CN110284148A - Atm number oxy-hydrogen breathing machine - Google Patents

Abstract

The invention discloses a kind of atm number oxy-hydrogen breathing machines, including ventilator ontology, electrolytic cell is provided on the ventilator ontology, the electrolytic cell is divided into several and divides electrolytic cell, divide electrolytic cell and divide between electrolytic cell and is interconnected, each divide and an electrolysis electrode unit is set in electrolytic cell, first control output end of controller is connect with the control terminal of the electrode power supply, inlet valve is provided on water inlet pipe, one end of the water inlet pipe is connect with water source, the other end of the water inlet pipe and the water inlet of charging pump connect, the water outlet of the charging pump is connected by the water inlet of pipeline and water tank, second control output end of controller is connect with the control terminal of the charging pump；First water outlet of the water tank is connect by pipeline with the water inlet of the electrolytic cell, and the second water outlet of the water tank is connected by a water inlet of pipeline and drain valve.The advantages that ventilator has gas output big, and calorific value is small, and outlet is stablized, and water tank is easy to clean.

Description

Atm number oxy-hydrogen breathing machine

Technical field

The present invention relates to ventilator technical field more particularly to a kind of atm number oxy-hydrogen breathing machines.

Background technique

Now Hydrogen machine in the art is usually to utilize the principle of hydrogen-rich cup, and electrolysis electrode is done greatly, be allowed to generation compared with It is high-power, so that more gas is generated, usually single slot.Thus causing ventilator in the prior art generally has such as Lower disadvantage: 1) gas output is generally less than normal；2) when electric current increases, electrolytic cell can generate biggish heat, cause whole unstable；3) Only go out hydrogen, people is likely to result in oxygen and cannot be introduced into cause anoxic in breathing；4) case inner water tank does not clean for a long time, thoroughly changes Water frequency is too low, will affect the work of electrode.

Summary of the invention

Big the technical problem to be solved by the present invention is to how provide a kind of gas output, calorific value is small, and outlet is stablized, water tank Atm number oxy-hydrogen breathing machine easy to clean.

In order to solve the above technical problems, the technical solution used in the present invention is: a kind of atm number oxy-hydrogen breathing machine, including Ventilator ontology, it is characterised in that: electrolytic cell is provided on the ventilator ontology, the electrolytic cell is divided into several point of electricity Slot is solved, divides electrolytic cell and divides between electrolytic cell and be interconnected, each divides and an electrolysis electrode unit is set in electrolytic cell, electrode supplies Electric unit is used to provide working power for the electrolysis electrode unit, and the first control output end of controller and the electrode are powered The control terminal of power supply connects, for realizing the control to the electrode power supply；Be provided with inlet valve on water inlet pipe, it is described into One end of water pipe is connect with water source, and the other end of the water inlet pipe and the water inlet of charging pump connect, the water outlet of the charging pump Mouth is connected by the water inlet of pipeline and water tank, and the second control output end of controller is connect with the control terminal of the charging pump, For controlling the charging pump work or not working；First water outlet of the water tank passes through the water inlet of pipeline and the electrolytic cell Second water outlet of mouth connection, the water tank is connected by a water inlet of pipeline and drain valve, the water outlet of the electrolytic cell Mouth is connected by the pipeline between pipeline and water tank and drain valve, and the water inlet valve and a drain valve are controlled by the controller, It is opened or closed under the control of the controller；The exhaust outlet of the electrolytic cell is gone out by pipeline and hydrogen and oxygen gas mixture Gas nozzle connection.

A further technical solution lies in: the electrolysis electrode unit is provided with 7, and each electrolysis electrode unit includes one A anode, a cathode and a SPE film between anode and cathode, when work, anode leads to positive electricity, and cathode is logical negative Electricity.

A further technical solution lies in: the length of the anode and cathode is 20CM, width 15CM.

A further technical solution lies in: it connects and is provided with gas flow on the pipeline of the hydrogen and oxygen gas mixture outlet nozzle Regulating valve, the gas flow regulating valve are controlled by the controller, for changing outlet under the control of the controller Flow.

The beneficial effects of adopting the technical scheme are that the area of anode and cathode is expanded first in the application Arrive 15*20CM greatly, secondly use more points of electrolytic cells, such gas output can expansion at double, reduce electric current when work again, Calorific value can be reduced in this way, and while complete machine stability, gas output is bigger.Using the electrolytic cell of the application, hydrogen and Oxygen, simultaneously from a gas outlet outlet, meets the optimal needs of human body in the ratio of 2:1.It can be achieved by the control of controller The mode for changing water at regular time and quantity controls single water supply time and number by controller, to reach more intelligent operation.

Detailed description of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the functional block diagram of ventilator described in the embodiment of the present invention；

Fig. 2 is the structural schematic diagram of electrolytic cell in ventilator described in the embodiment of the present invention；

Wherein: 1, electrolytic cell；2, divide electrolytic cell；3, electrode power supply unit；4, controller；5, water inlet pipe；6, inlet valve；7, Charging pump；8, water tank；9, drain valve；10, hydrogen and oxygen gas mixture outlet nozzle；11, anode；12, cathode；13, SPE film；14, gas Flow control valve.

Specific embodiment

With reference to the attached drawing in the embodiment of the present invention, technical solution in the embodiment of the present invention carries out clear, complete Ground description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, but the present invention can be with Implemented using other than the one described here other way, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by the specific embodiments disclosed below.

