CN218129522U - Health-care hydrogen-oxygen breathing machine - Google Patents

Abstract

The utility model discloses a health-care oxyhydrogen breathing machine, which relates to the technical field of breathing machines and comprises a machine case, a screening unit and an oxyhydrogen unit; four corners of the lower end of the case are provided with trundles; the sieve separation unit comprises a molecular sieve support, a molecular sieve, a compressor mounting plate, a compressor, a decompression spring, a sound-proof housing, a temperature sensor, an electric air valve A, a sound-proof housing cover and a fan, wherein the molecular sieve support is mounted at the lower end inside a case, the molecular sieve is mounted on the molecular sieve support, the compressor mounting plate is mounted at the lower end inside the case, four corners of the lower end of the compressor penetrate through the decompression spring and are in threaded connection with the upper end of the compressor mounting plate through machine fixing bolts, the health-maintenance oxyhydrogen breathing machine can provide two functions of hydrogen absorption and oxygen absorption, the oxygen flow can be controlled to be 1L/min to 5L/min, the oxygen concentration can be adjusted from 30% to 95%, the hydrogen flow can be adjusted, the water-shortage power-off protection function is realized, the molecular sieve only needs to be dismounted when being replaced, a new molecular sieve is replaced, and the operation is simple and convenient.

Description

Health-care hydrogen-oxygen breathing machine

Technical Field

The utility model relates to a breathing machine technical field specifically is a health oxygen hydrogen breathing machine.

Background

Currently, oxygen generators and hydrogen production ventilators are in circulation in the market. The oxygen generator can only absorb oxygen independently, and the oxygen generator has the defects that the molecular sieve of the oxygen generator is a consumable product, and the molecular sieve needs to be disassembled completely when being replaced, and can only be replaced by a manufacturer and an after-sale service point, so that the replacement is inconvenient. The hydrogen production respirator has the defects that the oxygen output flow is too low, the direct oxygen absorption effect is very little, and only hydrogen can be absorbed. The invention relates to a health-care hydrogen-oxygen breathing machine, which combines an oxygen generator and a hydrogen production machine, can meet the oxygen absorption requirement, can also meet the hydrogen absorption requirement, meets the household hydrogen absorption and oxygen absorption requirements, and fills the market vacancy.

Disclosure of Invention

The to-be-solved technical problem of the utility model is overcome current defect, a health care oxyhydrogen breathing machine is provided, can provide two kinds of functions of hydrogen uptake and oxygen uptake, oxygen flow is steerable at 1L/min to 5L/min, oxygen concentration is adjustable from 30% to 95%, hydrogen flow is adjustable, the power-off protection function of having a water shortage, only need lift the molecular sieve support off when the molecular sieve is changed, change new molecular sieve can, easy operation is convenient, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a health-care oxyhydrogen breathing machine comprises a case, a screening unit and an oxyhydrogen unit;

a case: four corners of the lower end are provided with trundles;

a screening unit: the novel energy-saving type air conditioner comprises a molecular sieve support, a molecular sieve, a compressor mounting plate, a compressor, a decompression spring, a sound-proof cover, a temperature sensor, an electric air valve A, a sound-proof cover and a fan (310), wherein the molecular sieve support is mounted at the lower end inside a case, the molecular sieve is mounted on the molecular sieve support, the compressor mounting plate is mounted at the lower end inside the case, the four corners of the lower end of the compressor penetrate through the decompression spring and are in threaded connection with the upper end of the compressor mounting plate through machine fixing bolts, the sound-proof cover is mounted at the upper end of the compressor mounting plate, the temperature sensor is mounted at the left end of the sound-proof cover, the electric air valve A is mounted at the front end of the sound-proof cover, the sound-proof cover is mounted at the upper end of the sound-proof cover, and the fan (310) is mounted at the upper end of the sound-proof cover; when needing to be changed the molecular sieve, tear the molecular sieve support open can, convenient high-efficient, utilize temperature sensor detectable equipment internal temperature, guarantee the temperature operation, utilize the sound-proof housing can reduce the noise of compressor work, fan (310) work can accelerate the heat dissipation, work is more stable.

Hydrogen-oxygen unit: is arranged at the lower end of the inside of the case.

