阅读说明：本技术 一种富氢水的制备设备 (Hydrogen-rich water's preparation equipment ) 是由 何水兵 张秀华 何龙巍 于 2021-09-15 设计创作，主要内容包括：本发明涉及一种富氢水的制备设备,采用将氢气输送管路接在第一切割挤压装置与气液混合容器之间,自来水通过第一切割挤压装置切割挤压形成高压射流使氢气输送管路产生负压,以达到高压射流带着氢气一起进入气液混合容器进行第一次气液混合,然后经过切割挤压装置组对氢水进行挤压切割运动产生浓度高、流量大的纳米级的气泡氢水,使得氢气融于水后短时间内不会逃逸,实现用户通过洗氢水的方式使得氢气进入人体。(The invention relates to a preparation device of hydrogen-rich water, which is characterized in that a hydrogen conveying pipeline is connected between a first cutting and extruding device and a gas-liquid mixing container, tap water is cut and extruded by the first cutting and extruding device to form high-pressure jet flow so that the hydrogen conveying pipeline generates negative pressure, the high-pressure jet flow drives hydrogen to enter the gas-liquid mixing container together for first gas-liquid mixing, then the hydrogen is extruded and cut by the cutting and extruding device to generate nanoscale bubble hydrogen water with high concentration and large flow, the hydrogen is enabled to be melted in water and not to escape in a short time, and a user can enable the hydrogen to enter a human body in a hydrogen washing way.)

1. The utility model provides a preparation equipment of hydrogen-rich water, includes water outlet device (2) through pipeline (1) and external running water switch-on, its characterized in that still includes hydrogen generator (3), it has water intaking valve (4), first cutting extrusion device (5), gas-liquid mixing container (6), cutting extrusion device group (7) to connect gradually along the running water direction on pipeline (1), hydrogen export (3.1) have been seted up on hydrogen generator (3), hydrogen export (3.1) switch-on is on pipeline (1) between first cutting extrusion device (5) and gas-liquid mixing container (6) through hydrogen pipeline (8).

2. The apparatus for producing hydrogen-rich water according to claim 1, further comprising a PLC controller (9), wherein the hydrogen generator (3), the water inlet valve (4), the first cutting and extruding means (5), the gas-liquid mixing container (6), and the cutting and extruding means group (7) are electrically connected to the PLC controller.

3. The apparatus for preparing hydrogen-rich water according to claim 2, characterized in that the cutting and squeezing device set (7) comprises at least 1 cutting water path (7.1), a second cutting and squeezing device (7.2) is connected to each cutting water path (7.1), the cutting water path (7.1) and the cutting water path (7.1) are connected in parallel, and the second cutting and squeezing device (7.2) is electrically connected to the PLC (9).

4. The apparatus for preparing hydrogen-rich water according to claim 2, characterized in that a pressure dividing branch (10) is connected to a pipeline between the cutting and squeezing device set (7) and the water outlet device (2), a pressure switch (11) and a water inlet solenoid valve (12) are connected to the pressure dividing branch (10), and the pressure switch (11) is electrically connected to the water inlet solenoid valve (12).

5. The equipment for preparing hydrogen-rich water according to claim 4, characterized in that a high-voltage switch (13) and a ball valve switch (14) are connected in sequence between the corresponding partial pressure branch (10) of the pipeline (1) and the water outlet device (2), and the high-voltage switch (13) and the ball valve switch (14) are electrically connected with the PLC (9).

6. The apparatus for preparing hydrogen-rich water according to claim 5, characterized in that the hydrogen delivery line (8), the position of the pipeline (1) corresponding to the position between the first cutting and pressurizing device (5) and the hydrogen delivery line (8), the position of the pipeline (1) corresponding to the position between the partial pressure branch (10) and the high pressure switch (13), and the cutting water path (7.1) after the second cutting and extruding device (7.2) are respectively connected with a check valve (15).

7. The apparatus for the production of hydrogen-rich water according to claim 2, characterized in that the hydrogen generator (3) comprises a pure water tank (3.2) for feeding pure water via a pure water line (3.9), an electrolysis cell (3.3) connected to the pure water tank (3.2), and a suction pump (3.4) connected to the pure water line (3.9), a water level probe (3.5) is arranged at a set height position in the pure water tank (3.2), a power supply electrode (3.6) is arranged in the electrolytic bath (3.3), a hydrogen outlet (3.1) is arranged at the cathode of the electrolytic cell (3.3) corresponding to the power supply electrode (3.6), an oxygen outlet (3.7) is arranged at the anode of the electrolytic cell (3.3) corresponding to the power supply electrode (3.6), the oxygen outlet (3.7) is communicated with the pure water tank (3.2) through an oxygen conveying pipeline (3.8), and the power supply electrode (3.6) and the water suction pump (3.4) are electrically connected with the PLC (9).

