CN211358400U - Hydrogen water mixing device and hydrogen-rich bathing instrument - Google Patents

Abstract

The utility model discloses a hydrogen water mixing arrangement, including hydrogen generator, hydrogen mixer and water pump, the water pump is installed on the inlet channel of hydrogen mixer in order to add water in the hydrogen mixer, and the hydrogen generator generates hydrogen and meets the air inlet of hydrogen mixer to carry hydrogen to the hydrogen mixer, the hydrogen mixer mixes hydrogen and water in order to generate hydrogen-rich water, the hydrogen mixer including storage hydrogen and hydrogen-rich water's mixing container, install in the mixing container in and the hydrogen water hybrid tube of intercommunication inlet channel, set up the hydrogen sunction inlet of a plurality of intercommunication mixing container inner spaces on the hydrogen water hybrid tube and be located the oxygen-rich water jet outlet of hydrogen sunction inlet below, air inlet and hydrogen sunction inlet are located mixing container more than the surface of water, and the pressure of hydrogen water hybrid tube normal water is less than the pressure of hydrogen in the mixing container. Compared with the prior art, the hydrogen-rich water prepared by the method has good mixing degree and long preservation time. The utility model also discloses a hydrogen-rich bathing instrument that corresponds.

Description

Hydrogen water mixing device and hydrogen-rich bathing instrument

Technical Field

The utility model relates to a hydrogen-rich water preparation especially relates to a hydrogen-rich water preparation of bathing usefulness.

Background

Refer to chinese patent CN20181108458.2, disclose a hydrogen water mixing device, this kind of hydrogen water mixing device includes hydrogen generator, pressure boost jar and mixing reaction jar, mixing reaction jar carries the hydrogen that hydrogen generator produced to the mixing reaction jar in after the pressure boost jar is pressurized, through the pressurization stirring with the water in the mixing reaction jar mixing together, this kind of mode can make hydrogen and water part mix together, but the mixing degree is not enough, water and hydrogen combine not closely enough, this hydrogen-rich water is in long-time storage, hydrogen is very easily analyzed out from the aquatic, can not store for a long time.

And a large part of hydrogen in the prepared hydrogen-rich water is not dissolved in water, and when the hydrogen-rich water is used for bathing, the water-insoluble hydrogen can overflow quickly after being sprayed out by a spray head, so that waste is caused.

Therefore, there is a high necessity for a hydrogen-water mixing device and a bathing device which can solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydrogen water mixing arrangement and rich hydrogen appearance of bathing, hydrogen water degree of mixing is good, and the save time is long.

In order to realize the purpose, the utility model discloses a hydrogen-water mixing device, which comprises a hydrogen generator, a hydrogen-water mixer and a water pump, the water pump is arranged on a water inlet pipeline of the hydrogen-water mixer to add water into the hydrogen-water mixer, the hydrogen generator generates hydrogen and is connected with an air inlet of the hydrogen-water mixer, to deliver the hydrogen gas into a mixing vessel of the hydrogen-water mixer, the hydrogen-water mixer mixing hydrogen gas and water to generate hydrogen-enriched water, the hydrogen-water mixer also comprises a hydrogen-water mixing pipe which is arranged in the mixing container and communicated with the water inlet pipeline, the hydrogen-water mixing pipe is provided with a plurality of hydrogen suction inlets communicated with the space in the mixing container and an oxygen-enriched water ejection outlet positioned below the hydrogen suction inlets, the gas inlet and the hydrogen gas suction inlet are positioned above the water surface of the mixing container, and the pressure of water at the hydrogen gas suction inlet is smaller than that of hydrogen gas.

Compared with the prior art, the utility model discloses a hydrogen water mixing device, through the hydrogen water hybrid tube that has the hydrogen sunction inlet, when mixing container intake, mix hydrogen in the hydrogen water hybrid tube of intaking gradually, not only make the fine solution of hydrogen make hydrogen water in the aquatic, hydrogen and water in the hydrogen water combine closely, and the air inlet is located moreover mixing container's the pressure that the surface of water above and hydrogen pressure is greater than the water pump and provides to hydrogen water hybrid tube normal water for hydrogen in the mixing container is difficult for spilling over the surface of water, can preserve the time of sufficient length.

Preferably, the hydrogen suction inlet is located above the highest water line of the mixing vessel, and the oxygen-enriched water ejection outlet is located at the lower end of the hydrogen-water mixing pipe and below the lowest water line of the mixing vessel.

Preferably, the water inlet of the hydrogen-water mixer is positioned at the top of the mixing container, and the water inlet pipeline is connected with the water inlet to add water into the hydrogen-water mixer.

