WO2022073385A1

WO2022073385A1 - Device capable of producing mixed gas

Info

Publication number: WO2022073385A1
Application number: PCT/CN2021/112587
Authority: WO
Inventors: 郑志炫
Original assignee: 昌宁德康生物科技（深圳）有限公司
Priority date: 2020-10-09
Filing date: 2021-08-13
Publication date: 2022-04-14
Also published as: CN213491240U

Abstract

A device capable of producing mixed gas, relating to the technical field of medical healthcare. The device capable of producing mixed gas comprises a housing (110), and a hydrogen production module (120), a healthcare module (130), and a power supply (140) that are provided in the housing; the power supply (140) are separately connected to the hydrogen production module (120) and the healthcare module (130); the hydrogen production module (120) is configured to produce hydrogen; the healthcare module (130) is configured to produce a gas containing healthcare components; a suction opening (114) is provided on the housing; a first discharge port (121) configured to discharge hydrogen is provided on the hydrogen production module (120); a second discharge port (131) configured to discharge the gas containing healthcare components is provided on the healthcare module (130); both the first discharge port (121) and the second discharge port (131) are communicated with the suction opening (114); the suction opening is configured to be adapted to a human mouth. The device capable of producing mixed gas can simultaneously produce hydrogen and the gas containing healthcare components for inhalation by a user, has healthcare and physical therapy effects on the user, and is beneficial to physical and mental health of the user.

Description

Mixed gas fixture

CROSS-REFERENCE TO RELATED APPLICATIONS

This disclosure claims the priority of a Chinese patent application with application number CN 202022235173.5 and titled "Mixed Gas Fixture" filed with the China Patent Office on October 09, 2020, the entire contents of which are incorporated in this disclosure by reference.

technical field

The present disclosure relates to the technical field of medical care, and in particular, to a mixed gas fixture.

Background technique

At present, the atomization equipment on the market is mainly divided into two categories. The first type is to directly use flavored e-cigarette oil for atomization, and the second type is to use health care products to atomize. The functions of atomization equipment are relatively simple. .

The atomization of e-cigarette oil requires a relatively high temperature to generate smoke, so as to achieve the effect similar to that of smoking. The effect is not good, and even some ingredients that are harmful to the human body are produced. If the atomization fixture directly added with the formula of health care products is used, due to the product characteristics of the health care products, the health care effect of the gas or odor after atomization will not be obvious, and only a trace amount of gas or odor will come out, which cannot achieve the ideal health care. effect, so the two are not compatible.

SUMMARY OF THE INVENTION

The objectives of the present disclosure include, for example, to provide a mixed gas fixture that can simultaneously produce hydrogen gas and health care component gas, conduct flow and fully mix the hydrogen gas and health care component gas through the gas diversion and mixing structure, and achieve physiotherapy effects and health care effects. Well, it greatly improves the user experience and is beneficial to the physical and mental health of users.

Embodiments of the present disclosure can be implemented, for example, in the following manner:

An embodiment of the present disclosure provides a mixed gas fixture, which includes a housing and a hydrogen production module, a health care module, and a power supply arranged in the housing; the power supply is respectively connected to the hydrogen production module and the health care module, so The hydrogen production module is configured to generate hydrogen, and the health care module is configured to generate health care component gas;

The casing is provided with a suction port, the hydrogen production module is provided with a first discharge port configured to discharge the hydrogen gas, and the health care module is provided with a second discharge port configured to discharge the health care component gas, so the Both the first discharge port and the second discharge port communicate with the suction port.

In an optional embodiment of the present disclosure, the hydrogen production module includes a first housing having a storage cavity, the storage cavity is configured to accommodate an electrolyte, a first electrode is provided in the storage cavity, and the first electrode connected with the power supply; the first housing is provided with the first discharge port;

The first casing is further provided with a third discharge port, and the third discharge port is configured to discharge oxygen; the position of the suction port is higher than the position of the third discharge port in a use state.