8. The apparatus for the preparation of hydrogen-rich water according to claim 2, characterized in that a flow meter (16) is connected to the conduit (1) between the inlet valve (4) and the first cutting and extrusion device (5), the flow meter (16) being electrically connected to the PLC controller (9).

Technical Field

The invention relates to the technical field of hydrogen-rich water preparation, in particular to hydrogen-rich water preparation equipment.

Background

With the rapid development of economy and the gradual improvement of living standard, people pay more and more attention to the physical health of the people. Hydrogen-rich water is hydrogen reducing water, is drinking water which contains hydrogen with strong reducing power in water, can clear excess active oxygen in vivo through the oxidation and reduction resistance of the hydrogen-rich water, neutralize various acid metabolites in vivo, prevent physical body acidification, eliminate various disease hidden dangers, has strong penetrability and dissolving power, can effectively promote metabolism, discharge vivotoxin, improve human immunity and has certain key reporting function.

The invention relates to a method for introducing hydrogen into a human body, which comprises three ways of introducing hydrogen into the human body, namely drinking hydrogen, absorbing hydrogen and washing hydrogen.

Disclosure of Invention

The invention solves the problem of how to manufacture hydrogen-enriched water which can not escape in a short time and is convenient to pass through a hydrogen washing water mode.

In order to solve the problems, the invention provides equipment for preparing hydrogen-rich water, which comprises a water outlet device communicated with external tap water through a pipeline and a hydrogen generator, wherein the pipeline is sequentially connected with a water inlet valve, a first cutting and extruding device, a gas-liquid mixing container and a cutting and extruding device group along the water flow direction, the hydrogen generator is provided with a hydrogen outlet, and the hydrogen outlet is communicated with the pipeline between the first cutting and extruding device and the gas-liquid mixing container through a hydrogen conveying pipeline.

The invention has the beneficial effects that: according to the invention, a hydrogen conveying pipeline is connected between a first cutting and extruding device and a gas-liquid mixing container, tap water is cut and extruded by the first cutting and extruding device to form high-pressure jet flow so that the hydrogen conveying pipeline generates negative pressure, so that the high-pressure jet flow carries hydrogen together to enter the gas-liquid mixing container for first gas-liquid mixing, then hydrogen water is extruded and cut by the cutting and extruding device to generate nanoscale bubble hydrogen water with high concentration and large flow, the hydrogen gas is enabled not to escape in a short time after being dissolved in water, and a user can enable the hydrogen gas to enter a human body in a hydrogen water washing mode.

Preferably, the hydrogen-rich water preparation equipment further comprises a PLC (programmable logic controller), and the hydrogen generator, the first cutting and extruding device, the gas-liquid mixing container and the cutting and extruding device group are electrically connected with the PLC, so that the automatic control of hydrogen production equipment is realized, and the operation by a user is facilitated.

As preferred, cutting extrusion device group has connect the second on every group cutting water route including 1 at least group cutting water route, and cuts parallelly connected each other between water route and the cutting water route, the second cuts extrusion device and is connected with the PLC controller electricity, and the setting of cutting extrusion device group can be according to the large-traffic hydrogen water of user's demand, satisfies normal shower demand, improves the comfort level of bathing.

Preferably, a pressure dividing branch is connected to a pipeline between the cutting and extruding device group and the water outlet device, a pressure switch and a water inlet electromagnetic valve are connected to the pressure dividing branch, the pressure switch is electrically connected with the water inlet electromagnetic valve, the pressure switch is switched on by the aid of the pressure dividing branch when the water pressure in the pipeline is greater than 0.6MPa, the water inlet electromagnetic valve is controlled by the pressure switch to perform pressure relief operation, and the situation that the whole machine of the preparation equipment is operated all the time when a PLC (programmable logic controller) fails is avoided, and the first cutting and extruding device and the second cutting and extruding device are operated all the time to generate 1.2MPa high pressure to cause safety influence on a human body is avoided.

Preferably, a high-voltage switch and a ball valve switch are sequentially connected between the corresponding partial pressure branch of the pipeline and the water outlet device, the high-voltage switch and the ball valve switch are electrically connected with a PLC (programmable logic controller), and the PLC controls the ball valve switch to be opened and controls the high-voltage switch to be closed when the whole preparation equipment starts to work; when the whole preparation equipment stops working, the PLC controls the ball valve switch to be turned off and the high-voltage switch to be turned off.

