CN212416513U - Oxygen repeater used between oxygen and extracorporeal membrane lung oxygenator - Google Patents

Abstract

The utility model discloses an oxygen repeater used between an oxygen and an extracorporeal membrane lung oxygenator, which consists of a repeater case 1 and an oxygen stock repeater 2; the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 is adopted to display that under the condition that the oxygen supply channel of the external membrane lung oxygen combiner 4 suffers from oxygen supply shortage, the relay oxygen electronic valve 2-2-9 is automatically opened to supplement oxygen for the external membrane lung oxygen combiner 4; when the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 shows that the oxygen is completely cut off, the oxygen conversion electronic valve 2-2-2 is automatically closed, and the relay oxygen electronic valve 2-2-9 is opened to provide oxygen for the extracorporeal membrane lung oxygenator 4, the utility model discloses better solve when the extracorporeal membrane lung oxygenator meets the situation that oxygen is insufficient or the oxygen is accidentally cut off, can automatically supply oxygen or completely provide oxygen to the extracorporeal membrane lung oxygenator, provide better guarantee for the treatment of the extracorporeal membrane lung oxygenator patients.

Description

Oxygen repeater used between oxygen and extracorporeal membrane lung oxygenator

The technical field is as follows:

the utility model relates to an oxygen repeater used between an oxygen and an extracorporeal membrane lung oxygenator.

Background art:

ECMO is an English abbreviation of extracorporeal membrane oxygenation (extracorporeal membrane oxygenation) and is an extracorporeal circulation technique that can be performed at the bedside of a patient. The venous blood in the body of a patient is drained to the outside of the body, and is re-injected into the artery or vein of the patient after being oxygenated by an artificial cardiopulmonary bypass, so that the function of cardiopulmonary replacement is achieved, and the blood and oxygen supply of human tissues is maintained. ECMO is mainly used to provide continuous external respiration and circulation to patients with severe cardiopulmonary failure to sustain the life of the patients and to win valuable time for the rescue and treatment of critically ill patients.

ECMO works on the principle of drawing blood out of a vein, oxygenating the blood in vitro through a membrane lung, removing carbon dioxide, and infusing oxygenated blood back into the patient, thereby providing life support to the patient. When ECMO continuously operates, the membrane lung oxygenation must be externally connected with an oxygen source and sufficient oxygen supply is ensured, and if insufficient oxygen pressure or sudden oxygen interruption occurs, poor membrane lung oxygenation is caused, the blood oxygen saturation of a patient continuously decreases, the blood pressure decreases, arrhythmia occurs, and if the problem of oxygen supply cannot be solved in time, the life safety of the patient is seriously threatened.

The invention content is as follows:

the utility model provides an oxygen repeater used between an oxygen and an external membrane lung oxygenator to overcome the above difficulties.

The utility model adopts the following technical proposal to realize the purpose of the invention: an oxygen repeater used between oxygen and an extracorporeal membrane lung oxygenator, which comprises a repeater case 1 and an oxygen stock repeater 2; the repeater case 1 is provided with a repeater case hollow 1-1-4, the left side surface is provided with an oxygen forward pipe passage hole 1-1-1-1, and the right side is provided with an oxygen backward pipe passage hole 1-1-2-1; the oxygen stock repeater 2 consists of an oxygen relay tank 2-1 and an oxygen conversion device 2-2; an oxygen relay tank 2-1 is internally provided with an oxygen hollow 2-1-1; the upper plane of the oxygen relay tank 2-1 is provided with an oxygen storage pipe connecting hole 2-1-3 and an oxygen relay pipe connecting hole 2-1-4; the upper plane of the oxygen relay tank 2-1 is provided with an oxygen meter connecting hole 2-1-2 and an electronic oxygen meter 2-1-2-1; the lower part of the electronic oxygen meter 2-1-2-1 is arranged in an oxygen meter connecting hole 2-1-2;