Specifically, the inlet channel pass through the water inlet to add water in the hydrogen water blender, be provided with the intercommunication in the hydrogen water blender the water inlet with the water inlet channel of oxygen-enriched water jet out the mouth, water inlet channel is vertical form, the hydrogen sunction inlet is located the water inlet with between the oxygen-enriched water jet out the mouth.

Preferably, the hydrogen gas suction port is provided above the highest water line of the mixing container.

Specifically, the hydrogen suction inlet is arranged at the top of the mixing container.

Preferably, the hydrogen water mixing device further comprises a pure water tank, the pure water tank stores pure water, the hydrogen generator is connected with a water outlet pipe of the pure water tank, receives the pure water of the pure water tank, processes the pure water into hydrogen and oxygen, conveys the oxygen to the pure water tank, and conveys the hydrogen to the hydrogen mixer.

Preferably, a check valve is arranged at the hydrogen suction port.

The utility model also discloses a hydrogen-rich bathing appearance, including hydrogen water mixing arrangement, outlet conduit, water valve and nozzle assembly, hydrogen water mixing arrangement is as above, outlet conduit connects the delivery port of hydrogen water mixer, the water valve install in with control on the outlet conduit hydrogen-rich water's output, nozzle assembly install in outlet conduit's export.

Preferably, the nozzle assembly includes a small nozzle communicated with the outlet of the water outlet pipe, a large nozzle disposed at an outer side of the small nozzle at a certain interval, a water storage space formed between the small nozzle and the large nozzle and communicating the large nozzle and the small nozzle, and a filter net installed at an inner side of the small nozzle, and an aperture of the small nozzle is larger than that of the large nozzle. In this scheme, the water pressure that the water pump produced jets out from the nozzle of minim, after separating into tiny hydrone through the filter screen, through the further mixture in temporary water storage space, increases hydrogen and water's conjugation degree, then jets out from the nozzle of the aperture littleer big, forms the hydrogen-rich water of atomization effect, prevents that hydrogen from overflowing from the aquatic.

Drawings

Fig. 1 is a three-dimensional structure diagram of the hydrogen-water mixing device of the present invention.

Fig. 2 is a schematic structural view of the hydrogen-rich bathing instrument of the present invention.

Fig. 3a is a schematic plan view of a small nozzle in the nozzle assembly of the present invention.

Figure 3b is a schematic plan view of a screen in the nozzle assembly of the present invention.

Fig. 3c is a schematic plan view of a large nozzle in the nozzle assembly of the present invention.

Figure 3d is the plane view of the inlet pipe entrance filter screen of the utility model.

Fig. 4 is a schematic structural diagram of the hydrogen-water mixer 20 according to the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1, 2 and 4, the present invention discloses a hydrogen water mixing device 100, including a hydrogen generator 10, a hydrogen water mixer 20 and a water pump 30, the water pump 30 is installed on a water inlet pipe 40 to add water into the hydrogen water mixer 20, the hydrogen generator 10 generates hydrogen 11 and is connected to an air inlet 201 of the hydrogen water mixer 20 through a hydrogen pipe 13 to deliver the hydrogen 11 to the hydrogen water mixer 20, the hydrogen water mixer 20 mixes the hydrogen 11 with water to generate hydrogen water, the hydrogen water mixer 20 includes a mixing container 21 for storing hydrogen and hydrogen water, a hydrogen water mixing pipe 22 installed in the mixing container 21 and at least partially installed on the upper half of the mixing container 21 and communicated with the water inlet pipe 40, the hydrogen water mixing pipe 22 is located on the upper half of the mixing container 20 and is provided with a plurality of hydrogen suction inlets 221 communicated with the space in the mixing container 20, an oxygen-enriched water ejection outlet 222 is formed at the lower end of the hydrogen-water mixing pipe 22, the pressure of water at the hydrogen suction inlet 221 is lower than that of hydrogen in the mixing container 20, and the air inlet 201 and the hydrogen suction inlet 221 are located above the water surface of the mixing container 20.

Of course, the oxygen-enriched water discharge port 222 may be attached to another part of the hydrogen-water mixing pipe 22, and may be located downstream of the hydrogen gas suction port 221, and is preferably located below the water surface. The outlet of the water inlet pipe 40, the hydrogen gas suction inlet 221, and the oxygen-enriched water discharge outlet 222 are provided in this order along the hydrogen-water mixing pipe 22.

In this embodiment, the pressure of the hydrogen generated by the hydrogen generator is 5kg at most, and the pressure generated by pumping water from the water pump 30 in the hydrogen mixer 20 is 3kg-3.5kg, so the water in the hydrogen mixer 20 is 3/2 and 3/1 according to the pressure difference.