Preferably, the hydrogen conveying pipeline, the position of the pipeline corresponding to the position between the first cutting and pressurizing device and the hydrogen conveying pipeline, the position of the pipeline corresponding to the position between the partial pressure branch and the high-pressure switch, and the cutting water path behind the second cutting and extruding device are respectively connected with a check valve, so that the flow direction of water flow in the pipeline and the flow direction of hydrogen in the hydrogen conveying pipeline can be ensured through the check valves, and the safety of the whole operation of the preparation equipment is ensured.

Preferably, the hydrogen generator comprises a pure water tank which is connected with pure water through a pure water waterway, an electrolytic tank which is communicated with the pure water tank and a water suction pump which is connected with the pure water waterway, a water level probe is arranged at a set height position in the pure water tank, a power electrode is arranged in the electrolytic tank, a hydrogen outlet is arranged at the cathode of the electrolytic tank corresponding to the power electrode, an oxygen outlet is arranged at the anode of the electrolytic tank corresponding to the power electrode, the oxygen outlet is communicated with the pure water tank through an oxygen conveying pipeline, and the power electrode and the water suction pump are both electrically connected with the PLC.

Preferably, a flow meter is connected to a pipeline between the water inlet valve and the first cutting and extruding device, and the flow meter is electrically connected with the PLC, so that the flow and the time can be set as expected.

Drawings

FIG. 1 is a schematic diagram of the construction and operation of the present invention;

FIG. 2 is a schematic pipeline diagram between the first cutting and extruding device and the gas-liquid mixing container and the hydrogen gas conveying pipeline;

fig. 3 is a schematic diagram of the PLC controller circuit connection according to the present invention.

Description of reference numerals:

1. a pipeline; 2. a water outlet device; 3. a hydrogen generator; 3.1, a hydrogen outlet; 3.2, a pure water tank; 3.3, an electrolytic cell; 3.4, a water pump; 3.5, a water level probe; 3.6, power supply electrode; 3.7, an oxygen outlet; 3.8, an oxygen conveying pipeline; 3.9, a pure water waterway; 4. a water inlet valve; 5. a first cutting and extruding device; 6. a gas-liquid mixing container; 7. cutting the extrusion device set; 7.1, cutting a waterway; 7.2, a second cutting and extruding device; 8. a hydrogen gas delivery line; 9. a PLC controller; 10. a voltage dividing branch; 11. a pressure switch; 12. a water inlet electromagnetic valve; 13. a high voltage switch; 14. a ball valve switch; 15. a check valve; 16. a flow meter.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

A hydrogen-rich water preparation device comprises a water outlet device 2 communicated with external tap water through a pipeline 1, such as a shower device, a water outlet tap and the like, and further comprises a hydrogen generator 3, wherein a water inlet valve 4, a first cutting and extruding device 5, a gas-liquid mixing container 6 and a cutting and extruding device group 7 are sequentially connected to the pipeline 1 along the water flow direction, a hydrogen outlet 3.1 is formed in the hydrogen generator 3, and the hydrogen outlet 3.1 is communicated with the pipeline 1 between the first cutting and extruding device 5 and the gas-liquid mixing container 6 through a hydrogen conveying pipeline 8;

firstly, hydrogen generated by a hydrogen generator 3 enters a hydrogen conveying pipeline 8 in a single direction under the action of a check valve 15, meanwhile, when a user needs to use water, external tap water is introduced into a pipeline 1 through a water inlet valve 4, high-pressure jet flow with set water pressure is generated through the cutting motion of a first cutting and extruding device 5 and flows to a gas-liquid mixing container 6, meanwhile, as shown in fig. 2, when the high-pressure jet flow passes through the hydrogen conveying pipeline 1 communicated with the pipeline 1, the hydrogen conveying pipeline 1 generates negative pressure, and the hydrogen enters the gas-liquid mixing container 6 along with the high-pressure jet flow to perform first gas-liquid mixing to generate hydrogen water; then, the hydrogen water enters the cutting and extruding device set 7 to be cut and extruded for the second time to generate the nanoscale bubble hydrogen-rich water with set flow, pressure and hydrogen concentration.