the oxygen conversion device 2-2 consists of an oxygen conveying pipe 2-2-1, an oxygen conversion electronic valve 2-2-2, an oxygen supply hose conversion joint 2-2-3, an oxygen supply hose 2-2-4, an equipment oxygen hose conversion joint 2-2-5 and an oxygen preparation hose 2-2-6; the oxygen conversion electronic valve 2-2-2 is arranged in the middle of the oxygen conveying pipe 2-2-1 in the horizontal direction, and divides the oxygen conveying pipe 2-2-1 into two sections of pipelines, namely an oxygen advancing pipe 2-2-1-1 and an oxygen rear outlet pipe 2-2-1-2; an oxygen storage pipe 2-2-1-1-1 is arranged below the oxygen advancing pipe 2-2-1-1; the oxygen storage pipe 2-2-1-1-1 is provided with a storage pipe electronic valve 2-2-7 and a storage oxygen compressor 2-2-8; an oxygen relay pipe 2-2-1-2-1 is arranged below the pipeline of the oxygen rear outlet pipe 2-2-1-2, and a relay oxygen electronic valve 2-2-9 is arranged on the oxygen relay pipe 2-2-1-2-1: an oxygen pressure gauge 2-2-1-2-2 is arranged below the pipeline of the oxygen back-outlet pipe 2-2-1-2.

In order to install the device, the left side of the repeater box 1-1 is provided with a left side plate 1-1-1, and an oxygen advancing pipe passing hole 1-1-1-1 is arranged above the left side plate 1-1-1; the right side of the repeater box 1-1 is provided with a right side plate 1-1-2, and an oxygen and oxygen rear outlet pipe passage hole 1-1-2-1 is arranged above the right side plate 1-1-2; the front part of the repeater box 1-1 is provided with a front plate 1-1-3, and the middle part of the front plate 1-1-3 is provided with a transparent plate 1-1-3-1.

The utility model discloses a quick connection oxygen source and external membrane lung oxygen machine, the left side end of oxygen suppliment hose 2-2-4 is equipped with oxygen suppliment hose quick-operation joint 2-2-4-1, and the right side end of being equipped with oxygen hose 2-2-6-1 is equipped with equipment oxygen hose quick-operation joint 2-2-6-1.

The utility model adopts the technical proposal that the utility model better realizes the purpose of the invention, and the utility model adopts the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 to display that the relay oxygen electronic valve 2-2-9 is automatically opened to supplement oxygen for the external membrane lung oxygenator 4 under the condition that the oxygen supply channel for the external membrane lung oxygenator 4 is insufficient; when the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 shows that the oxygen is completely cut off, the oxygen conversion electronic valve 2-2-2 is automatically closed, and the relay oxygen electronic valve 2-2-9 is opened to provide oxygen for the extracorporeal membrane lung oxygenator 4, the utility model discloses better solve when the extracorporeal membrane lung oxygenator meets the situation that oxygen is insufficient or the oxygen is accidentally cut off, can automatically supply oxygen or completely provide oxygen to the extracorporeal membrane lung oxygenator, provide better guarantee for the treatment of the extracorporeal membrane lung oxygenator patients.

Description of the drawings:

fig. 1 is a schematic sectional view of the integral junction of the present invention.

Fig. 2 is a schematic structural diagram of the present invention 1.

Fig. 3 is a schematic cross-sectional structure of the utility model 1.

Fig. 4 is a schematic structural diagram of the present invention 2.

Fig. 5 is a schematic cross-sectional structure of the utility model 2.

FIG. 6 is a schematic view of the present invention connecting an oxygen source 3 and an extracorporeal membrane lung oxygenator 4; and a schematic position diagram of the control box 5.

Description of reference numerals:

the relay chassis 1: repeater box 1-1: left side plate 1-1-1: oxygen advancing pipe passage hole 1-1-1-1: right side plate 1-1-2: oxygen and oxygen are discharged from the pipeline through holes 1-1-2-1:

