CN115771919A - Oxyhydrogen machine of water tank with two functions of giving vent to anger of single moisturizing - Google Patents

Abstract

The invention discloses an oxyhydrogen machine with a water tank with single water replenishing and double air outlet functions, which comprises a water tank and an electrolytic bath; the water tank comprises a water tank body, a partition part, a spiral cover and an upper cover body; the partition part is arranged at the center of the inner cavity of the water tank body and divides the inner cavity into a first inner groove and a second inner groove, and the upper part of the partition part is provided with two water replenishing ports which are communicated with each other and a water inlet; the spiral cover is arranged at the water inlet, the lower end of the spiral cover is provided with a silica gel ferrule, and the two water replenishing ports are simultaneously sealed by the silica gel ferrule under the condition that the spiral cover is inserted into the water inlet; a first water tank air outlet and a second water tank air outlet which respectively correspond to the first inner tank and the second inner tank are arranged on the upper cover body; the air outlet and the water inlet of the electrolytic cell are respectively communicated with the first inner groove and the second inner groove. The water tank adopts a mode that one water inlet supplies water to two water replenishing ports and the first inner tank and the second inner tank independently discharge air from respective air outlets, and achieves the purpose of double air discharge by using a single water replenishing mode.

Description

Oxyhydrogen machine of water tank with two functions of giving vent to anger of single moisturizing

Technical Field

The invention relates to the technical field of oxyhydrogen machines, in particular to an oxyhydrogen machine with a water tank with single water replenishing and double air outlet functions.

Background

The basic principle of the oxyhydrogen machine is that an electrolytic water technology is utilized, and energy equipment for extracting oxyhydrogen gas from water after electrification can form various different types of devices, for example, oxyhydrogen generators are divided into oxyhydrogen separation type and oxyhydrogen mixing type, wherein the oxyhydrogen separation type oxyhydrogen generator is also called as a hydrogen generator, and the oxyhydrogen mixing type oxyhydrogen generator is simply called as an oxyhydrogen machine. If the single analysis from industrial application, hydrogen is used as fuel, oxygen is used for supporting combustion, carbon-containing gases such as acetylene, coal gas, liquefied gas and the like can be replaced, and the method has the advantages of high heat value, concentrated flame, zero pollution, high production efficiency, energy conservation, convenience and the like.

However, with the development of the technology level, the application of oxyhydrogen machines cannot be limited only from the industrial scope, more and more oxyhydrogen machines have been moved to medical institutions and thousands of households, for example, the purity of hydrogen and oxygen generated by a household oxyhydrogen machine is relatively high, hydrogen and oxygen can rapidly enter blood along with respiration, and the oxyhydrogen machine has positive effects on cardiovascular and cerebrovascular diseases, respiratory diseases, cancer rehabilitation, aging delay and the like. Thus, the person skilled in the art has gradually expanded from the development of industrial applications of oxyhydrogen machines.

Different types of products can be derived through the oxyhydrogen equipment, and in addition, the respective names of different manufacturers cause certain difficulty for selection and use of customers, and when the customers choose to purchase the oxyhydrogen machines, the customers often do not know what name and what efficacy of the oxyhydrogen machines need to be purchased, and for example, the oxyhydrogen machines are distinguished from the aspects of power, volume, accessories, application scope and the like.

Whether used in a medical facility or home use, the primary functions include two aspects: firstly, the oxyhydrogen machine is electrochemical equipment which generates hydrogen and oxygen by utilizing water electrolysis, the generated hydrogen and oxygen have respective uses, the oxygen can be used for breathing of patients or oxygen inhalation people, and the hydrogen enters blood along with breathing because the purity of the hydrogen and oxygen generated by the oxyhydrogen machine is relatively high, so that the oxyhydrogen machine has positive effects on cardiovascular and cerebrovascular diseases, respiratory system diseases, cancer rehabilitation, aging delay and the like; secondly, if the generated hydrogen and oxygen are additionally pumped into the water, the water is rich in oxyhydrogen molecules, and then the drinking water containing the oxyhydrogen molecules is drunk by a human body to absorb the drinking water, thereby bringing the health and health maintenance of the digestive system of the human body. Obviously, as a basic function, the product produced by the oxyhydrogen machine can be used in a gas manner, such as breathing, and in a water-entering manner, such as forming oxyhydrogen water for drinking.

