CN112678778A - Medical water decomposition oxygen generator - Google Patents

Abstract

The invention discloses a medical water decomposition oxygen-generating device, which comprises a water molecule oscillator, a hydrogen-oxygen separation device, a water supply device and a separation storage device, wherein an oscillation shell is fixedly arranged on an oxygen port, a liquid control box is fixedly arranged on a water supply base, the water supply base is fixedly arranged on the oxygen port, a water supply straight gear is fixedly arranged on the oxygen port, a water supply tank is fixedly arranged on the oxygen port, the other end of a water supply drain pipe is fixedly arranged on the liquid control box, the rotation is transmitted to the oblique teeth on the right side of the water supply through the operation and the rotation of the water supply motor, the water supply and drainage pipe is injected into the liquid control box, the rotation of the oscillating motor is transmitted to the lower oblique teeth on the left side of the oscillation, the liquid control box is used for guiding surface liquid and then carrying out oscillation separation, finally oxygen enters the liquid control box, hydrogen enters the separation gas channel, when the air pressure reaches a certain degree, the water molecule oscillator is opened and closed, and the hydrogen enters the hydrogen port.

Description

Medical water decomposition oxygen generator

Technical Field

The invention relates to the field of liquid gasification application, in particular to a medical decomposition oxygen generation device.

Background

Oxygen is an essential element of human body, the content of oxygen in air is very important to human body, oxygen is an important component part of air, which is an indispensable gas for breathing of animals, although the oxygen is an important component part of air, but not to say, the oxygen is nontoxic, the oxygen concentration is required to judge whether the oxygen is a toxic and harmful gas, in the medical field, some patients needing a breathing machine cannot help the patients to breathe because the oxygen pressure is small, and a common oxygen generation central control system can generate partial hydrogen due to different manufacturing modes, and the hydrogen enters the patients to cause irreparable consequences, and the application number: CN201820992389.6 discloses a medical oxygen generator, which can improve oxygen generation efficiency, but can not purify oxygen to separate hydrogen.

Disclosure of Invention

In view of the above technical problems, the present invention provides a medical water-splitting oxygen-generating device, which comprises a water molecule oscillator, an oxygen-hydrogen separation device, a water supply device and a separation reservoir.

The water molecule oscillator includes: an oscillating housing; the hydrogen-oxygen separation device comprises: a liquid control tank; the water supply device includes: the water supply device comprises a water supply base, a water supply straight gear, a water supply tank and a water supply drain pipe; the separation reservoir includes: an oxygen port; the oscillation shell is fixedly installed on the oxygen port, the liquid control box is fixedly installed on the water supply base, the water supply base is fixedly installed on the oxygen port, the water supply straight gear is fixedly installed on the oxygen port, the water supply tank is fixedly installed on the oxygen port, and the other end of the water supply drain pipe is fixedly installed on the liquid control box.

Further, the water molecule oscillator further includes: an oscillating motor fixing plate is fixedly arranged on an oscillating shell, an oscillating motor is fixedly arranged on the oscillating motor fixing plate, an oscillating left lower oblique tooth is fixedly arranged on the oscillating motor transmission shaft, the oscillating left lower oblique tooth and the oscillating left oblique tooth form gear engagement, the left oblique tooth of oscillation is fixedly arranged on the left transmission shaft of oscillation, the left transmission shaft of oscillation is rotatably arranged on the oscillation shell, the upper straight tooth of oscillation left side is fixedly arranged at one end of the left transmission shaft of oscillation, the upper straight tooth of oscillation left side and the left straight tooth of oscillation form gear engagement, the left straight tooth of oscillation left side is fixedly arranged at one end of the left transmission shaft of oscillation, the upper transmission shaft of oscillation left side is rotatably arranged on the oscillation shell, the left gear of oscillation left side is fixedly arranged at the other end of the left transmission shaft of oscillation, the left gear of oscillation and the fluted disc of oscillation form gear engagement, the fluted disc of oscillation is fixedly arranged at one end of the transmission shaft of oscillation, the transmission shaft of oscillation is rotatably arranged on the fixed plate of oscillation bearing, the fixed plate of oscillation bearing is fixedly arranged on the oscillation shell, the right gear of oscillation, the oscillating right lower transmission shaft is rotatably arranged on the oscillating shell, two ends of the oscillating belt pulley are respectively and fixedly arranged on the oscillating right lower transmission shaft and the oscillating right upper transmission shaft, the oscillating right upper transmission shaft is rotatably arranged on the oscillating shell, the oscillating right upper straight tooth is fixedly arranged in the middle of the oscillating right upper transmission shaft, the oscillating right upper straight tooth and the oscillating right upper straight tooth form gear engagement, the oscillating right straight tooth is fixedly arranged at one end of the oscillating right transmission shaft, the oscillating right transmission shaft is rotatably arranged on the oscillating shell, the oscillating right helical tooth is fixedly arranged at the other end of the oscillating right transmission shaft, the oscillating right helical tooth and the oscillating helical tooth form gear engagement, the oscillating helical tooth is fixedly arranged on the oscillating upper transmission shaft, the oscillating upper straight tooth and the oscillating rack form gear engagement, the oscillating rack is slidably mounted on the oscillating housing.