Wherein, in order to increase the pressure of the hydrogen on the water surface of the mixing container 20, a pressurizing pump can be further installed on the hydrogen pipeline 13.

Wherein, a check valve is arranged at the hydrogen suction inlet 221.

Wherein the hydrogen gas inlet 221 is located above the highest water line of the mixing container 21.

Wherein the oxygen-enriched water outlet 222 is located below the lowest water level of the mixing container 21.

Preferably, the hydrogen gas inlet 221 is provided above the highest water line of the mixing container 20. Wherein, the hydrogen gas suction inlet 221 is provided at the top of the mixing container 20.

Preferably, the water inlet 202 of the hydrogen-water mixer is located at the top of the mixing container 21, and the water inlet pipe 40 is connected to the water inlet 202 to add water into the hydrogen-water mixer 20.

Wherein, be provided with the intercommunication in the hydrogen water mixing pipe 22 the water inlet 202 with the water inlet passageway of rich oxygen water export 222, the water inlet passageway is vertical form, is convenient for inhale hydrogen 11, hydrogen sunction inlet 221 intercommunication water inlet passageway's side and lie in between water inlet 202 and the rich oxygen water export 222.

Referring to fig. 1 and 2, the hydrogen-water mixing apparatus 100 further includes a pure water tank 50, the pure water tank 50 storing pure water, the hydrogen generator 10 being connected to an outlet pipe of the pure water tank 50, receiving the pure water of the pure water tank 50, processing the pure water into hydrogen gas 11 and oxygen gas 12, supplying the oxygen gas 12 to the pure water tank 50, and supplying the hydrogen gas 11 to the hydrogen-water mixer 20.

Referring to fig. 2, the utility model also discloses a hydrogen-rich bathing appearance 200, including hydrogen water mixing arrangement 100, outlet conduit 61, water valve 62 and nozzle assembly 63, outlet conduit 61 connects the delivery port 203 of hydrogen water mixer 20, water valve 62 install in with control on the outlet conduit 64 the output of hydrogen-rich water, nozzle assembly 63 install in the export of outlet conduit 64.

Wherein the water valve 62 is an electromagnetic valve.

Referring to fig. 2 to 3c, the nozzle assembly 63 includes a small nozzle 631 communicating with the outlet of the outlet pipe 61, a large nozzle 632 disposed at an outer side of the small nozzle 631 with a certain distance, a water storage space 633 formed between the small nozzle 631 and the large nozzle 632 and communicating the large nozzle 632 and the small nozzle 631, and a strainer 634 installed at an inner side of the small nozzle 631, and an aperture of a through hole 6311 of the small nozzle 631 is larger than an aperture of a through hole 6321 of the large nozzle 632. The water pressure generated by the water pump 30 is emitted from the small nozzle 631, is divided into fine water molecules by the screen 634, is further mixed in the temporary water storage space 633 to increase the degree of combination of hydrogen and water, and is emitted from the large nozzle 632 with a smaller aperture to form hydrogen-rich water with an atomization effect. Of course, a water pump may be added to the outlet conduit 61 to increase the pressure of water entering the nozzle assembly 63. At least one through hole 6311 is provided on the small nozzle 631, and a plurality of through holes 6321 are provided on the large nozzle 632. 3

Referring to fig. 2 and 3d, a strainer 41 is provided at an inlet of the water inlet pipe 40 to filter water to prevent impurities from clogging the water pump 30.

Wherein, this hydrogen water mixing device 100 still includes controller and switching power supply, the controller includes the step-down module, a single-chip microcomputer, conversion module, indicating module, a display module, control module and button, be provided with level sensor in the pure water tank 50, level sensor responds to the water level in the pure water tank 50, conversion module carries out the water level and carries to control module after analog-to-digital conversion, the single-chip microcomputer carries out concrete control, the red light in the control indicating module is bright when the water level is less than the default, and control indicating module pronunciation remind the user to add water toward pure water tank 50, when pure water tank 50's water yield is sufficient, single-chip microcomputer control indicating module's green light is bright. The indicating module comprises a voice module, an LED and the like. The single chip microcomputer controls the display module to display the bathing state, the voltage reduction module is connected between the switching power supply and the single chip microcomputer, and 24V direct current of the switching power supply is converted into 5V direct current to supply power to the single chip microcomputer. The keys output control commands to the single chip microcomputer, and the single chip microcomputer controls the water pump 30 and the water valve 62 to act according to the control commands. Of course, the singlechip controls the hydrogen generator 10 to act when the water pump 30 acts.