Research personnel of the technical scheme of the invention can find a plurality of defects after analyzing the principle of the prior oxyhydrogen machine, and mainly focus on the following points:

(1) The existing oxyhydrogen machine is not applied to breathing and drinking, and can not provide two functions for a user at the same time, if research and development personnel design one oxyhydrogen machine according to the application requirement, the two functions can be realized at the same time, the oxyhydrogen machine can be used in multiple application scenes, and the functional limitation of the oxyhydrogen machine is undoubtedly a breakthrough.

(2) The research and development personnel find that if the existing oxyhydrogen machine water tank is simply improved, for example, a mode of dividing the water tank area and additionally opening a cannula is adopted, a systematic structural design cannot be formed, the tightness and the structural rationality cannot be ensured, after repeated application, the above-mentioned double functions cannot be still exerted, the application is greatly limited, and the effect is not satisfactory.

According to the technical scheme, through summarizing the previous research and development experience, the structure of the traditional oxyhydrogen machine is optimized, particularly the structure of a water tank of the oxyhydrogen machine is optimized, on the basis of realizing double functions, the oxyhydrogen machine with the functions of single water supplement and double air outlet is provided, the water tank of the oxyhydrogen machine is not required to be designed into a double water supplement structure due to the realization of the double functions, and the purpose of double air outlet is achieved only through a single water supplement mode after the internal structure of the water tank and the optimized design of a water tank cover body and the like. Certainly, the researchers in the technical scheme of the invention carry out performance tests on the intermediate scheme adopted in each development stage for multiple times, and finally obtain the optimal optimized technical scheme, and meanwhile, the provided technical scheme can relieve, partially solve or completely solve the problems in the prior art and can also meet the requirements of oxyhydrogen machine users.

Disclosure of Invention

In view of the problems in the prior art, the present invention provides a hydrogen-oxygen machine with a water tank having a single water supply and double air outlet functions, which, through a reasonable design, does not need to design the water tank into a double water supply structure for realizing double functions, but only needs to achieve the double air outlet purpose through a single water supply mode after the internal structure of the water tank and the cover body of the water tank are optimally designed, so that the hydrogen-oxygen machine can be simultaneously used for breathing and drinking.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an oxyhydrogen machine with a water tank with single water replenishing and double air outlet functions comprises the water tank and an electrolytic bath; the water tank comprises a water tank body, a partition part, a spiral cover and an upper cover body; the partition part is arranged at the center of the inner cavity of the water tank body and divides the inner cavity into a first inner groove and a second inner groove, two water replenishing ports which are mutually communicated are arranged at the upper part of the partition part, and a single water inlet arranged at the upper end of the partition part simultaneously and respectively adds water to the first inner groove and the second inner groove through the two water replenishing ports; a first water tank water outlet and a first water tank air inlet are formed in the side wall of the first inner tank, and a second water tank water outlet and a second water tank air inlet are formed in the side wall of the second inner tank; the spiral cover is arranged at the water inlet, a silica gel ferrule is arranged at the lower end of the spiral cover, and the two water replenishing ports are simultaneously sealed by the silica gel ferrule under the condition that the spiral cover is inserted into the water inlet; the upper cover body is used for sealing the water tank body, and a first water tank air outlet and a second water tank air outlet which respectively correspond to the first inner groove and the second inner groove are formed in the upper cover body; the gas outlet of the electrolytic cell is respectively connected with the gas inlet of the first water tank and the gas inlet of the second water tank, and the water inlet of the electrolytic cell is respectively connected with the water outlet of the first water tank and the water outlet of the second water tank.

For further improvement of the invention, the invention also comprises the following technical scheme:

the water tank further comprises a pressure relief structure, and the pressure relief structure is arranged on the surface of the upper cover body.

The pressure relief structure comprises an air relief valve.

The air release valves are two and are respectively positioned above the first inner groove and the second inner groove.

And a silica gel sealing ring is arranged around the upper end of the water inlet on the periphery of the rotary cover, so that the rotary cover is buckled with the separating part to hermetically cover the water inlet.