In an optional implementation manner, the first housing is further provided with an exhaust port communicating with the first exhaust port, and the exhaust port is arranged along the axial direction of the housing.

In an optional embodiment, a mixing chamber communicated with the suction port is provided on the housing, and the first discharge port and the second discharge port are respectively communicated with the mixing chamber, so that the The hydrogen gas and the health care ingredient gas enter the suction port after being mixed in the mixing chamber.

In an optional embodiment, the mixing chamber may include a gas guiding and mixing structure in communication with the suction port, the gas guiding and mixing structure including a gas supply guiding and a mixing structure defined by an upper wall and a lower wall. Mixed cavity, the upper and lower walls extend in a progressively higher form from a first end away from the suction port to a second end close to the suction port, the upper and lower walls from the first end to the second end The angle of inclination relative to the horizontal is between 5° and 90°, preferably between 10° and 45°, more preferably approximately 15°.

In an optional embodiment, the upper wall is substantially arc-shaped; the lower wall is composed of an arc-shaped section and a linear section; the other end of the cavity opposite to the end communicating with the suction port is kept closed , the volume of the cavity near both ends in the vertical section is greater than the volume near the middle between the first discharge port and the second discharge port.

In an alternative embodiment, the first outlet is in fluid communication with the lower wall at a higher position than the second outlet is in fluid communication with the lower wall.

In an alternative embodiment, the first outlet is in fluid communication with the lower wall at a lower position than the second outlet is in fluid communication with the lower wall.

In an optional embodiment, the health care module includes a second shell, a second electrode, a heating assembly and a health care carrier are arranged in the second shell, the second electrode is connected to the heating assembly, and the power supply connected with the second electrode, the health care carrier is configured to carry health care materials, and the heating component is configured to heat the health care materials on the health care carrier;

The second shell is provided with the second discharge port, and the second discharge port is provided on the side of the health care carrier away from the heating component.

In an optional embodiment, the health care carrier is provided with ventilation holes, and the health care material is attached to the outer surface of the health care carrier.

In an optional embodiment, the healthcare carrier is provided with a loading slot, and the healthcare material is arranged in the loading slot.

In an optional embodiment, the health care carrier is cotton, fiber, glass, wood, ceramic or metal.

In an optional embodiment, a circuit board is further provided in the casing, the power supply is connected to the circuit board, and the circuit board is respectively connected to the hydrogen production module and the health care module;

The circuit board is provided with a control switch, and the control switch is configured to control the on-off of the power supply, and the start-stop of the hydrogen production module and the health care module.

In an optional implementation manner, an operation key is provided on the casing, and the operation key is connected with the control switch.

The mixed gas fixture provided by the embodiment of the present disclosure has beneficial effects at least including:

The mixed gas fixture includes a hydrogen production module and a health care module. The hydrogen production module is configured to generate hydrogen, and the health care module is configured to generate health care component gas. The hydrogen and the health care component gas are diverted and fully mixed through the gas diversion and mixing structure. The gas mixture particles are formed in a certain mixing ratio, the gas diversion and mixing structure are compact, and the space is effectively used to obtain the gas mixture particles of hydrogen and health care component gas, so that they can enter the inhalation port together for users to inhale into the body. That is, when the user uses the mixed gas fixture, he can conveniently inhale the fully mixed hydrogen gas and health care component gas at the same time. Easy to carry.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present disclosure more clearly, the following briefly introduces the accompanying drawings that need to be used in the embodiments. It should be understood that the following drawings only show some embodiments of the present disclosure, and therefore do not It should be regarded as a limitation of the scope, and for those of ordinary skill in the art, other related drawings can also be obtained according to these drawings without any creative effort.

1 is a schematic cross-sectional structure diagram of a mixed gas fixture provided by an embodiment of the present disclosure;

2 is a schematic cross-sectional structural diagram of a hydrogen production module of a mixed gas fixture provided in an embodiment of the present disclosure;

3 is a schematic cross-sectional structure diagram of a health care module of a mixed gas fixture provided by an embodiment of the present disclosure;

FIG. 4 is another schematic cross-sectional structure diagram of the health care module of the mixed gas fixture provided by the embodiment of the present disclosure.