Further, the hydrogen-oxygen separation device further comprises: the separation fixed column, the separation curb plate and the separation gas passageway, it is on the separation curb plate to get separation fixed column fixed mounting, and the separation curb plate fixed mounting is on the separation gas passageway, and the separation gas passageway fixed mounting is on the liquid control case.

Further, the water supply device further includes: a water supply motor fixing plate, a water supply motor, a water supply right-side helical tooth, a water supply right-side transmission shaft, a water supply right-side straight tooth, a water supply transmission shaft, a water supply belt pulley, a water supply left-side transmission shaft, a water supply left-side straight tooth, a water supply left-side transmission shaft, a water supply left-side gear, a water supply left-side fluted disc, a water supply left-side upper transmission shaft, a water supply left-side upper helical tooth, a water supply left-side upper transmission shaft, a water supply left-side upper straight tooth, a water supply pump and a water supply liquid inlet pipe, wherein the water supply motor fixing plate is fixedly arranged on a water supply base, the water supply motor is fixedly arranged on the water supply motor transmission shaft, the water supply right-side helical tooth and the water supply right-, the water supply right straight-tooth is fixedly arranged in the middle of the water supply right transmission shaft, the water supply right straight-tooth and the water supply right straight-tooth form gear engagement, the water supply right straight-tooth is fixedly arranged on the water supply right transmission shaft, the water supply right transmission shaft is rotatably arranged on the water supply base, the water supply right straight-tooth and the water supply straight-tooth form gear engagement, the water supply straight-tooth is fixedly arranged on the water supply transmission shaft, the water supply transmission shaft is rotatably arranged on the water supply base, the two ends of the water supply belt pulley are respectively and fixedly arranged on the water supply transmission shaft and the water supply left transmission shaft, the water supply left transmission shaft is rotatably arranged on the water supply base, the water supply left straight-tooth is fixedly arranged on the water supply left transmission shaft, the water supply left straight-tooth and the water supply left straight-tooth form gear engagement, the, the left gear that supplies water and the left fluted disc that supplies water form gear engagement, the left fluted disc fixed mounting that supplies water is at the last transmission shaft one end of the left side that supplies water, the last transmission shaft rotation of the left side that supplies water is installed on the water supply base, the last skewed tooth fixed mounting that supplies water is at the last transmission shaft other end of the left side that supplies water, the last skewed tooth of the left side that supplies water forms gear engagement with the skewed tooth on the left side that supplies water, the last skewed tooth fixed mounting of the left side that supplies water is at transmission shaft one end on the left side that supplies water, the last transmission shaft rotation that supplies water is installed on the water supply base on the left side, the straight-tooth fixed mounting that supplies water is at the left side transmission shaft other end that supplies.

Further, the separation reservoir further comprises: glass shell and hydrogen mouth, glass shell fixed mounting is on the oxygen mouth, and hydrogen mouth fixed mounting is on glass shell.

Furthermore, the oscillation connecting plate is fixedly arranged on the oscillation rack. ,

further, the ring oscillator is fixedly arranged on the oscillation connecting plate.

Furthermore, one end of the water supply liquid inlet pipe is fixedly arranged on the water supply pump.