front panel 1-1-3: transparent plate 1-1-3-1: the hollow part of the relay box is 1-1-4: 1-2 of wheels: oxygen backup repeater 2: oxygen relay tank 2-1: oxygen hollow 2-1-1: oxygen meter connecting hole 2-1-2: electronic oxygen meter 2-1-2-1: oxygen storage tube connection holes 2-1-3: oxygen relay pipe connecting holes 2-1-4: oxygen conversion device 2-2: oxygen delivery pipe 2-2-1: oxygen advancing pipe 2-2-1-1: oxygen storage tube 2-2-1-1-1: an oxygen rear outlet pipe 2-2-1-2: oxygen relay pipe 2-2-1-2-1: 2-2-1-2-2 of oxygen pressure gauge: oxygen conversion electronic valve 2-2-2: oxygen supply hose crossover sub 2-2-3: oxygen supply hose 2-2-4: oxygen supply hose quick connector 2-2-4-1: 2-2-5 of equipment oxygen hose adapter: 2-2-6 of equipment oxygen hose: 2-2-6-1 of quick connector of oxygen hose of equipment: storage tube electronic valve 2-2-7: storage oxygen compressor 2-2-8: relay oxygen electronic valve 2-2-9; an oxygen source 3: extracorporeal membrane lung oxygenator 4: and a control box 5.

The specific implementation mode is as follows:

the invention will be further described with reference to the accompanying drawings:

example 1:

in order to overcome the above difficulties, the present invention provides an oxygen relay device for use between oxygen and an extracorporeal membrane lung oxygenator.

The utility model adopts the following technical proposal to realize the purpose of the invention: an oxygen repeater used between oxygen and an extracorporeal membrane lung oxygenator, which comprises a repeater case 1 and an oxygen stock repeater 2; the repeater case 1 is provided with a repeater case hollow 1-1-4, the left side surface is provided with an oxygen forward pipe passage hole 1-1-1-1, and the right side is provided with an oxygen backward pipe passage hole 1-1-2-1; the oxygen stock repeater 2 consists of an oxygen relay tank 2-1 and an oxygen conversion device 2-2; an oxygen relay tank 2-1 is internally provided with an oxygen hollow 2-1-1; the upper plane of the oxygen relay tank 2-1 is provided with an oxygen storage pipe connecting hole 2-1-3 and an oxygen relay pipe connecting hole 2-1-4; the upper plane of the oxygen relay tank 2-1 is provided with an oxygen meter connecting hole 2-1-2 and an electronic oxygen meter 2-1-2-1; the lower part of the electronic oxygen meter 2-1-2-1 is arranged in an oxygen meter connecting hole 2-1-2;

the oxygen conversion device 2-2 consists of an oxygen conveying pipe 2-2-1, an oxygen conversion electronic valve 2-2-2, an oxygen supply hose conversion joint 2-2-3, an oxygen supply hose 2-2-4, an equipment oxygen hose conversion joint 2-2-5 and an oxygen preparation hose 2-2-6; the oxygen conversion electronic valve 2-2-2 is arranged in the middle of the oxygen conveying pipe 2-2-1 in the horizontal direction, and divides the oxygen conveying pipe 2-2-1 into two sections of pipelines, namely an oxygen advancing pipe 2-2-1-1 and an oxygen rear outlet pipe 2-2-1-2; an oxygen storage pipe 2-2-1-1-1 is arranged below the oxygen advancing pipe 2-2-1-1; the oxygen storage pipe 2-2-1-1-1 is provided with a storage pipe electronic valve 2-2-7 and a storage oxygen compressor 2-2-8; an oxygen relay pipe 2-2-1-2-1 is arranged below the pipeline of the oxygen rear outlet pipe 2-2-1-2, and a relay oxygen electronic valve 2-2-9 is arranged on the oxygen relay pipe 2-2-1-2-1: an oxygen pressure gauge 2-2-1-2-2 is arranged below the pipeline of the oxygen back-outlet pipe 2-2-1-2.

Example 2:

in order to install the device, the left side of the repeater box 1-1 is provided with a left side plate 1-1-1, and an oxygen advancing pipe passing hole 1-1-1-1 is arranged above the left side plate 1-1-1; the right side of the repeater box 1-1 is provided with a right side plate 1-1-2, and an oxygen and oxygen rear outlet pipe passage hole 1-1-2-1 is arranged above the right side plate 1-1-2; the front part of the repeater box 1-1 is provided with a front plate 1-1-3, and the middle part of the front plate 1-1-3 is provided with a transparent plate 1-1-3-1.

The utility model discloses a quick connection oxygen source and external membrane lung oxygen machine, the left side end of oxygen suppliment hose 2-2-4 is equipped with oxygen suppliment hose quick-operation joint 2-2-4-1, and the right side end of being equipped with oxygen hose 2-2-6-1 is equipped with equipment oxygen hose quick-operation joint 2-2-6-1.

