TWM488508U - Oxyhydrogen water machine - Google Patents

Description

Hydrogen peroxide machine

The present invention relates to a hydrogen-oxygen water machine, in particular to a manufacturing device for generating micro-gas liquid water generated by electrolyzing a liquid to generate a desired gas and then oscillating through a high-pressure mixture.

According to, in many beverages and even drinking water, tiny bubbles will be added. In addition to increasing the taste of drinking, if oxygen is added to drinking water, the absorption rate of oxygen can be increased, and bubbles are generally added. In most cases, gas is forced into the beverage or drinking water through a high-pressure gas cylinder that stores gas. However, due to the high pressure inside the high-pressure gas cylinder, if it is subjected to external force, high temperature, or inadvertently destroys the bottle body. There is a fear of explosion, and the amount of gas that can be stored in a high-pressure gas cylinder is limited. The high-pressure gas cylinder cannot be obtained at any time, and the gas supply cannot be continuously stabilized, so that the user cannot obtain the gas-liquid water at any time, and the high-pressure gas is not expensive. In order to make the general user spend a lot of money invisibly, how to provide a stable, convenient and low-cost pure gas, and improve the gas content of the beverage or drinking water, thereby increasing the mouthfeel or the body absorption rate is the current The problem that you are anxious to solve.

Therefore, how to improve the above-mentioned missing problems is the technical difficulty point that the creators of this case want to solve.

The main purpose of the creation is that it mainly consists of an electrolysis device, a supply device, an extraction device, a gas-liquid mixing pressure tank and a shock-impact water jet head. The decomposing device electrolyzes the gas in the liquid, and simultaneously sends the electrolyzed gas and the liquid provided by the feeding device to the gas-liquid mixing and pressing tank through the extracting device for mixing, and finally, the shocking impinging jet head generates the microbubbles. Bubble water.

1‧‧‧Electrolytic device

11‧‧‧Control valve

2‧‧‧Supply device

3‧‧‧ extraction device

31‧‧‧Control device

32‧‧‧Filter device

33‧‧‧ Pressurized mixing nozzle

4‧‧‧ gas-liquid mixing pressure tank

5‧‧‧Concussion impact jet head

6‧‧‧ bubble water

7‧‧‧ tube body

Figure 1 is a schematic diagram of the structure of the creation.

Figure 2 is a schematic diagram of an embodiment of the present creation.

Figure 3 is a schematic diagram of the further structure of this creation.

Figure 4 is a schematic diagram of a further embodiment of the present creation.

Please refer to Fig. 1 and Fig. 2 for a schematic diagram of the structure and an embodiment of the present invention. It can be clearly seen from the figure that the creation includes an electrolysis device 1 containing a liquid therein. A tube body 7 is disposed on one side, and a control valve 11 is further disposed on the tube body 7; a supply device 2 for supplying liquid, and a tube body 7 disposed on one side and connected to the tube body 7 of the electrolysis device 1 An extraction device 3 is disposed at the junction of the tube body 7 of the electrolysis device 1 and the supply device 2, and is further provided with a control device 31 for controlling the extraction device 3; a gas-liquid mixing pressure tank 4, by the tube body 7 is connected to the extraction device 3; a shock impacts the water jet head 5, and is connected to the gas-liquid mixing pressure tank 4 by the pipe body 7; wherein, between the extraction device 3 and the gas-liquid mixing pressure tank 4, another setting is provided. Have a filter 32 and a pressurized mixing nozzle 33; mainly by electrolyzing the liquid contained therein by the electrolysis device 1 to electrolyze gas (hydrogen and oxygen) from the liquid, and through the extraction device 3 The electrolyzed gas is sent to the gas-liquid mixing pressurization tank 4 together with the liquid supplied from the supply device 2, and finally the bubble water 6 containing the microbubbles is generated by the shock impinging on the water jet head 5; After the gas and the liquid supplied from the supply device 2 are transferred to the gas-liquid mixing pressurization tank 4, a filter device 32 is passed through to filter the impurities contained in the gas and the liquid, and after filtering, another pass is added. The pressure mixing nozzle 33 mainly mixes the gas which is electrolyzed and the liquid supplied from the supply device 2 through the pressure of the pressure mixing nozzle 33 to be stored in the gas-liquid mixing pressure tank 4, and finally is mixed by gas-liquid mixing. When the pressure tank 4 is sent out, the gas is mixed and impacted by the shocking head 5, and the gas is instantaneously released and impacted, so that it forms a micro-bubble of the nanometer level and can be evenly distributed in the liquid to complete the bubble water 6; In addition, a control valve 11 is disposed on the tube body 7 of the electrolysis device 1, mainly for adjusting the gas output amount of the electrolysis device 1 and the time point at which the gas is sent out, thereby controlling the gas content of the bubble water 6 and basically When the electrolysis device 1 performs the electrolysis operation on the liquid, the gas can be electrolyzed while the gas is continuously supplied to the gas-liquid mixing pressurization tank 4 by the control valve 11, or after the electrolysis operation is completed. And then, by opening the control valve 11, the gas is sent to the gas-liquid mixing and pressurizing tank 4; in summary, compared with the conventional method of adding air bubbles through the high-pressure gas cylinder, there are various defects and dangers, The electrolysis device 1 is electrolyzed to generate the required gas, which not only solves the problem of the absence of the high-pressure gas cylinder and avoids the danger of occurrence, but also increases the production capacity of the gas through the electrolysis method, thereby increasing the production capacity. Shock impact jet head 5 Further, the pressure mixing nozzle 33 can increase the maintenance time of the gas-water mixed state and the gas content rate.