Meanwhile, the hydrogen-rich water preparation equipment also comprises a PLC (programmable logic controller) 9, wherein the hydrogen generator 3, the first cutting and extruding device 5, the gas-liquid mixing container 6 and the cutting and extruding device group 7 are electrically connected with the PLC 9, so that the automatic control of hydrogen production equipment is realized, the operation by a user is facilitated, the flow and the pressure of the hydrogen-rich water and the hydrogen concentration of the generated hydrogen-rich water are conveniently controlled by the user, and the hydrogen-rich water with different concentrations is provided for the user to use;

a flow meter 16 is connected on the pipeline 1 between the water inlet valve 4 and the first cutting extrusion device 5, and the flow meter 16 is electrically connected with the PLC 9, so that the flow and the time can be set as expected.

Wherein, the cutting and extruding device group 7 comprises at least 1 group of cutting water paths 7.1, each group of cutting water paths 7.1 is connected with a second cutting and extruding device 7.2, the cutting water paths 7.1 and the cutting water paths 7.1 are mutually connected in parallel, the second cutting and extruding device 7.2 is electrically connected with a PLC 9, the PLC 9 can control and control the rotating speed and power of the second cutting and extruding device 7.2, for example, the output flow is (1.5-2) L/min, the pressure is (0.3-0.5) MPa, the hydrogen water concentration is (2000-4000) ppb, and the oxidation-reduction potential is hydrogen-rich water of (-800-2000) mv; the embodiment produces large-flow hydrogen-rich water for showering according to the requirements of users, in order to meet the normal shower requirements and improve the comfort level of bathing, the generated flow needs to be more than 2.5L/min, the embodiment can generate (3-4) L/min, the pressure is (0.3-0.5) MPa, and the concentration is (2000-4000) ppb hydrogen-rich water by arranging two second cutting and extruding devices 7.2 in parallel;

in addition, a pressure dividing branch 10 is connected to the pipeline 1 between the cutting and extruding device group 7 and the water outlet device 2, a pressure switch 11 and a water inlet electromagnetic valve 12 are connected to the pressure dividing branch 10, the pressure switch 11 is electrically connected with the water inlet electromagnetic valve 12, by arranging the pressure dividing branch 10, when the water pressure in the pipeline 1 is greater than 0.6MPa, the pressure switch 11 is switched on, the pressure switch 11 controls the water inlet electromagnetic valve 12 to perform pressure relief operation, so that the situation that the whole machine of the preparation equipment is always operated when a PLC (programmable logic controller) 9 fails is avoided, and the first cutting and extruding device 5 and the second cutting and extruding device 7.2 are always operated to generate 1.2MPa high pressure to cause safety influence on a human body is avoided;

a high-voltage switch 13 and a ball valve switch 14 are sequentially connected between the pipeline 1 corresponding to the voltage-dividing branch 10 and the water outlet device 2, the high-voltage switch 13 and the ball valve switch 14 are electrically connected with the PLC 9, and when the whole preparation equipment starts to work, the PLC 9 controls the ball valve switch 14 to be opened and controls the high-voltage switch 13 to be closed; when the whole preparation equipment stops working, the PLC 9 controls the ball valve switch 14 to be closed, and the high-voltage switch 13 is switched off.

In addition, in order to ensure the safety of the whole operation of the preparation equipment, the position of the pipeline 1 corresponding to the position between the first cutting and pressurizing device and the hydrogen conveying pipeline 8, the position of the pipeline 1 corresponding to the position between the partial pressure branch 10 and the high-pressure switch 13, and the cutting water path 7.1 behind the second cutting and extruding device 7.2 on the hydrogen conveying pipeline 8 are respectively connected with a check valve 15, and the flow direction of water flow in the pipeline 1 and the flow direction of hydrogen in the hydrogen conveying pipeline 8 can be ensured through the check valves 15.

In addition, the hydrogen generator 3 includes pure water tank 3.2 of connecting into pure water through pure water route 3.9, with pure water tank 3.2 switch-on electrolysis trough 3.3 and connect the suction pump 3.4 on pure water route 3.9, set height position in the pure water tank 3.2 is provided with water level probe 3.5, be equipped with power electrode 3.6 in the electrolysis trough 3.3, hydrogen export 3.1 is seted up to electrolysis trough 3.3 corresponding power electrode 3.6's negative pole department, electrolysis trough 3.3 corresponds power electrode 3.6's positive pole department and has opened oxygen export 3.7, oxygen export 3.7 is put through with pure water tank 3.2 through oxygen delivery pipeline 3.8, power electrode 3.6, suction pump 3.4 all are connected with PLC controller 9 electricity. In addition, according to needs, a temperature probe and a TDS probe can be arranged in the electrolytic cell 3.3 to detect the operation state in the electrolytic cell 3.3, so that the safe operation of the electrolytic cell 3.3 is ensured.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present disclosure, and such changes and modifications will fall within the scope of the present invention.