Further, the oxyhydrogen unit contains electrolytic bath, water tank backup pad, electronic pneumatic valve B, bactericidal lamp, level sensor, feed tank and rubber buffer, the electrolytic bath is installed to the inside lower extreme front side of machine case, the water tank backup pad is installed to the inside lower extreme of machine case, electronic pneumatic valve B, bactericidal lamp and level sensor are installed respectively to the upper end of water tank backup pad, the feed tank is installed to the upper end of water tank backup pad, the rubber buffer is installed to the water inlet of feed tank right-hand member. The water level in the water supply tank can be known through the liquid level sensor, the electrolytic tank electrolyzes water to generate oxyhydrogen gas, and the bactericidal lamp can kill bacteria.

Further, still include moisturizing pipe, loudspeaker elbow, admit air filter cartridge, oxygen concentration sensor, power pack, power strip and article word socket, the water inlet of moisturizing pipe connection electrolytic bath is passed through to the delivery port of feed water tank, the inside rear end at quick-witted case is installed to the loudspeaker elbow, the upper end at the loudspeaker elbow is installed to the filter cartridge that admits air, oxygen concentration sensor installs in the inside rear end at quick-witted case, the power pack is installed on the inside rear end upside at quick-witted case, the power strip is installed on the power pack, article word socket is installed at the rear end downside of quick-witted case. The oxygen concentration sensor can control the concentration of the discharged oxygen, and the pin-shaped socket is respectively plugged with an external power line to enable the pin-shaped socket to work.

Further, still include air inlet apron, electronic water valve, drain pipe, control panel lid, oxyhydrogen machine screen paste, hydrogen pipe joint, oxygen pipe joint, the air inlet apron is installed to the rear end of filter cartridge that admits air, electronic water valve installs the inside lower extreme at quick-witted case, electronic water valve passes through water piping connection with the electrolytic bath, the inside front end at quick-witted case is installed to the control panel, the control panel lid is installed to the inside front end of quick-witted case, the oxyhydrogen machine screen is installed to the front end of quick-witted case and is pasted, hydrogen pipe joint and oxygen pipe joint are installed respectively to the left and right sides at quick-witted case front end middle part. The control panel can control the matching work of electrical elements in the equipment to realize the preparation of hydrogen and oxygen.

Further, still include intake pipe A (110), intake pipe B (111), oxygen pipe A (112), oxygen pipe B (113), oxygen pipe C (114), oxygen pipe D (115) and oxygen pipe E (116), the air inlet of compressor is connected through intake pipe A (110) to the horn elbow, the air inlet of molecular sieve is connected through intake pipe B (111) in the gas outlet of compressor, the air inlet of electronic pneumatic valve B is connected through oxygen pipe A (112) to the oxygen outlet of molecular sieve, the air inlet of oxygen concentration sensor is connected through oxygen pipe B (113) in the gas outlet of electronic pneumatic valve B, the oxygen inlet of feed water tank is connected through oxygen pipe C (114) in the gas outlet of oxygen concentration sensor, the oxygen outlet of feed water tank passes through oxygen pipe D (115) and connects the oxygen coupling, the oxygen gas outlet of electrolytic bath passes through oxygen pipe E (116) and connects oxygen pipe C (114). The use of various tubes allows for more stable transport of gas between devices.

Further, the electrolytic cell comprises a hydrogen pipe A (117), a hydrogen pipe B (118) and a hydrogen pipe C (119), wherein a hydrogen outlet of the electrolytic cell is connected with the electric air valve B through the hydrogen pipe A (117), a hydrogen inlet of the water supply tank is connected with the electric air valve B through the hydrogen pipe B (118), and a hydrogen outlet of the water supply tank is connected with a hydrogen pipe joint through the hydrogen pipe C (119). The hydrogen tube can protect the tightness during hydrogen transportation and make the hydrogen tube more stable.

Compared with the prior art, the beneficial effects of the utility model are that: this health care oxyhydrogen breathing machine has following benefit:

1. the health-care oxyhydrogen breathing machine can provide two functions of hydrogen absorption and oxygen absorption by utilizing the work of the electrolytic cell, the oxygen concentration can be detected by utilizing the oxygen concentration sensor, the oxygen flow can be controlled to be 1L/min to 5L/min, the oxygen concentration can be adjusted from 30 percent to 95 percent, and the adaptability is stronger.