Please refer to FIG. 3 and FIG. 4 , which are schematic diagrams of further structures and further embodiments of the present invention. It can be clearly seen from the figure that the creation includes: an electrolysis device 1 having a built-in The liquid body is provided with a tube body 7 on one side, and the tube body 7 is further provided with a control valve 11; a supply device 2 for supplying liquid, and a tube body 7 disposed at one side, and the tube body 7 is additionally provided with a tube The filter device 32 and a pressurized mixing nozzle 33; two extraction devices 3, each of which is disposed on the tube body 7 of the electrolysis device 1 and the supply device 2, and a control device 31 is provided to control the two extraction devices 3; a gas-liquid mixture The pressure tank 4 is connected to the tube body 7 of the electrolysis device 1 and the tube body 7 of the supply device 2; an impact impinges on the water jet head 5, and is connected by the tube body 7 to the gas-liquid mixing pressure tank 4; The electrolysis device 1 electrolyzes the liquid contained therein to electrolyze gas (hydrogen and oxygen) from the liquid, and transmits the electrolyzed gas to the gas-liquid mixing and pressure tank 4 through the extracting device 3. At the same time, the liquid supplied by the supply device 2 is also transmitted. Stored in the mixing pressurization tank 4, and finally the bubble water 6 containing the microbubbles is generated by the shock impinging on the water jet head 5; in the above, when the liquid supplied from the supply device 2 is transferred to the gas-liquid mixing pressurization tank 4, The filter device 32 filters the impurities contained in the liquid, and after filtering, passes through a pressurized mixing nozzle 33, which mainly pressurizes the liquid through the pressure of the pressure mixing nozzle 33 to react with the gas and liquid. The gas in the mixing pressurization tank 4 is mixed, and finally the gas-liquid mixing pressurization tank 4 When it is sent out, it is shocked and impacted by the water jet head 5 to instantaneously release and impact the mixed gas, so that it forms minute bubbles and can be evenly distributed in the liquid to complete the bubble water 6; in addition, in the electrolysis device 1 A control valve 11 is disposed on the pipe body 7 for adjusting the gas output of the electrolysis device 1 so as to control the gas content of the bubble water 6; the embodiment is different from the above embodiment in that the electrolysis device 1 is The gas after electrolysis is directly sent to the gas-liquid mixing pressurizing tank 4, and only the liquid in the supply device 2 is pressurized by the pressure of the pressurized mixing nozzle 33, and the mixing action of the gas and the liquid is in the gas-liquid The mixing pressure tank 4 is carried out, and after the liquid is pressurized by the pressure mixing nozzle 33, the pressure of the liquid is present to force the liquid to mix with the gas.

The above-exemplified embodiments are used to clarify one of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Anyone skilled in the art can make some changes without departing from the spirit and scope of the present invention. Changes and refinements, so the scope of protection of this creation is subject to the definition of the scope of the patent application.

1‧‧‧Electrolytic device

2‧‧‧Supply device

3‧‧‧ extraction device

31‧‧‧Control device

4‧‧‧ gas-liquid mixing pressure tank

5‧‧‧Concussion impact jet head

Claims (9)

A hydrogen-oxygen water machine comprising: an electrolysis device, which contains a liquid, one side is provided with a pipe body; a supply device for providing liquid, one side is provided with a pipe body, and the electrolysis device The pipe body is connected to each other; an extracting device is disposed at a communication place between the tube body of the electrolysis device and the supply device; a gas-liquid mixing pressurizing groove is connected between the pipe body and the extracting device; and a shock hits the water jet head by The pipe body is connected with the gas-liquid mixed pressure tank; the main feature is that the gas in the liquid is obtained by electrolysis by the electrolysis device, and the gas extracted by the gas and the liquid supplied by the supply device are simultaneously transmitted through the extracting device. It is sent to the gas-liquid mixing pressurization tank for mixing, and finally the bubble water containing the microbubbles is generated by the shock impinging on the water jet head. The oxyhydrogen machine according to claim 1, wherein a control valve is further disposed on the tube of the electrolysis device. The oxyhydrogen machine according to claim 1, wherein a control device is additionally provided to control the extraction device. The oxyhydrogen machine according to claim 1, wherein a filter device is further disposed between the extracting device and the gas-liquid mixing pressurizing tank. The oxyhydrogen machine according to claim 1, wherein a pressure mixing nozzle is further disposed between the extracting device and the gas-liquid mixing pressurizing tank, mainly for transmitting the electrolyzed gas and the liquid in the supplying device through the pressure. Mix and store in a gas-liquid mixing pressurization tank. A hydrogen-oxygen water machine comprising: an electrolysis device, which contains a liquid, one side is provided with a tube body; a supply device for providing a liquid, and one side is provided with a tube body; The two extraction devices are respectively disposed on the tube body of the electrolysis device and the supply device; a gas-liquid mixed pressure tank is connected with the tube body of the electrolysis device and the tube body of the supply device; a shock impacts the water jet head, by the tube body and the gas The liquid mixing pressure tanks are connected. The oxyhydrogen machine according to claim 6, wherein a control valve is further disposed on the tube of the electrolysis device. The oxyhydrogen machine according to claim 6, wherein a control device is additionally provided to control the extraction device. The oxyhydrogen machine according to claim 6, wherein a filter device and a pressurized mixing nozzle are further disposed on the pipe body of the supply device.