Example 3:

relay machine case 1 mean: the utility model is provided with a case for installing the oxygen standby repeater 2 and four small wheels; the structure is shown in figure 2, the cross-sectional structure is shown in figure 3, and the cross-sectional position is shown in figure 1.

The utility model discloses a working method does: (firstly, a preparation working mode before the equipment works) starting a circuit control box 5, closing a relay oxygen electronic valve 2-2-9, automatically starting a storage tube electronic valve 2-2-7 and starting a storage oxygen compressor 2-2-8 to oxygenate an oxygen relay tank 2-1 when oxygen pressure data provided by an electronic oxygen meter 2-1-2-1 shows that oxygen in the oxygen 2-1-1 is insufficient or nonexistent, and automatically closing the starting storage tube electronic valve 2-2-7 and simultaneously closing the storage oxygen compressor 2-2-8 after the oxygen pressure data is full; (II, the relay working mode of the equipment) when the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 shows that the oxygen supply channel of the extracorporeal membrane lung oxygenator 4 suffers from oxygen supply shortage, automatically opening the relay oxygen electronic valve 2-2-9 to supplement oxygen for the extracorporeal membrane lung oxygenator 4; when the oxygen pressure data provided by the oxygen pressure gauge 2-2-1-2-2 shows complete oxygen cut-off, the oxygen conversion electronic valve 2-2-2 is automatically closed, and the relay oxygen electronic valve 2-2-9 is opened to provide oxygen for the extracorporeal membrane lung oxygen machine 4.

The utility model discloses a repeater case 1-1 mean: the repeater case 1 is provided with a case part of an oxygen stock repeater 2; the structure is shown in figure 2, the cross-sectional structure is shown in figure 3, and the cross-sectional position is shown in figure 1.

The left side plate 1-1-1 of the utility model refers to: the structure of the sealing plate on the left of the repeater box 1-1 is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The oxygen advancing pipe of the utility model is characterized in that the passage hole 1-1-1-1 is: a hole; a passage through which the oxygen advancing pipe 2-2-1-1 passes; the structure is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The right side plate 1-1-2 of the utility model refers to: the structure of the sealing plate on the right side of the repeater box 1-1 is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The oxygen and oxygen back outlet pipe of the utility model is through the pipe hole 1-1-2-1: a hole; the oxygen back pipe 2-2-1-2 passes through the channel; the structure is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The front plate 1-1-3 of the utility model refers to: a sealing plate in front of the apparatus; the structure is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The transparent plate 1-1-3-1 of the utility model refers to: transparent glass or a plate-shaped plate made of transparent materials; the structure is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional position is shown in figure 3.

The utility model discloses a relay box cavity 1-1-4 indicate: a space; a space where the oxygen backup repeater 2 is installed; the structure is shown in figure 2, and the cross-sectional structure is shown in figure 3; the cross-sectional positions are shown in figures 1 and 3.

The utility model discloses wheel 1-2 indicate: the utility model is a common small wheel, which can adopt 4 directional wheels or 2 directional wheels and two universal wheels; the structure is shown in figure 2; the cross-sectional position is shown in figure 3.

The oxygen standing repeater 2 of the utility model means: the oxygen standby in the label name means that the oxygen is normally used and used in a channel, and the oxygen standby means an oxygen standby channel; the structure is shown in figure 4; the cross-sectional structure is shown in figure 5; the position of which is shown in figure 1.

The oxygen relay tank 2-1 of the utility model refers to: a tank for storing oxygen; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional positions are shown in figures 1 and 5.

The oxygen cavity 2-1-1 of the utility model refers to: the oxygen relay tank 2-1 is used for storing oxygen; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional positions are shown in figures 1 and 5.

The oxygen meter connecting hole 2-1-2 of the utility model means: screw holes or bores; installing a hole connected with an electronic oxygen meter 2-1-2-1; the electronic oxygen meter is connected with the electronic oxygen meter 2-1-2-1 in a welding or thread mode; the structure is shown in figure 4; the position of which is shown in figure 4.