Furthermore, the other end of the water supply liquid inlet pipe is fixedly arranged on the water supply tank, and one end of the water supply drain pipe is fixedly arranged at the water outlet of the water supply pump.

Compared with the prior art, the invention has the beneficial effects that: the hydrogen is separated, so that artificial expiration is replaced for treating respiratory diseases of patients, such as respiratory failure and patients without spontaneous respiration, and the entrance of other gases is reduced; the oxygen purity can be effectively improved and the oxygen production efficiency can be improved through the hydrogen-oxygen separation device; the device through the separation accumulator can discharge hydrogen to the top naturally, is used for generating electricity after being convenient for to store, introduces the atmospheric pollution and has also practiced thrift the energy and used.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 and 3 are schematic views of the internal structure of the present invention.

Fig. 4 and 5 are schematic structural views of a water molecule oscillator of the present invention.

Fig. 6 and 7 are schematic views showing the structure of the water supply apparatus of the present invention.

Reference numerals: 1-a water molecule oscillator; 2-hydrogen-oxygen separation device; 3-a water supply device; 4-a separation reservoir; 101-an oscillating housing; 102-an oscillating motor fixing plate; 103-an oscillating motor; 104-oscillating the left lower helical tooth; 105-oscillating the left skewed tooth; 106-oscillating the left drive shaft; 107-oscillating the left upper spur; 108-oscillating the left spur; 109-oscillating the left upper drive shaft; 110-oscillating left side gear; 111-oscillating a toothed disc; 112-oscillating drive shaft; 113-oscillating bearing fixing plate; 114-oscillating right side gear; 115-oscillating right side teeth; 116-oscillating the right lower drive shaft; 117-oscillating pulley; 118-oscillating the right upper drive shaft; 119-oscillating the right upper spur; 120-oscillating the right spur; 121-oscillating right drive shaft; 122-oscillating right helical teeth; 123-oscillating helical teeth; 124-oscillating the upper transmission shaft; 125-oscillating upper straight teeth; 126-oscillating rack; 127-oscillating connecting plate; 128-ring oscillator; 201-separation fixing column; 202-separating the side plates; 203-a separation gas channel; 204-liquid control tank; 301-water supply base; 302-water supply motor fixing plate; 303-a water supply motor; 304-water supply right side helical teeth; 305-water supply right helical teeth; 306-water supply right transmission shaft; 307-water supply right straight teeth; 308-water supply right straight teeth; 309-water supply right transmission shaft; 310-water supply straight teeth; 311-water supply transmission shaft; 312-a water supply pulley; 313-water supply left transmission shaft; 314-water supply left spur; 315-water supply of left straight teeth; 316-water supply left transmission shaft; 317-water supply left gear; 318-water supply left fluted disc; 319-water supply left upper drive shaft; 320-water supply left upper oblique teeth; 321-oblique teeth on left side of water supply; 322-water supply left upper transmission shaft; 323-straight teeth on the left side of the water supply; 324-water supply spur gear; 325-water supply pump; 326-water supply liquid inlet pipe; 327-water supply tank; 328-water supply and drainage pipe; 401-an oxygen port; 402-a glass housing; 403-hydrogen gas port.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the medical water splitting oxygen generator includes a water molecule oscillator 1, a hydrogen-oxygen separation device 2, a water supply device 3 and a separation reservoir 4.

The water molecule oscillator 1 includes: an oscillating case 101; the hydrogen-oxygen separation device 2 includes: a liquid control tank 204; the water supply device 3 includes: a water supply base 301, a water supply spur gear 324, a water supply tank 327, and a water supply drain pipe 328; the separation reservoir 4 includes: an oxygen port 401.

The oscillation housing 101 is fixedly mounted on the oxygen port 401, the liquid control tank 204 is fixedly mounted on the water supply base 301, the water supply base 301 is fixedly mounted on the oxygen port 401, the water supply spur gear 324 is fixedly mounted on the oxygen port 401, the water supply tank 327 is fixedly mounted on the oxygen port 401, and the other end of the water supply drain pipe 328 is fixedly mounted on the liquid control tank 204.