And a circle of notch sealing rings are respectively arranged at the edges of the first inner tank and the second inner tank so that the upper cover body is fastened with the water tank body to seal the first inner tank and the second inner tank.

A water level sensor is arranged in the inner cavity of the water tank body.

And a temperature sensor is arranged in the inner cavity of the water tank body or on the upper cover body.

The electrolytic tank comprises a first electrolytic tank and a second electrolytic tank; the air outlet and the water inlet of the first electrolytic tank are respectively connected with the air inlet of the first water tank and the water outlet of the first water tank; and the air outlet and the water inlet of the second electrolytic tank are respectively connected with the air inlet of the second water tank and the water outlet of the second water tank.

And for the first water tank air outlet and the second water tank air outlet, the first water tank air outlet is connected with a nasal suction conduit and enters the human body through the respiratory tract of the human body, and the second water tank air outlet is pressurized and exhausted through an air outlet conduit to a container for containing drinking water.

The invention has the beneficial effects that:

after the hydrogen-oxygen machine is optimally designed for the inside of the water tank, the cover body of the water tank and the like, the hydrogen-oxygen machine can be simultaneously applied to breathing and drinking, the water tank adopts a mode that only one water inlet simultaneously supplies water to two water supply ports and the air outlets of the first inner tank and the second inner tank independently give air, so that the aim of double air outlet is achieved through a single water supply mode, when the hydrogen-oxygen machine is applied, after the hydrogen-oxygen gas electrolyzed by the electrolytic tank enters the water tank, one air outlet can be connected with a nasal suction conduit and enters a human body through a respiratory tract of the human body, the other air outlet is pressurized by the air outlet conduit and gives air to a drinking water container to form hydrogen-oxygen water for drinking of a user, and the user can synchronously drink the hydrogen-oxygen water during hydrogen-oxygen suction, so that the use effect is multiplied; meanwhile, the adopted silica gel ferrule can seal the two water outlets simultaneously, so that the operation is convenient; in addition, because the sealing components can be additionally arranged at the water inlet and the edge of the inner groove, the integral sealing performance of the water tank is favorably improved.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a top view of the water tank of the present invention;

FIG. 4 is a first schematic view of the internal structure of the water tank of the present invention;

FIG. 5 is a second schematic view of the internal structure of the water tank of the present invention;

FIG. 6 is a schematic view of a silicone ferrule of the present invention;

fig. 7 is a schematic reverse view of the upper cover of the present invention.

Reference numerals:

1. a water tank body; 2. a partition portion; 3. screwing a cover; 4. an upper cover body; 5. a first inner tank; 6. a second inner tank; 7. a water replenishing port; 8. a water inlet; 9. a first water tank outlet; 10. a first tank air inlet; 11. a water outlet of the second water tank; 12. a second tank air inlet; 13. a silica gel ferrule; 14. a first tank outlet; 15. the air outlet of the second water tank; 16. an air release valve; 17. a silica gel seal ring; 18. a notch sealing ring; 19. a water level sensor; 20. a temperature sensor; 21. a first electrolytic bath; 210. the gas outlet of the first electrolytic tank; 211. a water inlet of the first electrolytic tank; 22. a second electrolytic bath; 220. the air outlet of the second electrolytic tank; 221. a water inlet of the second electrolytic tank; 23. a power adapter; 24. an extension portion.

Detailed Description

The invention relates to an oxyhydrogen machine with a water tank with single water supplement and double air outlet functions, which aims to overcome the defects that double air outlet can be realized only by designing the water tank into a double water supplement structure or a single water tank structure in the conventional oxyhydrogen machine, so that the application of the water tank is greatly limited, and the double effects of breathing and drinking cannot be simultaneously and effectively exerted when the oxyhydrogen machine is used. The advantages will be gradually brought forward in the following analysis of the structure.

As shown in fig. 1-7, an oxyhydrogen machine with a water tank with single water supply and double air outlet functions comprises a water tank and an electrolytic cell; the water tank comprises a water tank body 1, a partition part 2, a spiral cover 3 and an upper cover body 4, and the water tank body 1 can be used for containing electrolyzed water.

