water W3 will be introduced into the filling device 60.

In the device, a water level detector 71 is installed in the pressure tank 40 to detect the water level of the natural water W1 in the first accommodating space 41. A pressure detector 72 is used to detect the first accommodating space. The pressure of the hydrogen H1 in the 41; a temperature detector 73 to detect the temperature of the natural water W1 in the first accommodating space 41; and a concentration detector 74 for detecting the hydrogen in the first accommodating space 41 Hydrogen H1 content of water W2. a control unit 50 electrically connected to the water level detector 71, the pressure detector 72, and the temperature a detector 73, a concentration detector 74, a pump 46, a first control valve 51, a second control valve 52, a third control valve 53, and the fourth control valve 54 to determine the water level in the first accommodating space 41. Whether the water temperature, hydrogen pressure and hydrogen concentration reach the rated value, and accordingly control the opening and closing of the pump 46 and the flow rate required for each control valve 51/52/53/54.

The apparatus further includes a hydrogen generating device 24 connected to the front end of the hydrogen tank 20 to continuously supply the hydrogen gas H1 to the hydrogen tank 20; and a fifth control valve 55 installed in the filling device 60, and The second intake pipe 22 is connected to the hydrogen tank 20, and the fifth control valve 55 is electrically connected to the control unit 50, so that the control unit 50 can control the flow rate of the hydrogen H1 to further increase the hydrogen concentration of the saturated hydrogen water W3. .

4 is a control block diagram of the control unit in the present creation; first, the control unit 50 detects the addition amount of the natural water W1 in the pressure tank 40 through the water level detector 71, and if the water level is not reached, the control unit 50, the first control valve 51 is continuously opened, until the water level detector 71 detects that the natural water W1 in the pressure tank 40 has reached the rated water level, the control unit 50 closes the first control valve 51; the connection, the control unit 50 The temperature of the natural water W1 in the pressure tank 40 is detected by the temperature detector 73. If the temperature is not reached, the control unit 50 continues to open the fourth control valve 54 to inject the low-temperature ice water C1 to the ice water layer 43 to make it The natural water W1 performs heat exchange until the temperature detector 73 detects that the natural water W1 in the pressure tank 40 has reached the rated temperature, and the control unit 50 closes the fourth control valve 54. In the second case, the control unit 50 transmits the pressure detector 72 to detect the pressure of the hydrogen H1 in the pressure tank 40. If the rated pressure is not reached, the control unit 50 continues to open the second control valve 52 until the pressure is reached. When the detector 72 detects that the hydrogen gas H1 in the pressure tank 40 has reached the rated pressure, the control unit 50 closes the second control valve 52. Furthermore, the control unit 50 transmits the concentration detector 74 to detect the hydrogen H1 content of the hydrogen water W2 in the pressure tank 40. If the rated concentration is not reached, the control unit 50 continuously turns on the pump 46 to continuously The natural water W1 or the hydrogen water W2 is extracted and the hydrogen H1 is sprayed in the form of a water curtain, so that the hydrogen H1 is dissolved in the natural water W1 or the hydrogen water W2 until the concentration detector 74 detects that the hydrogen water W2 in the pressure tank 40 has reached the rated concentration. ,that is When the saturated hydrogen water W3 is formed, the control unit 50 closes the pump 46 and opens the third control valve 53 to cause the saturated hydrogen water W3 to flow into the filling device 60. In the present creation, the hydrogen concentration of the saturated hydrogen water W3 is controlled to be 950 ppb or more. Further, in order to further increase the hydrogen concentration of the saturated hydrogen water W3, the control unit 50 can control the fifth control valve 55 to be opened, so that the saturated hydrogen water W3 in the filling device 60 dissolves more hydrogen H1.

This creation uses a closed pressure tank 40 to pressurize the constant temperature natural water W1 repeatedly in a water curtain shape on the constant pressure hydrogen H1. Since the system is large in area and cuts hydrogen H1 like a water jet, the hydrogen gas H1 will It is sufficiently dissolved in the natural water W1 to gradually form saturated hydrogen water W3, which can maintain a stable state in which hydrogen does not escape for a long time. Secondly, the present invention applies a pressure-controlled drum 40 with constant temperature control for hydrogen H1 dissolution operation, and the process steps are extremely simple and the production cost is low, so that it meets the benefits of continuous mass production required for industrial production. Furthermore, the present invention repeatedly sprays the natural water W1 in the pressure tank 40 on the constant pressure hydrogen H1 in the pressure tank 40, and the length of the repetition time can change the negative potential of the saturated hydrogen water W3 to -540 mv, and has a high Negative voltage saturated hydrogen water W3 will have a highly reducing effect on harmful free radicals in the human body.

In summary, the structure revealed by this creation is unprecedented, and it can achieve the improvement of efficacy, and it can be used for industrial utilization. It fully complies with the new patent requirements, and invites the bureau to grant patents to encourage innovation. There is no sense of morality.