The water molecule oscillator 1 further includes: an oscillating motor fixing plate 102, an oscillating motor 103, an oscillating left lower helical tooth 104, an oscillating left helical tooth 105, an oscillating left transmission shaft 106, an oscillating left upper spur tooth 107, an oscillating left spur tooth 108, an oscillating left upper transmission shaft 109, an oscillating left gear 110, an oscillating fluted disc 111, an oscillating transmission shaft 112, an oscillating bearing fixing plate 113, an oscillating right gear 114, an oscillating right tooth 115, an oscillating right lower transmission shaft 116, an oscillating pulley 117, an oscillating right upper transmission shaft 118, an oscillating right upper spur tooth 119, an oscillating right spur tooth 120, an oscillating right transmission shaft 121, an oscillating right helical tooth 122, an oscillating helical tooth 123, an oscillating upper transmission shaft 124, an oscillating upper spur tooth 125, an oscillating rack 126, an oscillating connecting plate 127 and a ring oscillator 128, wherein the oscillating motor fixing plate 102 is fixedly installed on the oscillating housing 101, the oscillating motor 103 is fixedly installed on the oscillating motor fixing plate 102, the oscillating left lower helical tooth 104 is fixedly installed on the oscillating motor 103 transmission shaft, the oscillating left side lower helical tooth 104 and the oscillating left side helical tooth 105 form gear engagement, the oscillating left side helical tooth 105 is fixedly installed on an oscillating left side transmission shaft 106, the oscillating left side transmission shaft 106 is rotatably installed on an oscillating shell 101, an oscillating left side upper straight tooth 107 is fixedly installed at one end of the oscillating left side transmission shaft 106, the oscillating left side upper straight tooth 107 and the oscillating left side straight tooth 108 form gear engagement, the oscillating left side straight tooth 108 is fixedly installed at one end of an oscillating left side upper transmission shaft 109, the oscillating left side upper transmission shaft 109 is rotatably installed on the oscillating shell 101, the oscillating left side gear 110 is fixedly installed at the other end of the oscillating left side upper transmission shaft 109, the oscillating left side gear 110 and an oscillating fluted disc 111 form gear engagement, the oscillating fluted disc 111 is fixedly installed at one end of an oscillating transmission shaft 112, the oscillating transmission shaft 112 is rotatably installed on, an oscillating right-side gear 114 is fixedly arranged at the other end of an oscillating transmission shaft 112, the oscillating right-side gear 114 and an oscillating right-side gear 115 form gear engagement, the oscillating right-side gear 115 is fixedly arranged on an oscillating right-side lower transmission shaft 116, the oscillating right-side lower transmission shaft 116 is rotatably arranged on an oscillating shell 101, two ends of an oscillating belt pulley 117 are respectively and fixedly arranged on the oscillating right-side lower transmission shaft 116 and the oscillating right-side upper transmission shaft 118, the oscillating right-side upper transmission shaft 118 is rotatably arranged on the oscillating shell 101, an oscillating right-side upper straight tooth 119 is fixedly arranged in the middle of the oscillating right-side upper transmission shaft 118, the oscillating right-side upper straight tooth 119 and the oscillating right-side straight tooth 120 form gear engagement, the oscillating right-side straight tooth 120 is fixedly arranged at one end of an oscillating right transmission shaft 121, the oscillating right transmission shaft 121 is rotatably arranged on the oscillating shell 101, an oscillating, the oscillating helical teeth 123 are fixedly arranged on an oscillating upper transmission shaft 124, the oscillating upper transmission shaft 124 is rotatably arranged on an oscillating shell 101, an oscillating upper straight tooth 125 is fixedly arranged in the middle of the oscillating upper transmission shaft 124, the oscillating upper straight tooth 125 and an oscillating rack 126 form gear engagement, the oscillating rack 126 is slidably arranged on the oscillating shell 101, an oscillating motor 103 rotates and transmits the power to an oscillating left lower helical tooth 104, the power is finally transmitted to the oscillating upper straight tooth 125 through the oscillating left lower helical tooth 104, the oscillating upper straight tooth 125 drives an oscillating connecting plate 127 above the oscillating rack 126 through the oscillating rack 126 which is engaged, a ring oscillator 128 is fixed on the oscillating connecting plate 127, and after being closed, the liquid is guided into surface liquid through a liquid control box 204 to carry out oscillation separation. Due to the weight of hydrogen and oxygen.