As shown in fig. 4 to 5, the partition 2 is installed at the center of the inner cavity of the tank body 1 to divide the inner cavity into the first inner tank 5 and the second inner tank 6, two water replenishing ports 7 are provided at the upper portion of the partition 2 to be communicated with each other, and a single water inlet 8 provided at the upper end of the partition 2 is simultaneously supplied with water to the first inner tank 5 and the second inner tank 6 through the two water replenishing ports 7. Here, one water inlet 8 is provided and the water inlet 8 is communicated with two water replenishing ports 7, so that when an operator fills water into the water inlet 8, the water can be replenished to the first inner tank 5 and the second inner tank 6 at the same time, and it is advantageous to maintain the water levels of the first inner tank 5 and the second inner tank 6 to be balanced.

In this embodiment, the partition 2 is cylindrical in shape.

As shown in fig. 1 to 3, a first tank outlet 9 and a first tank inlet 10 are provided on a side wall of the first inner tank 5, and of course, the first tank outlet 9 is located at a lower end to facilitate the flow of electrolyzed water, and the first tank inlet 10 is located at an upper end, specifically, higher than the replenishment port 7 to facilitate the flow of oxyhydrogen gas, and a second tank outlet 11 and a second tank inlet 12 are provided on a side wall of the second inner tank 6, and similarly, the second tank outlet 9 is located at a lower end to facilitate the flow of electrolyzed water, and the second tank inlet 12 is located at an upper end, specifically, higher than the replenishment port 7 to facilitate the flow of oxyhydrogen gas. The above arrangement is used to facilitate the flow of electrolyzed water and oxyhydrogen gas.

As shown in fig. 1-6, the screw cap 3 is installed on the water inlet 8, a silicone collar 13 is provided at the lower end of the screw cap 3, and the two water replenishing ports 7 are synchronously sealed by the silicone collar 13 in a state that the screw cap 3 is inserted into the water inlet 8, so as to form a closed structure. Specifically, the two sides of the top of the screw cap 3 are respectively extended with an extension portion 24, so that the technician can conveniently hold the screw cap, the screw cap 3 is convenient to rotate, and the convenience of operation is improved.

As shown in fig. 4 and 5, the upper cover 4 is used to seal the water tank body 1, and the upper cover 4 is provided with a first water tank air outlet 14 and a second water tank air outlet 15 corresponding to the first inner tank 5 and the second inner tank 6, respectively, so that the water inlet 8, the first water tank air outlet 14, and the second water tank air outlet 15 can be used to conveniently realize the function of supplying water to a single port and discharging air to two ports, and because the first inner tank 5 and the second inner tank 6 are sealed and independent, the two air outlets can overcome the limitation of uneven air pressure and the like, and keep respective normal and independent air discharge.

As shown in fig. 1 and 2, the air outlet of the electrolytic cell is respectively connected with the air inlet 10 of the first water tank and the air inlet 12 of the second water tank, specifically connected through an air duct; the water inlet of the electrolytic cell is respectively connected with the first water tank water outlet 9 and the second water tank water outlet 11, and is specifically connected through a water guide pipe. In order to facilitate the flow of the electrolyzed water, the electrolysis bath is positioned below the water tank.

For the first water tank air outlet 14 and the second water tank air outlet 15, the first water tank air outlet 14 is connected with a nasal suction catheter and enters the human body through the respiratory tract of the human body, and the second water tank air outlet 15 is pressurized and exhausted through an air outlet catheter to a container containing drinking water.

As shown in fig. 1-4, the water tank further includes a pressure relief structure, and the pressure relief structure is disposed on the surface of the upper cover 4. Specifically, the pressure relief structure includes a relief valve 16. In the present embodiment, the relief valves 16 are provided in two and two relief valves 16 located above the first inner groove 5 and the second inner groove 6, respectively. The air release valve 16 may be used to release air pressure when the air pressure exceeds a predetermined level, to help protect the water tank, for example, when the user presses or folds the snorkel or air outlet tube, the water tank may not vent air normally, and when the air pressure reaches a certain level, the air may be discharged from the pressure release valve 16.

As shown in fig. 5, in order to improve the sealing performance between the cap 3 and the water inlet 8, a technician may arrange a silicone gasket 17 around the upper end of the water inlet 8, so that the cap 3 is engaged with the partition 2 to hermetically cover the water inlet 8.