2. The health-care oxyhydrogen breathing machine has adjustable hydrogen flow and a water-shortage power-off protection function, and when the molecular sieve needs to be replaced, the molecular sieve support is detached, and a new molecular sieve is replaced, so that the operation is simple.

3. The health-care oxyhydrogen breathing machine can control the matching work of electrical elements in equipment by using the control panel, and realizes stable preparation of hydrogen and oxygen.

Drawings

FIG. 1 is a left side schematic view of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention.

In the figure: 1 chassis, 2 castors, 3 sieve units, 31 molecular sieve supports, 32 molecular sieves, 33 compressor mounting plates, 34 compressors, 35 decompression springs, 36 sound-proof hoods, 37 temperature sensors, 38 electric gas valves A, 39 sound-proof covers, 310 fans, 4 oxyhydrogen units, 41 electrolytic cells, 42 water tank support plates, 43 electric gas valves B, 44 bactericidal lamps, 45 liquid level sensors, 46 water supply tanks, 47 rubber plugs, 5 water supply pipes, 6 horn elbows, 7 air inlet filter boxes, 8 oxygen concentration sensors, 9 power supply boxes, 10 power supply boards, 11 PIN sockets, 110 air inlet pipes A, 111 air inlet pipes B, 112 oxygen pipes A, 113 oxygen pipes B, 114 oxygen pipes C, 115 oxygen pipes D, 116 oxygen pipes E, 117 hydrogen pipes A, 118 hydrogen pipes B, 119 hydrogen pipes C, 12 air inlet cover plates, 13 electric water valves, 14 water outlet pipes, 15 control plates, 16 control plate covers, 17 oxyhydrogen machine screen stickers, 18 hydrogen pipe joints and 19 oxygen pipe joints.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present embodiment provides a technical solution: a health-care oxyhydrogen breathing machine comprises a case 1, a screening unit 3 and an oxyhydrogen unit 4;

the machine case 1: four corners of the lower end are provided with trundles 2;

screening unit 3: the electric air valve A38 is arranged at the front end of the soundproof cover 36, the soundproof cover 39 is arranged at the upper end of the soundproof cover 36, and the fan 310 is arranged at the upper end of the soundproof cover 39; when the molecular sieve needs to be replaced, the molecular sieve support 31 is detached, the operation is convenient and efficient, the temperature in the equipment can be detected by the temperature sensor 37, the temperature operation is guaranteed, the noise generated when the compressor 34 works can be reduced by the aid of the sound-proof cover 36, the fan 310 works, heat dissipation can be accelerated, and the work is more stable.

Hydrogen-oxygen unit 4: is installed at the lower end of the interior of the cabinet 1.

Oxyhydrogen unit 4 contains electrolytic bath 41, water tank backup pad 42, electronic pneumatic valve B43, sterilamp 44, level sensor 45, feed tank 46 and rubber buffer 47, electrolytic bath 41 is installed to the inside lower extreme front side of quick-witted case 1, water tank backup pad 42 is installed to the inside lower extreme of quick-witted case 1, electronic pneumatic valve B43, sterilamp 44 and level sensor 45 are installed respectively to the upper end of water tank backup pad 42, feed tank 46 is installed to the upper end of water tank backup pad 42, rubber buffer 47 is installed to the water inlet of feed tank 46 right-hand member. The water level in the water supply tank 46 is detected by the level sensor 45, the electrolytic cell 41 electrolyzes water to generate oxyhydrogen gas, and the germicidal lamp 44 sterilizes bacteria.

The water supply box comprises a water supply pipe 5, a horn elbow 6, an air inlet filter box 7, an oxygen concentration sensor 8, a power box 9, a power panel 10 and a socket 11 shaped like a Chinese character ' pin ', a water outlet of a water supply box 46 is connected with a water inlet of an electrolytic cell 41 through the water supply pipe 5, the horn elbow 6 is installed at the rear end inside a case 1, the air inlet filter box 7 is installed at the upper end of the horn elbow 6, the oxygen concentration sensor 8 is installed at the rear end inside the case 1, the power box 9 is installed at the upper side of the rear end inside the case 1, the power panel 10 is installed on the power box 9, and the socket 11 shaped like a Chinese character ' pin is installed at the lower side of the rear end of the case 1. The concentration of the discharged oxygen can be controlled by the oxygen concentration sensor 8, and the oxygen concentration sensor works by being plugged with an external power line by the pin socket 11.