The electronic oxygen meter 2-1-2-1 of the utility model refers to: an oxygen gauge to measure oxygen pressure or storage; the structure is shown in the attached drawings; the position of which is shown in the figure.

The oxygen storage tube connecting hole 2-1-3 of the utility model refers to: the oxygen relay tank 2-1 is connected with a hole of an oxygen storage pipe 2-2-1-1-1; the structure is shown in figure 4; the position of which is shown in figure 4.

The oxygen relay tube connecting hole 2-1-4 of the utility model means: the oxygen relay tank 2-1 is connected with a hole of an oxygen relay pipe 2-2-1-2-1; the structure is shown in figure 4; the position of which is shown in figure 4.

The oxygen conversion device 2-2 of the utility model refers to: the oxygen stock in the oxygen stock repeater 2 uses the exchange pipeline of the channel; the structure is shown in figure 4; the cross-sectional structure is shown in figure 5; the position of which is shown in figure 1.

The oxygen conveying pipe 2-2-1 of the utility model refers to: a conduit through which oxygen passes; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the position of which is shown in figure 1.

The oxygen advancing pipe 2-2-1-1 of the utility model refers to: the front end part of the oxygen conveying pipe 2-2-1 close to the left side and the oxygen input pipe of the oxygen conveying pipe 2-2-1 are connected by taking the oxygen conversion electronic valve 2-2-2 as a boundary; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the position of which is shown in figure 1.

The oxygen storage tube 2-2-1-1-1 of the utility model refers to: the oxygen advancing pipe 2-2-1-1 is divided into a division pipe of the oxygen relay tank 2-1 and a connection pipe; an air inlet pipe of the oxygen relay tank 2-1; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The oxygen back outlet pipe 2-2-1-2 of the utility model refers to: the oxygen advancing pipe 2-2-1-1 of the utility model refers to: an output part of the oxygen conveying pipe 2-2-1 close to the right and an oxygen output pipe of the oxygen conveying pipe 2-2-1 are arranged by taking the oxygen conversion electronic valve 2-2-2 as a boundary; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the position of which is shown in figure 1.

The utility model discloses an oxygen relay pipe 2-2-1-2-1 mean: an exhaust pipe of the oxygen relay tank 2-1; the oxygen rear outlet pipe 2-2-1-2 is connected with a connecting pipe of the oxygen relay tank 2-1; an oxygen standby inlet pipe of an oxygen rear outlet pipe 2-2-1-2; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The oxygen pressure gauge 2-2-1-2-2 of the utility model refers to: an oxygen pressure gauge for measuring oxygen in the oxygen outlet pipe 2-2-1-2; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The oxygen conversion electronic valve 2-2-2 of the utility model means: an electronic valve for opening and closing the pipeline channel of the oxygen conveying pipe 2-2-1; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The oxygen supply hose adapter 2-2-3 of the utility model refers to: a connection joint, a crossover joint; a connector of an oxygen supply hose 2-2-4 and an oxygen advancing pipe 2-2-1-1; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The utility model discloses oxygen suppliment hose 2-2-4 indicate: a medical hollow oxygen hose; the function of connecting an oxygen source is realized; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The utility model discloses oxygen suppliment hose quick-operation joint 2-2-4-1 mean: a common quick connector; a quick connector connected with an oxygen source pipeline; the structure is shown in figure 4; the position of which is shown in figure 4.

The utility model discloses equipment oxygen hose crossover sub 2-2-5 indicate: a connection joint, a crossover joint; a connector of an equipment oxygen hose 2-2-6 and an oxygen rear outlet pipe 2-2-1-2; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The utility model discloses equipment oxygen hose 2-2-6 indicate: a medical hollow oxygen hose; function as a connecting device; the structure is shown in figure 4; the position is shown in figure 4; the cross-sectional structure is shown in figure 5; the cross-sectional position is shown in figure 1.

The utility model discloses equipment oxygen hose quick-operation joint 2-2-6-1 mean: the common quick connector is connected with a quick connector of an oxygen pipe of the equipment; the structure is shown in figure 4; the position of which is shown in figure 4.

The utility model discloses a storage tube electronic valve 2-2-7 indicate: an electronic valve for opening and closing the pipeline channel of the oxygen storage pipe 2-2-1-1-1; the structure is shown in figure 4; the position is shown in figure 4, and the cross-sectional position is shown in figures 1 and 5.