As shown in fig. 4, in order to improve the overall sealing performance between the inner tank and the water tank body 1 and the upper cover 4, a technician sets a ring of notch sealing rings 18 on the edges of the first inner tank 5 and the second inner tank 6, respectively, so that after the upper cover 4 is fastened to the water tank body 1, the first inner tank 5 and the second inner tank 6 can be sealed, and the sealing performance of the combination between the upper cover 4 and the water tank body 1 can be improved.

Technicians can also arrange a water level sensor 19 in the inner cavity of the water tank body 1 according to different design requirements or application requirements, the water level sensor 19 can display the height of the water level in the inner cavity of the water tank according to the arrangement, and sends a signal to the control center when the water level is too high or too low, and the control center is powered off; of course, how to control the water level by the water level sensor 19 and the selection of the type of the sensing device are not included in the technical solution of the present invention, and the skilled person can implement the method according to the conventional technical means or the common technical knowledge in the art, and further details are not described herein.

Technicians can also arrange a temperature sensor 20 in the inner cavity of the water tank body 1 or on the upper cover body 1 according to different design requirements or application requirements, and the temperature sensor is used for monitoring and displaying working temperature, for example, when the temperature exceeds 55 ℃, the temperature sensor can send a signal to a control center and enable the control center to cut off the power supply, and because the working temperature is too high, water vapor is easy to generate and remains in a nasal suction catheter or an air outlet catheter, the use effect is poor, and the power supply needs to be cut off; of course, how to monitor the operating temperature by the temperature sensor 20 and the selection of the type of the sensing device are not included in the technical solution of the present invention, and the skilled person can implement the method according to the conventional technical means or the common technical knowledge in the art, and further details are not described herein.

As shown in FIGS. 1 and 2, the electrolytic bath includes a first electrolytic bath 21 and a second electrolytic bath 22; the air outlet 210 of the first electrolytic tank and the water inlet 211 of the first electrolytic tank are respectively connected with the air inlet 10 of the first water tank and the water outlet 9 of the first water tank, and are particularly connected through corresponding conduits; the air outlet 220 of the second electrolytic tank and the water inlet 221 of the second electrolytic tank are respectively connected with the air inlet 12 of the second water tank and the water outlet 11 of the second water tank, and are specifically connected through corresponding conduits.

As shown in fig. 1 and fig. 2, in this embodiment, in order to increase the amount of hydrogen and oxygen to be prepared and reduce the manufacturing cost, two first electrolysis baths 21 and two second electrolysis baths 22 are respectively provided, that is, two electrolysis baths are provided and the number of each electrolysis bath is two, therefore, in order to make the water tank be used with two electrolysis baths, two first water tank water outlets 9, two second water tank water outlets 11, two first water tank air inlets 10 and two second water tank air inlets 12 on the water tank are respectively provided, that is, two first water tank water outlets 9 and two first water tank air inlets 10 are respectively connected with the water inlets and the air outlets corresponding to the two first electrolysis baths 21, and two second water tank water outlets 11 and two second water tank air inlets 12 are respectively connected with the water inlets and the air outlets corresponding to the two second electrolysis baths 22.

It should be understood by those skilled in the art that the arrangement of the electrolytic cells may be directly arranged as one of the cells with larger volume or only two cells are used, however, the manufacturing cost of the electrolytic cell with larger volume in this scheme is higher than that of the electrolytic cell with four cells, and the specific cost is several times higher than that of the scheme of the invention using four electrolytic cells, so that four electrolytic cells are selected in this embodiment, and of course, six or eight electrolytic cells can be arranged.

Since the first electrolytic tank 21 and the second electrolytic tank 22 can be selected from commercially available products, detailed description thereof is omitted.

Of course, as shown in fig. 1, the oxyhydrogen machine with the water tank with the single-water-replenishing and double-gas-discharging functions further comprises a power adapter 23 for supplying power to the electrolytic cell.