Icon: 100-mixed gas fixture; 110-shell; 111-cover; 113-base; 114-suction port; 115-mixing chamber; 120-hydrogen production module; 121-first exhaust port; 123-exhaust 124-first seal; 125-third outlet; 126-first housing; 127-storage cavity; 128-first electrode; 130-health module; 131-second outlet; 132-second housing ; 133-second electrode; 134-heating assembly; 135-health care carrier; 136-vent hole; 137-insulator; 138-second seal; 139-loading slot; 140-power supply; switch; 153-mode switch; 154-first key; 155-second key.

Detailed ways

In order to make the purposes, technical solutions and advantages of the embodiments of the present disclosure clearer, the technical solutions in the embodiments of the present disclosure will be described clearly and completely below with reference to the accompanying drawings in the embodiments of the present disclosure. Obviously, the described embodiments These are some, but not all, embodiments of the present disclosure. The components of the disclosed embodiments generally described and illustrated in the drawings herein may be arranged and designed in a variety of different configurations.

Therefore, the following detailed description of the embodiments of the disclosure provided in the accompanying drawings is not intended to limit the scope of the disclosure as claimed, but is merely representative of selected embodiments of the disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present disclosure.

It should be noted that like numerals and letters refer to like items in the following figures, so once an item is defined in one figure, it does not require further definition and explanation in subsequent figures.

In the description of the present disclosure, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. The indicated orientation or positional relationship is based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship that the utility model product is usually placed in use, only for the convenience of describing the present disclosure and simplifying the description, rather than indicating or It is implied that the device or element referred to must have, be constructed, and operate in a particular orientation, and therefore should not be construed as a limitation of the present disclosure. Furthermore, the terms "first", "second", "third", etc. are only used to differentiate the description and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that a component is required to be absolutely horizontal or overhang, but rather may be slightly inclined. For example, "horizontal" only means that its direction is more horizontal than "vertical", it does not mean that the structure must be completely horizontal, but can be slightly inclined.

In the description of the present disclosure, it should also be noted that, unless otherwise expressly specified and limited, the terms "arranged", "installed", "connected" and "connected" should be understood in a broad sense, for example, it may be a fixed connection, It can also be a detachable connection or an integral connection; it can be a mechanical connection or a connection; it can be a direct connection, or an indirect connection through an intermediate medium, or the internal communication between the two components. For those of ordinary skill in the art, the specific meanings of the above terms in the present disclosure can be understood in specific situations.

As we all know, hydrogen is the smallest molecule in nature. Recent studies have found that hydrogen molecules have clear physiological effects. In 2007, Ohsawa of Japan Medical University reported in Nature Medicine that the degree of cerebral ischemia/reperfusion injury can be significantly improved by breathing 2% hydrogen in animals. Dole et al. first reported that hydrogen has physiological effects. After mice breathe air mixed with hydrogen, it can effectively treat the symptoms of skin squamous cell cancer. The advantage of hydrogen is that its molecular weight is extremely small. Currently, the most recognized one is its selective antioxidant effect. Hydrogen easily penetrates biofilms and diffuses into the cytoplasm, mitochondria, and nucleus, where reactive oxygen species are easily generated and deoxyribonucleic acid is easily damaged. . At the same time, hydrogen may also be a small molecule signal releasing substance, responsible for transmitting information in the body, so it has physiological activity.

Referring to FIG. 1 , an embodiment of the present disclosure provides a mixed gas fixture 100 , which may include a housing 110 , a hydrogen production module 120 , a health care module 130 and a power supply 140 disposed in the housing 110 ; the power supply 140 is respectively connected to the hydrogen production The module 120 is connected to the health care module 130, the hydrogen production module 120 is configured to generate hydrogen gas, and the health care module 130 is configured to generate health care component gas. The housing 110 may be provided with a suction port 114, and the suction port 114 is configured to be sucked by the user's mouth. The hydrogen production module 120 may be provided with a first discharge port 121 configured to discharge hydrogen gas, and the health care module 130 may be provided with a second discharge port 131 configured to discharge health care component gas. The suction port 114 is communicated.