The single chip microcomputer comprises an STC89C52RC chip, the conversion module comprises a TLC549AD analog-to-digital conversion chip, and the display module comprises a 1602LCD display screen.

Referring to fig. 1 to 4, in a normal state, hydrogen-rich water is stored in the mixing container 20, and the space in the mixing container 20 is filled with hydrogen gas with sufficient pressure, when a user needs to take a bath, the button is pressed, the single chip microcomputer controls the water pump 30 to operate, controls the hydrogen generator 10 to generate hydrogen gas, and controls the water valve 62 to open, the hydrogen-rich water is ejected from the water outlet pipe 61 under pressure from the lower nozzle 631 under the pressure of the water pump, is separated into fine water molecules by the filter screen 634, is further mixed by the temporary water storage space 633, and is ejected from the large nozzle 632 with smaller aperture, so that the hydrogen-rich water with an atomization effect is formed. The water pump 30 acts and feeds water into the water inlet passage 223 at a certain pressure, and because the pressure of the hydrogen gas at the hydrogen gas suction inlet 221 is greater than that of the water in the water inlet passage 223, the hydrogen gas enters the water inlet passage 223 from the hydrogen gas suction inlet 221 under the driving of the pumping pressure of the water pump, and then is ejected from the oxygen-enriched water ejection outlet 222. The oxygen-enriched water ejection outlet 222 is an outlet nozzle.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. A hydrogen-water mixing device comprising a hydrogen generator, a hydrogen-water mixer, and a water pump mounted on a water inlet pipe of the hydrogen-water mixer to feed water into the hydrogen-water mixer, the hydrogen generator generating hydrogen gas and connecting an air inlet of the hydrogen-water mixer to deliver the hydrogen gas into a mixing container of the hydrogen-water mixer, the hydrogen-water mixer mixing hydrogen and water to generate hydrogen-rich water, characterized in that: the hydrogen water blender is still including installing in the mixing vessel and feed through the hydrogen water mixing pipe of inlet channel, a plurality of intercommunications have been seted up on the hydrogen water mixing pipe the hydrogen sunction inlet of mixing vessel inner space with be located the rich oxygen water of hydrogen sunction inlet below jets out the mouth, air inlet and hydrogen sunction inlet are located mixing vessel's the surface of water more, just the pressure of hydrogen sunction inlet entry water is less than the pressure of hydrogen.

2. The hydrogen water mixing device of claim 1, characterized in that: the hydrogen sunction inlet is located above mixing vessel's the highest water line, oxygen-enriched water jets out the mouth and is located hydrogen water mixing tube lower extreme just is located below mixing vessel's the lowest water line.

3. The hydrogen water mixing device of claim 1, characterized in that: the water inlet of the hydrogen-water mixer is positioned at the top of the mixing container, and the water inlet pipeline is connected with the water inlet to add water into the hydrogen-water mixer.

4. The hydrogen water mixing device of claim 1, characterized in that: the inlet channel pass through the water inlet to add water in the hydrogen water blender, be provided with the intercommunication in the hydrogen water blender the water inlet with the water inlet channel of oxygen-enriched water jets out the mouth, water inlet channel is vertical form, the hydrogen sunction inlet is located the water inlet with between the oxygen-enriched water jets out the mouth.

5. The hydrogen water mixing device of claim 1, characterized in that: the hydrogen suction inlet is arranged above the highest water line of the mixing container.

6. The hydrogen water mixing device of claim 5, characterized in that: the hydrogen suction inlet is arranged at the top of the mixing container.

7. The hydrogen water mixing device of claim 1, characterized in that: the hydrogen generator is connected with a water outlet pipe of the pure water tank, receives the pure water of the pure water tank, processes the pure water into hydrogen and oxygen, conveys the oxygen to the pure water tank, and conveys the hydrogen to the hydrogen mixer.

8. The hydrogen water mixing device of claim 1, characterized in that: and a check valve is arranged at the hydrogen suction inlet.

9. The hydrogen-rich bathing instrument is characterized in that: comprising a hydrogen water mixing device according to any of claims 1-8, an outlet conduit connected to a water outlet of the hydrogen water mixer, a water valve mounted on the outlet conduit for controlling the output of the hydrogen water, and a nozzle assembly mounted at the outlet of the outlet conduit.

10. The hydrogen rich bathing apparatus of claim 9 wherein: the nozzle assembly comprises a small nozzle communicated with an outlet of the water outlet pipeline, a large nozzle arranged outside the small nozzle at a certain interval, a water storage space formed between the small nozzle and the large nozzle and communicated with the large nozzle and the small nozzle, and a filter screen arranged on the inner side of the small nozzle, wherein the aperture of the small nozzle is larger than that of the large nozzle.

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