CN113425960A

CN113425960A - Mute type oxygen humidifying device

Info

Publication number: CN113425960A
Application number: CN202110890978.XA
Authority: CN
Inventors: 武仁华; 唐藜瑞; 刘维; 袁丽
Original assignee: West China Hospital of Sichuan University
Current assignee: West China Hospital of Sichuan University
Priority date: 2021-08-04
Filing date: 2021-08-04
Publication date: 2021-09-24
Anticipated expiration: 2041-08-04
Also published as: CN113425960B

Abstract

The invention discloses a silent oxygen humidifying device, and relates to the field of oxygen humidifying devices. An oxygen humidification device with less noise is provided. The silent oxygen humidifying device comprises an oxygen inhalator and a humidifying bottle, wherein an output joint and an oxygen pipe are arranged on the oxygen inhalator, and the humidifying bottle is sleeved on the oxygen pipe and is detachably connected with the oxygen inhalator; also comprises a water suction pipe; the front part of the oxygen tube is horizontal or upwarps, and the water suction tube is vertically arranged below the oxygen tube and is connected with the oxygen tube. The oxygen passes through the oxygen tube at a high speed to attract the humidified water, and the humidified water flows into the oxygen tube through the water absorption tube and is mixed with the oxygen and flows out of the oxygen tube. In the process, the oxygen is humidified by mixing with the humidifying water, and the noise is obviously reduced because no bubbles are generated in the oxygen humidifying process. An atomization structure can also be arranged in front of the oxygen tube, the water sucked up by the water suction tube is impacted and atomized by oxygen, and the oxygen and the water mist are output together, so that the oxygen humidification degree is improved.

Description

Mute type oxygen humidifying device

Technical Field

The invention relates to the field of oxygen humidifying devices, in particular to a silent oxygen humidifying device.

Background

Two common oxygen humidification devices are available. The utility model discloses an oxygen humidifying device, which comprises an oxygen inhalator and a humidifying bottle, wherein the oxygen inhalator is provided with an oxygen pipe and an output joint, the humidifying bottle is sleeved on the oxygen pipe and is detachably connected with the oxygen inhalator, and ZL201921735354.5 discloses the oxygen humidifying device. The other type of the humidifying device comprises an oxygen inhalator, a humidifying bottle cover and a humidifying bottle, wherein an output connector and an oxygen pipe are arranged on the humidifying bottle cover, the humidifying bottle cover is detachably connected with the oxygen inhalator, the oxygen pipe is communicated with the oxygen inhalator, the humidifying bottle is sleeved outside the oxygen pipe and is detachably connected with the humidifying bottle cover, and ZL202021763790.6 discloses the oxygen humidifying device.

When the oxygen humidifying device is used, the oxygen inhalator is connected with a hospital central oxygen supply system or an oxygen bottle, and humidifying water is filled in the humidifying bottle; oxygen enters an oxygen inhaler, and the oxygen inhaler can measure and adjust oxygen supply parameters; then the oxygen enters the humidifying water through the oxygen pipe to realize humidification, and then is output from the output joint. Patients inhale humidified oxygen to avoid airway dryness.

Conventional oxygen humidification devices have several disadvantages. Firstly, oxygen enters the humidifying water to generate a large amount of bubbles, so that large noise is generated, and the rest of a patient at night is obviously influenced. Secondly, oxygen is used for oxygen inhalation of patients and is also used for oxygen atomization treatment, the oxygen for the atomization treatment cannot be humidified, at present, the humidification bottle can only be detached to pour water in the humidification bottle, and water is added again during oxygen inhalation; part of the humidifying water is used, and the humidifying bottled water can only be detached by adding water when the water level is lower; the above operation is cumbersome. Thirdly, the time for oxygen to flow through the humidifying water is short, the humidifying degree of the oxygen is not high, and partial patient airways still have dry feeling.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: an oxygen humidification device with less noise is provided.

The first technical scheme adopted for solving the problems is as follows: the silent oxygen humidifying device comprises an oxygen inhalator and a humidifying bottle, wherein an output joint and an oxygen pipe are arranged on the oxygen inhalator, and the humidifying bottle is sleeved on the oxygen pipe and is detachably connected with the oxygen inhalator; also comprises a water suction pipe; the front part of the oxygen tube is horizontal or upwarps, and the water suction tube is vertically arranged below the oxygen tube and is connected with the oxygen tube.