The principle of use of the invention is described below:

first, the power adapter 23 supplies power to the first electrolytic tank 21 and the second electrolytic tank 22. When the first electrolytic tank 21 and the second electrolytic tank 22 work, oxyhydrogen gas is generated through electrolysis, and is discharged from the gas outlet 210 of the first electrolytic tank and the gas outlet 220 of the second electrolytic tank respectively, and enters the first inner tank 5 and the second inner tank 6 through the first water tank gas inlet 10 and the second water tank gas inlet 12 respectively, and is finally discharged through the first water tank gas outlet 14 and the second water tank gas outlet 15, namely, gas is discharged, because the oxyhydrogen gas generated by the first electrolytic tank 21 and the second electrolytic tank 22 immediately enters the first inner tank 5 and the second inner tank 6 after being generated, and the quantity of the oxyhydrogen gas is not too large, then the oxyhydrogen gas is discharged from the first water tank gas outlet 14 and the second water tank gas outlet 15, the gas discharge structure belongs to an open gas discharge structure, the produced oxyhydrogen gas can be discharged from the water tank immediately, so that the oxyhydrogen gas cannot be stored in the first inner tank 5 and the second inner tank 6 in a large quantity, and the overlarge gas pressure intensity is not enough to have destructive influence on human bodies or other articles, therefore, the gas pressure intensity of the first inner tank 5 and the gas pressure of the second inner tank 6 do not need to be controlled intentionally. After oxyhydrogen gas is electrolyzed in the first electrolytic tank 21 and the second electrolytic tank 22, the two groups of electrolytic tanks generate water shortage negative pressure states, so the first internal tank 5 and the second internal tank 6 can automatically supply electrolyzed water, and the specific supply mode is that the electrolyzed water flows into the two groups of first electrolytic tanks 21 and the second electrolytic tanks 22 from the first water tank water outlet 9 and the second water tank water outlet 11 on the first internal tank 5 and the second internal tank 6 through the water inlets 211 and 221 of the two groups of first electrolytic tanks and the water inlets 221 of the second electrolytic tanks respectively to finish automatic supply. When water needs to be supplemented into the water tank, the rotary cover 3 is firstly opened, then the electrolyzed water is injected into the water inlet 8, the electrolyzed water is discharged from the two water supplementing ports 7 and respectively enters the first inner groove 5 and the second inner groove 6, and after the water supplementing is finished, the rotary cover 3 is buckled, and then the two water supplementing ports 7 can be sealed.

The technical scheme of the invention adopts the water tank with only one water inlet and two water replenishing ports to realize independent double air outlets, and the two air outlets can keep respective normal independent air outlet, so that one oxyhydrogen machine can be used for simultaneously realizing two functions, namely, the two air outlets are divided into two parts, one air outlet can be connected with a snuffing conduit and enters a human body through a respiratory tract of the human body, and the other air outlet is pressurized into a container for containing drinking water through the air outlet conduit, thereby being beneficial to driving oxyhydrogen into water to ensure that the water contains oxyhydrogen, namely oxyhydrogen water, for users to draw, and the users can synchronously drink the oxyhydrogen water when absorbing the oxyhydrogen, thereby doubling the using effect. Certainly, two air outlets can be used for being connected with the nasal suction conduit or two air outlets can be used for being connected with the air outlet conduit and pressurizing the air outlet conduit into a container containing drinking water.

Other corresponding technical features implemented by the invention for assisting the implementation of the technical solution can be implemented correspondingly or improved on the basis of the existing conventional technical means by a skilled person, and further details of other related technical means are not described herein.

In the description of the present specification, if the terms "embodiment one," "embodiment," "implementation," and the like are used, they mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example; furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the description of the present specification, the terms "connect", "mount", "fix", "set", "have", and the like are used in a broad sense, and for example, "connect" may be a fixed connection or an indirect connection through intermediate components without affecting the relationship and technical effects of components, and may also be an integral connection or a partial connection, as in this case, for a person skilled in the art, the specific meaning of the terms in the present invention can be understood according to specific situations.

The foregoing description of the embodiments has been presented to enable any person skilled in the art to make and use the embodiments, and it is to be understood that various modifications may be readily made to the embodiments, and that the generic principles defined herein may be applied to other embodiments without the use of inventive faculty. Therefore, the present disclosure is not limited to the above embodiments, and modifications to the following cases should be included within the scope of the present disclosure: (1) a new technical scheme implemented on the basis of the technical scheme of the invention and by combining the prior common general knowledge; (2) equivalent replacement of part of the features of the technical scheme of the invention by adopting the known technology produces the same technical effects as the invention, for example, equivalent replacement is carried out on conventional production equipment, devices and the like used in the process; (3) the technical scheme of the invention is used as a basis for expansion, and the substantial content of the expanded technical scheme does not exceed the technical scheme of the invention; (4) the technical means obtained by using the equivalent transformation made by the text description content or the drawings of the specification of the invention can be applied to other schemes in the related technical fields.