The top of the housing 110 may be provided with an upper cover 111, a mixing chamber 115 may be provided in the upper cover, and a gas guiding and mixing structure may be provided in the mixing chamber, and the gas guiding and mixing structure may include an upper wall and a lower wall, and the upper The wall and the lower wall extend in a gradually increasing form from one end to the other end, and the angle of inclination of the upper wall and the lower wall from one end to the other end may be between 5° and 90°, preferably between 10° and 45°, or more. Preferably approximately 15°. The upper wall is substantially arc-shaped and extends from one end to the suction port. The lower wall is composed of an arcuate section and a rectilinear section, the lower wall extends from one end to the suction port, and the lower wall is in fluid communication with the first discharge port 121 and the second discharge port 131, respectively.

In the embodiment of the present disclosure, one end of the cavity of the mixing chamber formed by the upper wall and the lower wall is sealed, and the other end is in fluid communication with the suction port 114 , and the volume of the chamber of the mixing chamber near both ends in the vertical section is relatively small , the volume in the vicinity of the middle between the first discharge port and the second discharge port is relatively large, which is conducive to forming a structure for fully mixing the gas in a limited space, and greatly improves the utilization rate of the space.

In the embodiment of the present disclosure, the position where the first discharge port 121 is in fluid communication with the lower wall may be higher than the position where the second discharge port 131 is in fluid communication with the lower wall, and the pressure of the health care ingredient gas discharged through the second discharge port The health-care ingredient gas accumulated at the bottom of the gas diversion and mixing structure is pushed upwards, and near the first discharge port at the upper part, the health-care ingredient gas is fully mixed with hydrogen, so that the hydrogen molecules wrap or fuse the molecules of the health-care ingredient gas, together. Entering the inhalation port 114, at this time, the accumulation of the health-care ingredient gas at the lower position makes the concentration of the health-care ingredient gas relatively stable, so that a certain concentration of health-care ingredient gas molecules can be stably supplied and mixed with hydrogen gas, which can ensure that the hydrogen gas wraps or fuses the health-care ingredient. The gas molecules form gas mixture particles with a stable mixing ratio.

In an optional embodiment of the present disclosure, the position at which the first discharge port 121 is in fluid communication with the lower wall may be lower than the position at which the second discharge port 131 is in fluid communication with the lower wall. Part of the health care ingredient gas discharged from the second discharge port 131 moves toward the lower direction due to its heavier weight, while the hydrogen discharged from the lower first discharge port 121 will flow upward due to its low density. The downward airflow of the health care ingredient gas meets near the region in the middle of the mixing chamber, thereby making the mixing of the hydrogen gas and the health care ingredient gas more complete.

In this way, after the hydrogen gas discharged from the hydrogen production module 120 and the health care component gas generated by the health care module 130 are mixed, mixed particles with a stable mixing ratio are formed, which enter the human body through the inhalation port 114 for the user to inhale, and produce antioxidant, physiotherapy and health benefits.

Referring to FIG. 2 , in the embodiment of the present disclosure, the suction port 114 may be disposed on the top of the casing 110 , the hydrogen production module 120 may be disposed on one side of the casing 110 , and the power source 140 may be disposed on the other side of the casing 110 , the health module 130 can be provided on the side of the power supply 140 near the top of the casing 110, and the first discharge port 121 and the second discharge port 131 can be set on the side near the top of the casing 110, so as to communicate with the suction port 114 on the top . Optionally, the hydrogen production module 120 may include a first housing 126 having a storage cavity 127, the storage cavity 127 is configured to accommodate electrolyte, and a first electrode 128 may be provided in the storage cavity 127, and the first electrode 128 is connected to the power source 140; The first housing 126 may be provided with a first discharge port 121 and a third discharge port 125, and the third discharge port 125 is configured to discharge oxygen; the position of the suction port 114 may be higher than that of the third discharge port 125 in use. The electrolyte in the embodiment of the present disclosure includes, but is not limited to, water. After the first electrode 128 is energized, the water is electrolyzed to generate hydrogen and oxygen. Since the density of hydrogen is lower than that of oxygen, the hydrogen will flow upward, and setting the position of the suction port 114 higher is conducive to the upward movement of the hydrogen gas to enter the suction port 114 for the user to inhale.