However, the drawings and descriptions disclosed above are only preferred embodiments of the present invention, and modifications or equivalent changes made by those skilled in the art in accordance with the spirit of the present invention should still be included in the scope of the patent application.

10‧‧‧Water bucket

11‧‧‧First inlet pipe

20‧‧‧hydrogen barrel

21‧‧‧First intake pipe

22‧‧‧Second intake manifold

23‧‧‧Exhaust safety valve

24‧‧‧ Hydrogen generating device

30‧‧‧ ice bucket

40‧‧‧pressure bucket

41‧‧‧First accommodation space

42‧‧‧Insulation

43‧‧‧ ice water layer

44‧‧‧Drainage pipe

45‧‧‧Second inlet pipe

46‧‧‧

47‧‧‧First outlet pipe

48‧‧‧Return pipe

49‧‧‧Water curtain sprayer

50‧‧‧Control unit

51‧‧‧First control valve

52‧‧‧Second control valve

53‧‧‧third control valve

54‧‧‧fourth control valve

55‧‧‧ fifth control valve

60‧‧‧ filling device

61‧‧‧Second accommodation space

62‧‧‧Second outlet

71‧‧‧Water level detector

72‧‧‧ Pressure detector

73‧‧‧ Temperature detector

74‧‧‧ concentration detector

C1‧‧‧Low-temperature ice water

C2‧‧‧heating ice water

H1‧‧‧ Hydrogen

W1‧‧‧ natural water

W2‧‧‧ Hydrogen water

W3‧‧‧Saturated hydrogen water

Claims (5)

A device for manufacturing saturated hydrogen water comprises: a water storage tank and a hydrogen gas tank for storing natural water and hydrogen respectively; a pressure tank is a closed container, and the inner edge has a first accommodating space The outer edge is provided with a heat insulating layer; the top of the first receiving space is connected to the water storage bucket by a first inlet pipe and a first control valve, so that a certain amount of natural water is injected into the first receiving space. The second half is connected to the hydrogen tank by a first intake pipe and a second control valve, so that the constant pressure hydrogen gas is continuously introduced into the upper half of the first accommodating space; The first outlet pipe is connected to the bottom end of the first accommodating space, the rear end of the first outlet pipe is embedded in the top end of the first accommodating space by a return pipe, and a water curtain sprayer is installed at the outlet thereof, so as to repeatedly extract the natural After the water is pressurized, the hydrogen is sprayed in the form of a water curtain, so that the hydrogen is dissolved in the natural water to gradually form saturated hydrogen water; an exhaust safety valve is installed at the top of the first accommodating space to discharge hydrogen Maintaining a rated pressure in the pressure tank; a concentration The detector is installed at the lower end of the first accommodating space to detect the hydrogen content in the hydrogen water; a filling device has a second accommodating space at the inner edge thereof, and a second outlet pipe and a first a third control valve is connected to the bottom end of the first accommodating space for loading the saturated hydrogen water produced by the pressure tank; a control unit is electrically connected to the pump, the concentration detector, the first control valve, and the a second control valve and the third control valve for controlling the opening and closing of the pump and the flow rate required for each of the control valves; thereby, when the pressure tank is filled with a certain amount of natural water and constant pressure hydrogen, The pump will repeatedly extract natural water to spray the hydrogen in the form of water curtain. At this time, the natural water will have a larger surface area to cut hydrogen like a water knife, and the hydrogen is easily dissolved into natural water to form hydrogen water; Hydrogen water When the hydrogen reaches a saturated state, the saturated hydrogen water will be introduced into the filling device. The apparatus for manufacturing a saturated hydrogen water according to the first aspect of the invention, further comprising: an ice water layer disposed between the first accommodating space and the heat insulating layer; and the bottom end of the ice water layer is installed a drain pipe is used for draining water, a side water pipe is connected to an ice water tank via a fourth control valve to inject ice water, and a temperature detector is installed in the pressure tank to detect the temperature of the natural water, and Further, the fourth control valve and the temperature detector are electrically connected to the control unit, so as to control the ice water of the ice water layer to maintain the temperature of the natural water in the pressure tank in a temperature uniform state. The apparatus for manufacturing saturated hydrogen water according to claim 1, wherein the pressure tank is further provided with a water level detector and a pressure detector, and is electrically connected to the control unit respectively. The control unit can further control the natural water in the pressure tank to reach a certain amount, and the hydrogen gas reaches the rated pressure. The apparatus for manufacturing saturated hydrogen water according to claim 1, further comprising: installing a fifth control valve in the filling device, and connecting the hydrogen tank via a second intake pipe, the fifth The control valve is electrically connected to the control unit, so that the control unit can control the hydrogen flow rate to further increase the hydrogen concentration of the saturated hydrogen water. The apparatus for manufacturing saturated hydrogen water according to claim 1, wherein the hydrogen gas barrel is further connected to a hydrogen generating device at a front end.