The hydrogen-oxygen separation device 2 further includes: the separation fixing column 201, the separation side plate 202 and the separation gas channel 203 are fixedly arranged on the separation side plate 202, the separation fixing column 201 is fixedly arranged on the separation side plate 202, the separation side plate 202 is fixedly arranged on the separation gas channel 203, the separation gas channel 203 is fixedly arranged on the liquid control box 204, oxygen enters the liquid control box 204, hydrogen enters the separation gas channel 203, when the air pressure reaches a certain degree, the water molecule oscillator 1 is opened and closed, and the hydrogen enters the hydrogen port 403.

The water supply device 3 further includes: a water supply motor fixing plate 302, a water supply motor 303, a water supply right oblique tooth 304, a water supply right oblique tooth 305, a water supply right transmission shaft 306, a water supply right straight tooth 307, a water supply right straight tooth 308, a water supply right transmission shaft 309, a water supply straight tooth 310, a water supply transmission shaft 311, a water supply belt pulley 312, a water supply left transmission shaft 313, a water supply left straight tooth 314, a water supply left straight tooth 315, a water supply left transmission shaft 316, a water supply left gear 317, a water supply left tooth disc 318, a water supply left upper transmission shaft 319, a water supply left upper oblique tooth 320, a water supply left upper oblique tooth 321, a water supply left upper transmission shaft 322, a water supply left upper straight tooth 323, a water supply pump 325 and a water supply liquid inlet pipe 326, wherein the water supply motor fixing plate 302 is fixedly installed on the water supply base 301, the water supply motor 303 is fixedly installed on the water supply motor 303, the water supply right oblique tooth 304 is fixedly, a water supply right helical tooth 305 is fixedly arranged on a water supply right transmission shaft 306, the water supply right transmission shaft 306 is rotatably arranged on a water supply base 301, a water supply right straight tooth 307 is fixedly arranged in the middle of the water supply right transmission shaft 306, the water supply right straight tooth 307 and the water supply right straight tooth 308 form gear engagement, the water supply right straight tooth 308 is fixedly arranged on a water supply right transmission shaft 309, the water supply right transmission shaft 309 is rotatably arranged on the water supply base 301, the water supply right straight tooth 308 and the water supply straight tooth 310 form gear engagement, the water supply straight tooth 310 is fixedly arranged on a water supply transmission shaft 311, the water supply transmission shaft 311 is rotatably arranged on the water supply base 301, two ends of a water supply belt pulley 312 are respectively and fixedly arranged on the water supply transmission shaft 311 and the water supply left transmission shaft 313, the water supply left transmission shaft 313 is rotatably arranged on the water supply base 301, the water supply left straight tooth 314 is fixedly, the water supply left straight tooth 315 is fixedly arranged on the water supply left transmission shaft 316, the water supply left transmission shaft 316 is rotatably arranged on the water supply base 301, the water supply left gear 317 is fixedly arranged in the middle of the water supply left transmission shaft 316, the water supply left gear 317 and the water supply left gear 318 form gear engagement, the water supply left gear 318 is fixedly arranged at one end of the water supply left upper transmission shaft 319, the water supply left upper transmission shaft 319 is rotatably arranged on the water supply base 301, the water supply left upper helical tooth 320 is fixedly arranged at the other end of the water supply left upper transmission shaft 319, the water supply left upper helical tooth 320 and the water supply left upper helical tooth 321 form gear engagement, the water supply left upper helical tooth 321 is fixedly arranged at one end of the water supply left upper transmission shaft 322, the water supply left upper transmission shaft 322 is rotatably arranged on the water supply base 301, the water supply left upper straight tooth 323 is fixedly arranged at the other end, the water supply straight gear 324 is fixedly arranged on a transmission shaft of a water supply pump 325, the water supply pump 325 is fixedly arranged on the water supply base 301, a water supply motor 303 rotates to transmit the rotation to the water supply right-side helical tooth 304, the transmission force of the water supply right-side helical tooth 304 drives other transmission parts to finally transmit the transmission parts to the water supply pump 325 for working, and a liquid structural part connected to the water supply pump 325 enters through a water supply tank 327 and a water supply liquid inlet pipe 326 and finally is injected into the liquid control box 204 through a water supply drain pipe 328.