Optionally, the first housing 126 may also be provided with an exhaust channel 123 that communicates with the first exhaust port 121 , and the exhaust channel 123 extends into the storage cavity 127 so that the hydrogen generated after electrolysis can enter along the exhaust channel 123 The first discharge port 121 then enters the suction port 114 ; the exhaust port 123 is vertically arranged along the axial direction of the housing 110 . Optionally, the flow cross-sectional area of the exhaust channel 123 is small, and it is an elongated channel, which is favorable for the upward flow of hydrogen gas. To ensure the airtightness of the exhaust passage 123, a first sealing member 124 is further provided between the exhaust passage 123 and the housing 110, and the first sealing member 124 includes but is not limited to an O-ring seal.

In the embodiment of the present disclosure, the housing 110 may be provided with a mixing chamber 115 that communicates with the suction port 114, the mixing chamber 115 is located on the top of the housing 110, and the suction port 114 is connected to one side of the mixing chamber 115. Of course, not only Limited to this, the suction port 114 may be provided at any position that communicates with the mixing chamber 115 . The first discharge port 121 and the second discharge port 131 are respectively communicated with the mixing chamber 115 , so that the hydrogen gas and the health care ingredient gas are mixed in the mixing chamber 115 and then enter the suction port 114 . Since the hydrogen gas is less dense, it will float upward in the mixing chamber 115 . In the embodiment of the present disclosure, the mixing bin 115 can be designed to have a slope that is gradually inclined upward, that is, the direction from the bottom of the mixing bin 115 to the suction port 114 is inclined upward along the horizontal plane, which is conducive to the upward flow of hydrogen gas. In the process, it is fully mixed with the health care component gas, so that the hydrogen molecules wrap or fuse the molecules of the health care component gas, and enter the inhalation port 114 together, so as to reach the human body. Sex and health, physical therapy and other effects.

It can be understood that, in order to facilitate installation, the casing 110 may include a detachable upper cover 111 and a base 113, the base 113 is provided with a hydrogen production module 120 and a power supply 140, and the upper cover 111 is provided with a health care module 130 and an inhalation port 114. A mixing chamber 115 communicating with the suction port 114 is formed in the upper cover 111 . The second discharge port 131 of the health care module 130 may be disposed on the side of the mixing chamber 115 away from the suction port 114, and the first discharge port 121 of the hydrogen production module 120 is closer to the suction port 114 than the second discharge port 131, that is, the first discharge port 121 can be arranged between the first discharge port 121 and the suction port 114, and the positions of the first discharge port 121 and the second discharge port 131 are lower than the position of the suction port 114 when the mixed gas fixture 100 is in use. In this way, It is beneficial for the hydrogen to be fully fused with the health care component gas in the mixing chamber 115 when the hydrogen floats upward.

Please refer to FIG. 3 , optionally, the health care module 130 may include a second housing 132 , a second electrode 133 , a heating component 134 and a health care carrier 135 are arranged in the second housing 132 , the second electrode 133 is connected to the heating component 134 , and the power supply 140 is connected to the second electrode 133, the health care carrier 135 is configured to carry health care materials, and the heating element 134 is configured to heat the health care materials on the health care carrier 135, so that the health care materials volatilize the health care component gas. The second housing 132 is provided with a second discharge port 131. The second discharge port 131 can be provided on the side of the health care carrier 135 away from the heating element 134, so that the health care component gas can enter the mixing chamber 115 from the second discharge port 131, and can be mixed with the hydrogen gas. mix.