The hydrogen-oxygen machine screen paste machine is characterized by further comprising an air inlet cover plate 12, an electric water valve 13, a drain pipe 14, a control plate 15, a control plate cover 16, an oxygen-hydrogen machine screen paste 17, a hydrogen pipe connector 18 and an oxygen pipe connector 19, wherein the air inlet cover plate 12 is installed at the rear end of the air inlet filter box 7, the electric water valve 13 is installed at the lower end of the inside of the machine case 1, the electric water valve 13 is connected with the electrolytic cell 41 through the drain pipe 14, the control plate 15 is installed at the front end of the inside of the machine case 1, the control plate cover 16 is installed at the front end of the inside of the machine case 1, the oxygen-hydrogen machine screen paste 17 is installed at the front end of the machine case 1, and the hydrogen pipe connector 18 and the oxygen pipe connector 19 are installed on the left side and the right side of the middle portion of the front end of the machine case 1 respectively. The control panel 15 can control the matching of electrical elements in the equipment to realize the preparation of hydrogen and oxygen.

The air purifier also comprises an air inlet pipe A110, an air inlet pipe B111, an oxygen pipe A112, an oxygen pipe B113, an oxygen pipe C114, an oxygen pipe D115 and an oxygen pipe E116, the horn elbow 6 is connected with the air inlet of the compressor 34 through the air inlet pipe A110, the air outlet of the compressor 34 is connected with the air inlet of the molecular sieve 32 through the air inlet pipe B111, the oxygen outlet of the molecular sieve 32 is connected with the air inlet of the electric air valve B43 through the oxygen pipe A112, the air outlet of the electric air valve B43 is connected with the air inlet of the oxygen concentration sensor 8 through the oxygen pipe B113, the air outlet of the oxygen concentration sensor 8 is connected with the oxygen inlet of the water supply tank 46 through the oxygen pipe C114, the oxygen outlet of the water supply tank 46 is connected with the oxygen pipe joint 19 through the oxygen pipe D115, and the oxygen outlet of the electrolytic cell 41 is connected with the oxygen pipe C114 through the oxygen pipe E116. The use of various tubes allows for more stable transport of gas between devices.

And the hydrogen supply device also comprises a hydrogen pipe A117, a hydrogen pipe B118 and a hydrogen pipe C119, wherein a hydrogen outlet of the electrolytic cell 41 is connected with an electric gas valve B43 through the hydrogen pipe A117, a hydrogen inlet of the water supply tank 46 is connected with the electric gas valve B43 through the hydrogen pipe B118, and a hydrogen outlet of the water supply tank 46 is connected with the hydrogen pipe joint 18 through the hydrogen pipe C119. The hydrogen tube can protect the tightness during hydrogen transportation and make the hydrogen tube more stable.