The separation reservoir 4 further comprises: a glass housing 402 and a hydrogen gas port 403, the glass housing 402 being fixedly mounted on the oxygen port 401, the hydrogen gas port 403 being fixedly mounted on the glass housing 402. The oscillation connecting plate 127 is fixedly mounted on the oscillation rack 126. The ring oscillator 128 is fixedly mounted on the oscillation connecting plate 127. One end of the feed water inlet pipe 326 is fixedly installed on the feed water pump 325. The other end of the feed water inlet pipe 326 is fixedly attached to the feed water tank 327, and one end of the feed water outlet pipe 328 is fixedly attached to the drain port of the feed pump 325.

The working principle of the invention is as follows: the rotation of the oscillating motor 103 is transmitted to the oscillating left lower helical tooth 104, the transmission force of the oscillating left lower helical tooth 104 is finally transmitted to the oscillating upper straight tooth 125, the oscillating upper straight tooth 125 drives an oscillating connecting plate 127 above an oscillating rack 126 through the engaged oscillating rack 126, and after a ring oscillator 128 is fixed on the oscillating connecting plate 127 and closed, the oscillating connecting plate is guided into surface liquid through a liquid control box 204 for oscillation separation. Because of the clear and oxygen of hydrogen weight, oxygen gets into liquid control box 204 hydrogen and gets into separation gas passageway 203 top, when atmospheric pressure reached a certain degree, hydrone oscillator 1 opened and shut, hydrogen gets into hydrogen gas mouth 403, water supply motor 303 operates and rotates and transmits for supplying water right side skewed tooth 304, through supplying water right side skewed tooth 304 driving force drive other driving medium and finally transmit for the working of working pump 325, the liquid structure spare of connecting on the working pump 325 gets into through water supply tank 327 and water supply feed liquor pipe 326 and finally pours into liquid control box 204 into through water supply drain pipe 328.

Claims (9)

1. The utility model provides a medical water decomposition oxygenerator, includes water molecule oscillator (1), oxyhydrogen separator (2), water supply installation (3) and separation accumulator (4) its characterized in that:

the water molecule oscillator (1) comprises: an oscillating housing (101);

the hydrogen-oxygen separation device (2) comprises: a liquid control tank (204);

the water supply device (3) comprises: a water supply base (301), a water supply spur gear (324), a water supply tank (327) and a water supply and drainage pipe (328);

the separation reservoir (4) comprises: an oxygen port (401);

oscillation shell 101 fixed mounting on oxygen gas mouth (401), get liquid control case (204) fixed mounting on water supply base (301), water supply base (301) fixed mounting on oxygen gas mouth (401), water supply spur gear (324) fixed mounting on oxygen gas mouth (401), water supply tank (327) fixed mounting on oxygen gas mouth (401), water supply drain pipe (328) other end fixed mounting on liquid control case (204).