It can be understood that health-care materials include but are not limited to pharmaceutical formulations and various health-care products, which can be solid, gas, liquid, or solid-liquid mixture, etc. The solid can be in the form of granules, blocks or powders, which are not specifically limited here. For different user groups, the types of health care materials can be replaced or combined according to actual needs to achieve different physiotherapy and health care effects. If the health care material is solid, the health care carrier 135 can be a plate-like structure, and the health care material is attached to the outer surface of the health care carrier 135 . The heating component 134 heats and bakes the health care carrier 135 , so that the health care material emits gas containing health care components, and enters the mixing bin 115 from the second discharge port 131 . Optionally, the health care carrier 135 may be provided with ventilation holes 136, so that the heating airflow can fully heat the health care materials attached to the surface of the health care carrier 135, thereby improving the heating efficiency.

Please refer to FIG. 4 , or in other optional embodiments, a loading slot 139 may be opened on the healthcare carrier 135 , and the healthcare material is arranged in the loading slot 139 . For example, liquid or molten health care materials can be contained in the loading tank 139 , and of course, solid health care materials can also be placed in the loading tank 139 . The shape of the health care carrier 135 may be a cylinder shape, a tray shape or a plate shape, etc., which is not specifically limited here. In addition, the material used for the health care carrier 135 includes, but is not limited to, cotton, fiber, glass, wood, ceramic or metal. The heating component 134 includes, but is not limited to, resistance wire heating and other methods, which are not specifically limited here.

Optionally, the heating assembly 134 is also provided with an insulator 137, which is configured to improve the safety of the health care module 130, and also can increase the heat preservation effect of the health care module 130, so that the health care materials in the health care module 130 can be fully and uniformly heated, In order to improve the use experience of the health care module 130 . The insulator 137 includes, but is not limited to, silicone. In order to improve the air tightness of the health ingredient gas at the second discharge port 131 , a second sealing member 138 is provided on the second casing 132 corresponding to the second discharge port 131 , and the second sealing member 138 is sandwiched between the second casing 132 and the housing 110, including but not limited to O-rings.

In the embodiment of the present disclosure, a circuit board 150 may be further provided in the casing 110 , the power supply 140 is connected to the circuit board 150 , the circuit board 150 is respectively connected to the hydrogen production module 120 and the health care module 130 , and the power supply 140 is connected to the circuit board 150 respectively. The hydrogen production module 120 and the health care module 130 are powered. The circuit board 150 is disposed close to the inner wall of the casing 110 and is located on the side of the power source 140 away from the hydrogen production module 120 . A control switch may be provided on the circuit board 150 , and the control switch is configured to control the on-off of the power supply 140 and the on-off of the hydrogen production module 120 and the health-care module 130 . Optionally, the casing 110 may also be provided with operation keys, and the operation keys are connected with the control switch. The number of operation keys is two, which are the first key 154 and the second key 155 respectively. The control switch includes a power switch 151 and a mode switch 153 . One of the operation keys, namely the first key 154 , is connected to the power switch 151 and configured to control the power supply 140 on and off. Another operation key, that is, the second key 155 is connected to the mode switch 153. The mode switch 153 may include three positions. When the second key 155 slides to the first position, the circuit between the hydrogen production module 120 and the circuit board 150 is disconnected. On, the circuit between the health care module 130 and the circuit board 150 is turned on. In this state, only the health care module 130 works, the hydrogen production module 120 does not work, and the gas inhaled by the user from the inhalation port 114 is the health care component gas. When the second button 155 slides to the second station, the circuit between the hydrogen production module 120 and the circuit board 150 is turned on, the circuit between the health care module 130 and the circuit board 150 is disconnected, and only the hydrogen production module 120 works in this state. , the health care module 130 does not work, and the gas inhaled by the user from the inhalation port 114 is the hydrogen produced by the hydrogen production module 120 . When the second button 155 slides to the third station, the circuit between the hydrogen production module 120 and the circuit board 150 is turned on, and the circuit between the health care module 130 and the circuit board 150 is turned on. In this state, the health care module 130 and the hydrogen production The modules 120 work simultaneously, and the gas inhaled by the user from the inhalation port 114 is a mixture of hydrogen gas and health care ingredient gas.