The storage oxygen compressor 2-2-8 of the utility model refers to: a medical oxygen compressor; the position is shown in figure 4, and the cross-sectional position is shown in figures 1 and 5.

The utility model discloses a relaying oxygen electronic valve 2-2-9 indicate: opening and closing an electronic valve of a pipeline channel of the oxygen relay pipe 2-2-1-2-1; the structure is shown in figure 4; the position is shown in figure 4, and the cross-sectional position is shown in figures 1 and 5.

The oxygen source 3 of the utility model means: medical oxygen supply tube and medical oxygen bottle in hospital.

The extracorporeal membrane lung oxygenator 4 of the utility model means: (extracorporeal membrane oxygenation) ECMO machine.

Circuit control box 5 mean: an electronic circuit controller. The storage tube electronic valve 2-2-7, the storage oxygen compressor 2-2-8, the relay oxygen electronic valve 2-2-9, the oxygen conversion electronic valve 2-2-2, the oxygen pressure gauge 2-2-1-2-2, the electronic oxygen gauge 2-1-2-1 and the like are connected with a circuit board of the circuit control box 5, and oxygen is supplemented to the extracorporeal membrane lung oxygenator 4 through programming or the automatic conversion pipeline independently provides oxygen for the extracorporeal membrane lung oxygenator 4.

Claims (2)

1. An oxygen repeater used between oxygen and an extracorporeal membrane lung oxygenator is characterized by comprising a repeater case (1) and an oxygen stock repeater (2); a relay box hollow part (1-1-4) is arranged on the relay case (1), an oxygen forward pipe passing hole (1-1-1-1) is formed in the left side surface, and an oxygen backward pipe passing hole (1-1-2-1) is formed in the right side surface; the oxygen stock repeater (2) consists of an oxygen relay tank (2-1) and an oxygen conversion device (2-2); an oxygen hollow part (2-1-1) is arranged in the oxygen relay tank (2-1); the upper plane of the oxygen relay tank (2-1) is provided with an oxygen storage pipe connecting hole (2-1-3) and an oxygen relay pipe connecting hole (2-1-4); the upper plane of the oxygen relay tank (2-1) is provided with an oxygen meter connecting hole (2-1-2) and an electronic oxygen meter (2-1-2-1); the lower part of the electronic oxygen meter (2-1-2-1) is arranged in the oxygen meter connecting hole (2-1-2);

the oxygen conversion device (2-2) consists of an oxygen conveying pipe (2-2-1), an oxygen conversion electronic valve (2-2-2), an oxygen supply hose conversion joint (2-2-3), an oxygen supply hose (2-2-4), an equipment oxygen hose conversion joint (2-2-5) and an oxygen preparation hose (2-2-6); the oxygen conversion electronic valve (2-2-2) is arranged in the middle of the oxygen conveying pipe (2-2-1) in the horizontal direction, and divides the oxygen conveying pipe (2-2-1) into two sections of pipelines, namely an oxygen advancing pipe (2-2-1-1) and an oxygen rear outlet pipe (2-2-1-2); an oxygen storage pipe (2-2-1-1-1) is arranged below the pipeline of the oxygen advancing pipe (2-2-1-1); the oxygen storage pipe (2-2-1-1-1) is provided with a storage pipe electronic valve (2-2-7) and a storage oxygen compressor (2-2-8); an oxygen relay pipe (2-2-1-2-1) is arranged below the pipeline of the oxygen post-outlet pipe (2-2-1-2), and a relay oxygen electronic valve (2-2-9) is arranged on the oxygen relay pipe (2-2-1-2-1): an oxygen pressure gauge (2-2-1-2-2) is arranged below the pipeline of the oxygen rear outlet pipe (2-2-1-2).

2. The oxygen repeater for use between oxygen and an extracorporeal membrane lung oxygenator according to claim 1, wherein the left end of the oxygen supply hose (2-2-4) is provided with an oxygen supply hose quick coupling (2-2-4-1): the right end of the oxygen preparation hose (2-2-6) is provided with an equipment oxygen hose quick connector (2-2-6-1).

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