2. The medical water-splitting oxygen-generating device as set forth in claim 1, characterized in that: the water molecule oscillator (1) further comprises: an oscillating motor fixing plate (102), an oscillating motor (103), an oscillating left side lower helical tooth (104), an oscillating left side helical tooth (105), an oscillating left side transmission shaft (106), an oscillating left side upper straight tooth (107), an oscillating left side straight tooth (108), an oscillating left side upper transmission shaft (109), an oscillating left side gear (110), an oscillating fluted disc (111), an oscillating transmission shaft (112), an oscillating bearing fixing plate (113), an oscillating right side gear (114), an oscillating right side tooth (115), an oscillating right side lower transmission shaft (116), an oscillating belt pulley (117), an oscillating right side upper transmission shaft (118), an oscillating right side upper straight tooth (119), an oscillating right side straight tooth (120), an oscillating right transmission shaft (121), an oscillating right helical tooth (122), an oscillating helical tooth (123), an oscillating upper transmission shaft (124), an oscillating upper straight tooth (125), an oscillating rack (126), an oscillating connecting plate (127) and an annular oscillator (128), the oscillating motor fixing plate (102) is fixedly arranged on an oscillating shell (101), an oscillating motor (103) is fixedly arranged on the oscillating motor fixing plate (102), an oscillating left side lower helical tooth (104) is fixedly arranged on a transmission shaft of the oscillating motor (103), the oscillating left side lower helical tooth (104) and the oscillating left side helical tooth (105) form gear engagement, the oscillating left side helical tooth (105) is fixedly arranged on an oscillating left side transmission shaft (106), the oscillating left side transmission shaft (106) is rotatably arranged on the oscillating shell (101), an oscillating left side upper straight tooth (107) is fixedly arranged at one end of the oscillating left side transmission shaft (106), the oscillating left side upper straight tooth (107) and the oscillating left side straight tooth (108) form gear engagement, the oscillating left side straight tooth (108) is fixedly arranged at one end of the oscillating left side upper transmission shaft (109), the oscillating left side upper transmission shaft (109) is rotatably arranged on the oscillating shell (101), the oscillating left side gear (110) is fixedly arranged at the other end of the transmission shaft (109) on the oscillating left side, the oscillating left side gear (110) and the oscillating fluted disc (111) form gear engagement, the oscillating fluted disc (111) is fixedly arranged at one end of the oscillating transmission shaft (112), the oscillating transmission shaft (112) is rotatably arranged on the oscillating bearing fixing plate (113), the oscillating bearing fixing plate (113) is fixedly arranged on the oscillating shell (101), the oscillating right side gear (114) is fixedly arranged at the other end of the oscillating transmission shaft (112), the oscillating right side gear (114) and the oscillating right side gear (115) form gear engagement, the oscillating right side gear (115) is fixedly arranged on the oscillating right side lower transmission shaft (116), the oscillating right side lower transmission shaft (116) is rotatably arranged on the oscillating shell (101), two ends of the oscillating belt pulley (117) are respectively and fixedly arranged on the oscillating right side lower transmission shaft (116) and the oscillating right side, an oscillating right upper transmission shaft (118) is rotatably arranged on an oscillating shell (101), an oscillating right upper straight tooth (119) is fixedly arranged in the middle of the oscillating right upper transmission shaft (118), the oscillating right upper straight tooth (119) and the oscillating right straight tooth (120) form gear meshing, the oscillating right straight tooth (120) is fixedly arranged at one end of an oscillating right transmission shaft (121), the oscillating right transmission shaft (121) is rotatably arranged on the oscillating shell (101), an oscillating right helical tooth (122) is fixedly arranged at the other end of the oscillating right transmission shaft (121), the oscillating right helical tooth (122) and the oscillating helical tooth (123) form gear meshing, the oscillating helical tooth (123) is fixedly arranged on an oscillating upper transmission shaft (124), the oscillating upper transmission shaft (124) is rotatably arranged on the oscillating shell (101), the oscillating upper straight tooth (125) is fixedly arranged in the middle of the oscillating upper transmission shaft (124), and the oscillating upper straight tooth (125) and an oscillating rack (126) form gear meshing, the oscillating rack (126) is slidably mounted on the oscillating housing (101).

3. The medical water-splitting oxygen-generating device as set forth in claim 1, characterized in that: the hydrogen-oxygen separation device (2) further comprises: the separation device comprises a separation fixing column (201), a separation side plate (202) and a separation gas channel (203), wherein the separation fixing column (201) is fixedly installed on the separation side plate (202), the separation side plate (202) is fixedly installed on the separation gas channel (203), and the separation gas channel (203) is fixedly installed on a liquid control box (204).