It should be noted that the power supply 140 in the embodiment of the present disclosure may be a lithium battery or a dry battery, and of course, it may also be connected to an external power supply through a USB interface, etc., to supply power to the hydrogen production module 120 and the health care module 130 , which is not described here. limited.

The mixed gas fixture 100 provided by the embodiment of the present disclosure can be applied in the field of medical care, such as medical atomizing equipment or electronic cigarettes and other product fields. When a user uses the medical atomizing equipment including the mixed gas fixture 100, three types of Switching between modes, that is, only the health care ingredient gas can be inhaled from the inhalation port 114 , or only hydrogen gas can be inhaled from the inhalation port 114 , or a mixture of hydrogen gas and health care ingredient gas can be inhaled from the inhalation port 114 . Users can use it flexibly according to their own needs and preferences, so as to achieve physical therapy, health care and antioxidant effects.

The working principle of the mixed gas fixture 100 provided by the embodiment of the present disclosure is as follows:

The hydrogen production module 120 is connected to the circuit board 150, the first electrode 128 is energized, the electrolyte in the storage chamber 127 is electrolyzed, and hydrogen and oxygen are generated. The first discharge port 121 enters the mixing chamber 115 and finally reaches the suction port 114 to be sucked by the user. The health-care module 130 is connected to the circuit board 150 , the second electrode 133 is energized, and the heating component 134 heats and bakes the health-care material on the health-care carrier 135 , so that the health-care material volatilizes the health-care ingredient gas, and the health-care ingredient gas flows from the second outlet 131 After entering the mixing chamber 115, after being mixed with hydrogen, it finally reaches the suction port 114 and is sucked by the user. During the process of floating upward in the mixing chamber 115, the hydrogen gas wraps and fuses the gas molecules of the health care components, and is fully mixed and sucked by the user, which plays the role of health care physiotherapy, anti-oxidation, etc., which is beneficial to the user's health.

The hydrogen production module 120 in the embodiment of the present disclosure uses an electrolysis method to produce hydrogen gas, which does not generate other gases, is harmless to the human body, and has a simple structure and high hydrogen obtaining efficiency. The hydrogen production module 120 and the health care module 130 can be replaced, are easy to assemble and disassemble, have a long service life, and have three working modes, which can be flexibly switched to meet different user groups, with high flexibility and good user experience.

To sum up, the mixed gas fixture 100 provided by the embodiment of the present disclosure has the following beneficial effects:

The mixed gas fixture 100 is compact in structure, small in volume, and easy to carry. The hydrogen production module 120 and the health care module 130 realize the diversity of functions, which not only has the effect of anti-oxidation, but also realizes the effect of physical therapy and health care. The hydrogen production module 120, the health care module 130 and the power supply 140 are replaceable, easy to assemble and disassemble, and have a long service life. In addition, the mixed gas fixture 100 has three working modes, which can be switched flexibly to meet different user groups and achieve different health care effects, with high flexibility and good user experience.

The above descriptions are only preferred embodiments of the present disclosure, and are not intended to limit the present disclosure. For those skilled in the art, the present disclosure may have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present disclosure shall be included within the protection scope of the present disclosure.

Industrial Applicability:

An embodiment of the present disclosure provides a mixed gas fixture, the mixed gas fixture includes a hydrogen production module and a health care module, the hydrogen production module is configured to generate hydrogen, and the health care module is configured to generate health care component gas, and the Hydrogen and health care ingredient gas are diverted and fully mixed to form gas mixed particles in a certain mixing ratio. The gas diversion and mixing structure is compact, and the space is effectively used to obtain the gas mixed particles of hydrogen and health care ingredient gas, so that they can enter the inhalation together. mouth for inhalation by the user. That is, when the user uses the mixed gas fixture, he can conveniently inhale the fully mixed hydrogen gas and health care component gas at the same time. Easy to carry.