The utility model provides a pair of health oxygen hydrogen breathing machine's theory of operation as follows: the power supply is switched on, the control panel 15 controls the power panel 10 to work, a hydrogen absorption mode is selected, in the mode, the power panel 10 controls the sterilizing lamp 44 to be powered on to sterilize purified water in the water supply tank 46, the power panel 10 controls the electrolytic cell 41 to work, an inlet DuPont film is used in the electrolytic cell 41, hydrogen and oxygen are generated when the electrolytic cell 41 works and electrolyzes water, the hydrogen passes through the hydrogen pipe A117, the electric air valve B43 and the hydrogen pipe B118, the hydrogen passes through the hydrogen pipe C119 after being humidified by the water supply tank 46 and is finally discharged from the hydrogen pipe joint 18, the hydrogen can be absorbed through the nasal cannula joint 18 during hydrogen absorption, the hydrogen flow can be adjusted by the electric air valve B43, and the oxygen generated by electrolyzed water passes through the oxygen pipe E116, is humidified by the water supply tank 46 and then passes through the oxygen pipe D115 and is finally discharged from the oxygen pipe joint 19; the oxygen inhalation mode is selected, in this mode, the power panel 10 energizes the temperature sensor 37, the temperature sensor 37 feeds back the temperature in the sound-proof housing 36 of the power panel 10 in real time, the running state of the compressor 34 is controlled, and when the temperature is too high, the power panel 10 stops the oxygen inhalation mode, so that the overheat protection effect is achieved. During normal oxygen generation, the power panel 10 controls the compressor 34 to work, air passes through the air inlet filter box 7 and the air inlet pipe A110, the air compressed by the compressor 34 enters the molecular sieve 32 through the air inlet pipe B111, the air passes through the molecular sieve 32 to separate oxygen and other gases, the power panel 10 controls the cell valve of the molecular sieve 32 to work, the oxygen is discharged from an oxygen outlet of the molecular sieve 32, passes through the oxygen pipe A112, the electric air valve A38 and the oxygen pipe B113 and is connected to the oxygen concentration sensor 8, the oxygen concentration sensor 8 measures the oxygen concentration, the oxygen enters the water supply tank 46 through the oxygen pipe C114, the oxygen is humidified through the water supply tank 46 and then passes through the oxygen pipe D115 and is finally discharged from the oxygen pipe joint 19, oxygen can be absorbed through the nasal tube joint 19 during oxygen absorption, the oxygen concentration can be controlled on the control panel 15, the oxygen flow is adjusted through the electric air valve A38 to control the oxygen concentration, and the oxygen absorption mode and the hydrogen absorption mode are carried out simultaneously. When drainage is needed, a drainage key on the control board 15 is pressed, and the power board 10 controls the electric water valve 13 of the electric water valve to open for drainage. The liquid level sensor 45 is started to monitor the liquid level state of the water tank, and the water supply tank 46 gives an alarm to give a buzzer sound when the water level is too high or too low, and stops other functions except the drainage function. When pure water needs to be added into the water supply tank 46, the water adding port cover plate is taken down, the rubber plug 47 is taken down, and water can be added from the water adding port of the water supply tank 46. The casters 2 facilitate movement of the machine.

It is noted that the electrolytic cell 41 and the power panel 10 disclosed in the above embodiment are connected by a wire, the compressor 34 and the power panel 10 are connected by a wire, the molecular sieve electromagnetic valve and the power panel 10 are connected by a wire, the fan 310 and the power panel 10 are connected by a wire, the liquid level sensor 45 and the power panel 10 are connected by a wire, the germicidal lamp 44 and the power panel 10 are connected by a wire, the electric air valve a38 and the power panel 10 are connected by a wire, the electric air valve B43 and the power panel 10 are connected by a wire, the electric water valve 13 and the power panel 10 are connected by a wire, the oxygen concentration sensor 8 and the power panel 10 are connected by a wire, the control board 15 and the power panel 10 are connected by a wire, the temperature sensor 37 and the power panel 10 are connected by a wire, and the delta socket 11 and the power panel 10 are connected by a wire.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a health care oxyhydrogen breathing machine which characterized in that: comprises a case (1), a screening unit (3) and a hydrogen-oxygen unit (4);

case (1): four corners of the lower end are provided with trundles (2);

a screening unit (3): the novel air conditioner is characterized by comprising a molecular sieve support (31), a molecular sieve (32), a compressor mounting plate (33), a compressor (34), a decompression spring (35), a sound insulation cover (36), a temperature sensor (37), an electric air valve A (38), a sound insulation cover (39) and a fan (310), wherein the molecular sieve support (31) is mounted at the lower end inside the case (1), the molecular sieve (32) is mounted on the molecular sieve support (31), the compressor mounting plate (33) is mounted at the lower end inside the case (1), four corners of the lower end of the compressor (34) penetrate through the decompression spring (35) through machine fixing bolts and are in threaded connection with the upper end of the compressor mounting plate (33), the sound insulation cover (36) is mounted at the upper end of the compressor mounting plate (33), the temperature sensor (37) is mounted at the left end of the sound insulation cover (36), the electric air valve A (38) is mounted at the front end of the sound insulation cover (36), the sound insulation cover (39) is mounted at the upper end of the sound insulation cover (36), and the fan (310) is mounted at the upper end of the sound insulation cover (39);

oxyhydrogen unit (4): is arranged at the lower end of the inside of the case (1).