4. The medical water-splitting oxygen-generating device as set forth in claim 1, characterized in that: the water supply device (3) further comprises: a water supply motor fixing plate (302), a water supply motor (303), a water supply right side helical tooth (304), a water supply right helical tooth (305), a water supply right transmission shaft (306), a water supply right straight tooth (307), a water supply right side straight tooth (308), a water supply right side transmission shaft (309), a water supply straight tooth (310), a water supply transmission shaft (311), a water supply belt pulley (312), a water supply left side transmission shaft (313), a water supply left side straight tooth (314), a water supply left straight tooth (315), a water supply left transmission shaft (316), a water supply left gear (317), a water supply left toothed disc (318), a water supply left upper transmission shaft (319), a water supply left upper helical tooth (320), a water supply left upper helical tooth (321), a water supply left upper transmission shaft (322), a water supply left upper straight tooth (323), a water supply pump (325), a water supply liquid inlet pipe (326), a water supply tank (327) and a water supply drain pipe (328), wherein, a water supply motor (303) is fixedly arranged on the water supply motor (303), a right water supply helical tooth (304) is fixedly arranged on a transmission shaft of the water supply motor (303), the right water supply helical tooth (304) and the right water supply helical tooth (305) form gear engagement, the right water supply helical tooth (305) is fixedly arranged on a right water supply transmission shaft (306), the right water supply transmission shaft (306) is rotatably arranged on a water supply base (301), a right water supply straight tooth (307) is fixedly arranged in the middle of the right water supply transmission shaft (306), the right water supply straight tooth (307) and the right water supply straight tooth (308) form gear engagement, the right water supply straight tooth (308) is fixedly arranged on a right water supply transmission shaft (309), a right water supply transmission shaft (309) is rotatably arranged on the water supply base (301), the right water supply straight tooth (308) and the straight water supply tooth (310) form gear engagement, the straight water supply tooth (310) is fixedly arranged on the water supply transmission shaft, a water supply transmission shaft (311) is rotatably arranged on a water supply base (301), two ends of a water supply belt pulley (312) are respectively and fixedly arranged on the water supply transmission shaft (311) and a water supply left transmission shaft (313), the water supply left transmission shaft (313) is rotatably arranged on the water supply base (301), a water supply left straight tooth (314) is fixedly arranged on the water supply left transmission shaft (313), the water supply left straight tooth (314) and the water supply left straight tooth (315) form gear engagement, the water supply left straight tooth (315) is fixedly arranged on the water supply left transmission shaft (316), the water supply left transmission shaft (316) is rotatably arranged on the water supply base (301), a water supply left gear (317) is fixedly arranged in the middle of the water supply left transmission shaft (316), the water supply left gear (317) and the water supply left fluted disc (318) form gear engagement, the water supply left fluted disc (318) is fixedly arranged at one end of the water, the water supply left upper transmission shaft (319) is rotatably installed on the water supply base (301), the water supply left upper helical tooth (320) is fixedly installed at the other end of the water supply left upper transmission shaft (319), the water supply left upper helical tooth (320) and the water supply left upper helical tooth (321) form gear engagement, the water supply left upper helical tooth (321) is fixedly installed at one end of the water supply left upper transmission shaft (322), the water supply left upper transmission shaft (322) is rotatably installed on the water supply base (301), the water supply left upper straight tooth (323) is fixedly installed at the other end of the water supply left upper transmission shaft (322), the water supply left upper straight tooth (323) and the water supply straight gear (324) form gear engagement, the water supply straight gear (324) is fixedly installed on the transmission shaft of the water supply pump (325), and the water supply pump (325) is fixedly installed on the water supply base (301.

5. The medical water-splitting oxygen-generating device as set forth in claim 1, characterized in that: the separation reservoir (4) further comprises: the hydrogen-generating device comprises a glass shell (402) and a hydrogen port (403), wherein the glass shell (402) is fixedly arranged on the oxygen port (401), and the hydrogen port (403) is fixedly arranged on the glass shell (402).

6. The medical water-splitting oxygen-generating device as set forth in claim 2, characterized in that: the oscillation connecting plate (127) is fixedly arranged on the oscillation rack (126).

7. The medical water-splitting oxygen-generating device as set forth in claim 2, characterized in that: the ring oscillator (128) is fixedly arranged on the oscillation connecting plate (127).

8. The medical water-splitting oxygen-generating device as set forth in claim 4, wherein: one end of the water supply liquid inlet pipe (326) is fixedly arranged on the water supply pump (325).

9. The medical water-splitting oxygen-generating device as set forth in claim 4, wherein: the other end of the water supply inlet pipe (326) is fixedly arranged on the water supply tank (327), and one end of the water supply outlet pipe (328) is fixedly arranged on a water outlet of the water supply pump 325.

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