Claims

A mixed gas fixture is characterized in that it comprises a casing and a hydrogen production module, a health care module and a power source arranged in the casing; the power source is respectively connected to the hydrogen production module and the health care module, and the The hydrogen production module is configured to generate hydrogen, and the health care module is configured to generate health care component gas;

The casing is provided with a suction port, the hydrogen production module is provided with a first discharge port configured to discharge the hydrogen gas, and the health care module is provided with a second discharge port configured to discharge the health care component gas, so the Both the first discharge port and the second discharge port communicate with the suction port.
The mixed gas fixture according to claim 1, wherein the hydrogen production module comprises a first housing having a storage cavity, the storage cavity is configured to accommodate an electrolyte, and the storage cavity is provided with a first electrode , the first electrode is connected to the power supply; the first housing is provided with the first discharge port;

The first shell is further provided with a third discharge port, and the third discharge port is configured to discharge oxygen; the position of the suction port is higher than the position of the third discharge port in a use state.
The mixed gas fixture according to claim 2, wherein the first casing is further provided with an exhaust passage communicating with the first exhaust port, and the exhaust passage is along the axis of the casing to the settings.
The mixed gas fixture according to claim 1, wherein the housing is provided with a mixing chamber communicating with the suction port, and the first discharge port and the second discharge port are respectively connected to the The mixing chamber is in communication, so that the hydrogen gas and the health care ingredient gas enter the suction port after being mixed in the mixing chamber.
The mixed gas fixture according to claim 4, wherein the mixing chamber comprises a gas guiding and mixing structure communicated with the suction port, and the gas guiding and mixing structure comprises an upper wall and a lower wall A defined cavity for gas guiding and mixing, the upper and lower walls extending in a gradually increasing form from a first end away from the suction port to a second end close to the suction port, the upper and lower walls extending from The angle at which the first end to the second end are inclined relative to the horizontal direction is between 5° and 90°, preferably between 10° and 45°, more preferably approximately 15°.
The mixed gas fixture according to claim 5, wherein the upper wall is substantially arc-shaped; the lower wall is composed of an arc-shaped section and a linear section; and the cavity is communicated with the suction port One end of the cavity opposite to the other end is kept closed, and the volume of the cavity near the two ends in the vertical section is greater than the volume near the middle between the first discharge port and the second discharge port.
The mixed gas fixture according to claim 6, wherein a position where the first discharge port is in fluid communication with the lower wall is higher than a position at which the second discharge port is in fluid communication with the lower wall .
The mixed gas fixture according to claim 6, wherein a position where the first discharge port is in fluid communication with the lower wall is lower than a position where the second discharge port is in fluid communication with the lower wall .
The mixed gas fixture according to any one of claims 1 to 8, wherein the health care module comprises a second shell, and the second shell is provided with a second electrode, a heating component and a health care carrier, so The second electrode is connected to the heating component, the power source is connected to the second electrode, the health care carrier is configured to carry health care materials, and the heating component is configured to heat the health care materials on the health care carrier;

The second shell is provided with the second discharge port, and the second discharge port is provided on the side of the health care carrier away from the heating component.
The mixed gas fixture according to claim 9, wherein the health care carrier is provided with ventilation holes, and the health care material is attached to the outer surface of the health care carrier.
The mixed gas fixture according to claim 9 or 10, wherein the health care carrier is provided with a loading groove, and the health care material is provided in the loading groove.
The mixed gas fixture according to any one of claims 9 to 11, wherein the health care carrier is made of cotton, fiber, glass, wood, ceramic or metal.
The mixed gas fixture according to any one of claims 1 to 12, wherein a circuit board is further provided in the housing, the power supply is connected to the circuit board, and the circuit boards are respectively connected to the circuit boards. The hydrogen production module is connected with the health care module;

The circuit board is provided with a control switch, and the control switch is configured to control the on-off of the power supply, and the start-stop of the hydrogen production module and the health care module.
The mixed gas fixture according to claim 13, wherein an operation key is provided on the casing, and the operation key is connected with the control switch.