As shown in Figure 1, the embodiment of the invention discloses a kind of atm number oxy-hydrogen breathing machine, including ventilator ontology, Yin Ben The inventive point of application is the internal structure of ventilator ontology, therefore the specific structure of ventilator ontology is not regarded out in figure.Institute It states and is provided with electrolytic cell 1 on ventilator ontology, as shown in Fig. 2, the electrolytic cell, which is divided into several, divides electrolytic cell 2, point electrolysis Slot 2 and dividing between electrolytic cell 2 is interconnected, and each divides and an electrolysis electrode unit, electrode power supply unit 3 are arranged in electrolytic cell 2 For providing working power, the first control output end of controller 4 and the electrode power supply 3 for the electrolysis electrode unit Control terminal connection, for realizing the control to the electrode power supply；Inlet valve 6, the water inlet are provided on water inlet pipe 5 One end of pipe 5 is connect with water source, and the other end of the water inlet pipe 5 is connect with the water inlet of charging pump 7, and the charging pump 7 goes out The mouth of a river is connect by pipeline with the water inlet of water tank 8, the control terminal of the second control output end of controller 4 and the charging pump 7 Connection, for controlling the work of charging pump 7 or not working；First water outlet of the water tank 8 passes through pipeline and the electrolysis The water inlet of slot 1 connects, and the second water outlet of the water tank 8 is connect by pipeline with a water inlet of drain valve 9, the electricity The water outlet of solution slot 1 is connected by pipeline between pipeline and water tank 8 and drain valve 9, the inlet valve 6 and drain valve 9 by It controls in the controller 4, is opened or closed under the control of the controller 4；The exhaust outlet of the electrolytic cell 1 passes through pipe Road is connect with hydrogen and oxygen gas mixture outlet nozzle 10.

Further, as shown in Fig. 2, the electrolysis electrode unit is provided with 7, each electrolysis electrode unit includes one Anode 11, a cathode 12 and a SPE film 13 between anode 11 and cathode 12, when work, anode 11 leads to positive electricity, Cathode 12 leads to negative electricity.Preferably, the length of the anode 11 and cathode 12 is 20CM, width 15CM.

In addition, being provided on the pipeline for connecting the hydrogen and oxygen gas mixture outlet nozzle 10 to control the flow of outlet Gas flow regulating valve 14, the gas flow regulating valve 11 are controlled by the controller 4, for the control in the controller 4 The lower flow for changing outlet of system.

When work, carry out working and opening the inlet valve under the control of the controller in the charging pump, by upper Water is pumped into water tank by water pump, and when gas processed, the water in water tank, which is discharged into battery case, to be electrolysed, the gas warp after electrolysis The hydrogen and oxygen gas mixture outlet nozzle 10 is discharged；When cleaning water tank or battery case, the water in water tank and electrolytic cell passes through draining Valve discharge.

The area of anode and cathode is expanded to 15*20CM first in the application, more points of electrolytic cells is secondly used, goes out in this way Tolerance can expansion at double, reduce electric current when work again, such calorific value can be reduced, in the same of complete machine stability When, gas output is bigger.Using the electrolytic cell of the application, hydrogen and oxygen are accorded in the ratio of 2:1 while from a gas outlet outlet Close the optimal needs of human body.In such a way that the control of controller can be achieved to change water at regular time and quantity, list is controlled by controller Secondary water supply time and number, to reach more intelligent operation.

Claims (4)

1. a kind of atm number oxy-hydrogen breathing machine, including ventilator ontology, it is characterised in that: be provided with electricity on the ventilator ontology It solves slot (1), the electrolytic cell is divided into several and divides electrolytic cell (2), and electrolytic cell (2) is divided mutually to interconnect with dividing between electrolytic cell (2) It is logical, each divide and an electrolysis electrode unit is set in electrolytic cell (2), electrode power supply unit (3) is used to be the electrolysis electrode list Member provides working power, and the first control output end of controller (4) is connect with the control terminal of the electrode power supply (3), uses In control of the realization to the electrode power supply；It is provided on water inlet pipe (5) inlet valve (6), one end of the water inlet pipe (5) It is connect with water source, the other end of the water inlet pipe (5) is connect with the water inlet of charging pump (7), the water outlet of the charging pump (7) It is connect by pipeline with the water inlet of water tank (8), the control of the second control output end and the charging pump (7) of controller (4) End connection, for controlling the charging pump (7) work or not working；First water outlet of the water tank (8) passes through pipeline and institute The water inlet connection of electrolytic cell (1) is stated, the second water outlet of the water tank (8) is intake by one of pipeline and drain valve (9) The water outlet of mouth connection, the electrolytic cell (1) is connected by the pipeline between pipeline and water tank (8) and drain valve (9), described Inlet valve (6) and drain valve (9) are controlled by the controller (4), carry out playing on or off under the control of the controller (4) It closes；The exhaust outlet of the electrolytic cell (1) is connect by pipeline with hydrogen and oxygen gas mixture outlet nozzle (10).

2. atm number oxy-hydrogen breathing machine as described in claim 1, it is characterised in that: the electrolysis electrode unit is provided with 7, Each electrolysis electrode unit includes an anode (11), a cathode (12) and one be located at anode (11) and cathode (12) it Between SPE film (13), when work, anode (11) leads to positive electricity, and cathode (12) leads to negative electricity.

3. atm number oxy-hydrogen breathing machine as claimed in claim 2, it is characterised in that: the length of the anode (11) and cathode (12) Degree is 20CM, width 15CM.

4. atm number oxy-hydrogen breathing machine as described in claim 1, it is characterised in that: connect the hydrogen and oxygen gas mixture outlet nozzle (10) it is provided on pipeline gas flow regulating valve (11), the gas flow regulating valve (14) is controlled by the controller (4), for changing the flow of outlet under the control of the controller (4).