2. The health preserving hydrogen-oxygen breathing machine according to claim 1, characterized in that: oxyhydrogen unit (4) contain electrolytic bath (41), water tank support board (42), electronic pneumatic valve B (43), bactericidal lamp (44), level sensor (45), water supply tank (46) and rubber buffer (47), electrolytic bath (41) are installed to the inside lower extreme front side of machine case (1), water tank support board (42) is installed to the inside lower extreme of machine case (1), electronic pneumatic valve B (43), bactericidal lamp (44) and level sensor (45) are installed respectively to the upper end of water tank support board (42), water supply tank (46) are installed to the upper end of water tank support board (42), rubber buffer (47) are installed to the water inlet of water supply tank (46) right-hand member.

3. The health-preserving hydrogen-oxygen breathing machine according to claim 2, characterized in that: still include moisturizing pipe (5), loudspeaker elbow (6), air inlet filter cartridge (7), oxygen concentration sensor (8), power pack (9), power strip (10) and article word socket (11), the water inlet of electrolytic bath (41) is connected through moisturizing pipe (5) to the delivery port of feed water tank (46), the inside rear end at quick-witted case (1) is installed in loudspeaker elbow (6), the upper end at loudspeaker elbow (6) is installed in air inlet filter cartridge (7), the inside rear end at quick-witted case (1) is installed in oxygen concentration sensor (8), the inside rear end upside at quick-witted case (1) is installed in power pack (9), power strip (10) are installed on power pack (9), article word socket (11) are installed at the rear end downside of quick-witted case (1).

4. The health preserving hydrogen-oxygen breathing machine according to claim 3, characterized in that: still include air inlet apron (12), electronic water valve (13), drain pipe (14), control panel (15), control panel lid (16), oxyhydrogen machine screen paste (17), hydrogen pipe joint (18), oxygen pipe joint (19), air inlet apron (12) are installed to the rear end of filter cartridge (7) admits air, the inside lower extreme at quick-witted case (1) is installed in electronic water valve (13), electronic water valve (13) are connected through drain pipe (14) with electrolysis trough (41), the inside front end at quick-witted case (1) is installed in control panel (15), control panel lid (16) are installed to the inside front end of quick-witted case (1), oxyhydrogen machine screen paste (17) are installed to the front end of quick-witted case (1), hydrogen pipe joint (18) and oxygen pipe joint (19) are installed respectively to the left and right sides at quick-witted case (1) front end middle part.

5. The health preserving hydrogen-oxygen breathing machine according to claim 4, characterized in that: still include intake pipe A (110), intake pipe B (111), oxygen hose A (112), oxygen hose B (113), oxygen hose C (114), oxygen hose D (115) and oxygen hose E (116), the air inlet of compressor (34) is connected through intake pipe A (110) in horn elbow (6), the air inlet of molecular sieve (32) is connected through intake pipe B (111) in the gas outlet of compressor (34), the air inlet of electronic air valve B (43) is connected through oxygen hose A (112) in the oxygen outlet of molecular sieve (32), the air inlet of oxygen concentration sensor (8) is connected through oxygen hose B (113) in the gas outlet of electronic air valve B (43), the oxygen inlet of water supply tank (46) is connected through oxygen hose C (114) in the gas outlet of oxygen concentration sensor (8), the oxygen hose joint (19) is connected through oxygen hose D (115) in the oxygen outlet of water supply tank (46), oxygen hose C (114) is connected through oxygen hose E (116) in the oxygen outlet of electrolytic bath (41).

6. The health preserving hydrogen-oxygen breathing machine according to claim 4, characterized in that: the electrolytic cell is characterized by further comprising a hydrogen pipe A (117), a hydrogen pipe B (118) and a hydrogen pipe C (119), wherein the hydrogen outlet of the electrolytic cell (41) is connected with the electric air valve B (43) through the hydrogen pipe A (117), the hydrogen inlet of the water supply tank (46) is connected with the electric air valve B (43) through the hydrogen pipe B (118), and the hydrogen outlet of the water supply tank (46) is connected with the hydrogen pipe joint (18) through the hydrogen pipe C (119).

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