Claims (10)

1. The utility model provides an oxyhydrogen machine with water tank of function is given vent to anger to single moisturizing two, including water tank and electrolysis trough, its characterized in that:

the water tank comprises a water tank body, a partition part, a spiral cover and an upper cover body; the partition part is arranged at the center of the inner cavity of the water tank body and divides the inner cavity into a first inner groove and a second inner groove, two water replenishing ports which are communicated with each other are arranged at the upper part of the partition part, and a single water inlet arranged at the upper end of the partition part simultaneously and respectively adds water to the first inner groove and the second inner groove through the two water replenishing ports; a first water tank water outlet and a first water tank air inlet are formed in the side wall of the first inner tank, and a second water tank water outlet and a second water tank air inlet are formed in the side wall of the second inner tank; the spiral cover is arranged at the water inlet, a silica gel ferrule is arranged at the lower end of the spiral cover, and the two water replenishing ports are simultaneously sealed by the silica gel ferrule under the condition that the spiral cover is inserted into the water inlet; the upper cover body is used for sealing the water tank body, and a first water tank air outlet and a second water tank air outlet which respectively correspond to the first inner groove and the second inner groove are formed in the upper cover body; the gas outlet of the electrolytic cell is respectively connected with the gas inlet of the first water tank and the gas inlet of the second water tank, and the water inlet of the electrolytic cell is respectively connected with the water outlet of the first water tank and the water outlet of the second water tank.

2. The oxyhydrogen machine with the water tank with the single-water-replenishing and double-air-out functions according to claim 1, characterized in that:

the water tank is characterized by further comprising a pressure relief structure, and the pressure relief structure is arranged on the surface of the upper cover body.

3. The oxyhydrogen machine with the water tank with single water replenishing and double air exhausting functions according to claim 2, characterized in that:

the pressure relief structure comprises an air relief valve.

4. The oxyhydrogen machine with the water tank with single water replenishing and double air exhausting functions according to claim 3, characterized in that:

the air escape valves are two and two air escape valves are respectively positioned above the first inner groove and the second inner groove.

5. The oxyhydrogen machine with the water tank with the single-water-replenishing and double-air-out functions according to claim 1, characterized in that:

and a silica gel sealing ring is arranged around the upper end of the water inlet on the periphery of the rotary cover, so that the rotary cover is buckled with the separating part to hermetically cover the water inlet.

6. The oxyhydrogen machine with a water tank with single water supply and double air outlet functions according to claim 1, characterized in that:

and a circle of notch sealing rings are respectively arranged at the edges of the first inner tank and the second inner tank so that the upper cover body is fastened with the water tank body to seal the first inner tank and the second inner tank.

7. The oxyhydrogen machine with the water tank with the single-water-replenishing and double-air-out functions according to claim 1, characterized in that:

a water level sensor is arranged in the inner cavity of the water tank body.

8. The oxyhydrogen machine with the water tank with the single-water-replenishing and double-air-out functions according to claim 1, characterized in that:

and a temperature sensor is arranged in the inner cavity of the water tank body or on the upper cover body.

9. The oxyhydrogen machine with the water tank with the single-water-replenishing and double-air-out functions according to claim 1, characterized in that:

the electrolytic tank comprises a first electrolytic tank and a second electrolytic tank; the air outlet and the water inlet of the first electrolytic tank are respectively connected with the air inlet of the first water tank and the water outlet of the first water tank; and the air outlet and the water inlet of the second electrolytic tank are respectively connected with the air inlet of the second water tank and the water outlet of the second water tank.

10. The oxyhydrogen machine with a water tank with single water supply and double air outlet functions according to claim 1, characterized in that:

and for the first water tank air outlet and the second water tank air outlet, the first water tank air outlet is connected with a nasal suction conduit and enters the human body through the respiratory tract of the human body, and the second water tank air outlet is pressurized and exhausted through an air outlet conduit to a container for containing drinking water.

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