Further, the method comprises the following steps: the water absorption pipe is internally provided with a plurality of water absorption small holes.

Further, the method comprises the following steps: the silent oxygen humidifying device comprises a water filling port cover, a water filling port is arranged on the humidifying bottle, and the water filling port cover covers the water filling port.

The second technical scheme adopted for solving the problems is as follows: the mute type oxygen humidifying device comprises an oxygen inhalator, a humidifying bottle cap and a humidifying bottle, wherein an output connector and an oxygen pipe are arranged on the humidifying bottle cap, the humidifying bottle cap is detachably connected with the oxygen inhalator, the oxygen pipe is communicated with the oxygen inhalator, and the humidifying bottle is sleeved outside the oxygen pipe and is detachably connected with the humidifying bottle cap; also comprises a water suction pipe; the front part of the oxygen tube is horizontal or upwarps, and the water suction tube is vertically arranged below the oxygen tube and is connected with the oxygen tube.

Further, the method comprises the following steps: the silent oxygen humidifying device comprises a water filling port cover, wherein a water filling port is arranged on the humidifying bottle cover, and the water filling port cover covers the water filling port.

The third technical solution adopted to solve the above problems is: the mute type oxygen humidifying device comprises an oxygen inhalator, a humidifying bottle cap and a humidifying bottle, wherein an output connector and an oxygen pipe are arranged on the humidifying bottle cap, the humidifying bottle cap is detachably connected with the oxygen inhalator, the oxygen pipe is communicated with the oxygen inhalator, and the humidifying bottle is detachably connected with the humidifying bottle cap; also comprises a water suction pipe; the humidifying bottle cap comprises a bottle cap main body, an atomizing pipe, an adjusting rod and a water collecting cover; the bottle cap main body is provided with an output hole and a water return hole positioned below the output hole; the atomizing pipe is arranged along the radial direction of the bottle cap main body and comprises a conical pipe and a cylindrical pipe, the large end of the conical pipe is arranged corresponding to the output hole and is connected with the bottle cap main body, and the cylindrical pipe is connected with the small end of the conical pipe; the water suction pipe is vertically arranged below the cylindrical pipe, and the water suction pipe is connected with the cylindrical pipe and the joint of the water suction pipe and the cylindrical pipe is close to the conical pipe; the front end of the adjusting rod is inserted into the cylindrical pipe and matched with the cylindrical pipe, the rear end of the adjusting rod extends out of the bottle cap main body and is sealed with the bottle cap main body, and the adjusting rod is provided with an oxygen hole which extends backwards from the front end of the adjusting rod; the adjusting rod can move axially, so that the front end surface of the adjusting rod can move to the front or the back of the water suction pipe; the oxygen pipe is a hose, and is connected with the adjusting rod and communicated with the oxygen hole; the water collecting cover is positioned outside the bottle cap main body and is connected with the bottle cap main body and covers the output hole and the water return hole; the output connector is connected with the water collecting cover and is higher than the output hole.

Further, the method comprises the following steps: the humidifying bottle cap comprises a silencing pipe, the silencing pipe is arranged in the water collecting cover and corresponds to the output hole, two ends of the silencing pipe are respectively connected with the humidifying bottle cap and the water collecting cover, and a plurality of silencing holes are formed in the silencing pipe.

The invention has the beneficial effects that: when the oxygen humidifying device adopting the first technical scheme and the second technical scheme is used, oxygen passes through the oxygen pipe at a high speed. According to Bernoulli's law, low pressure is generated near the fluid flowing at high speed, so that adsorption is generated, and therefore the low pressure attracts humidified water, and the humidified water flows into the oxygen tube through the water suction tube, is mixed with oxygen and flows out of the oxygen tube together. In the process, the oxygen is humidified due to the mixing with the humidifying water. After the humidified water and the oxygen flow out of the oxygen tube, the humidified water falls back to the humidifying bottle, and the oxygen is output from the output joint for the patient to inhale. The noise is obviously reduced because no bubble is generated in the oxygen humidifying process.

When the oxygen humidifying device of the third technical scheme is used, oxygen flows out through the oxygen pipe and the oxygen hole, and low-pressure adsorption is also generated; the humidified water flows into the cylindrical pipe through the water suction pipe, and the humidified water is atomized by the impact of oxygen; the atomization principle is the same as that of the existing oxygen atomization device. Then oxygen, water mist and non-atomized water drops enter the water collecting cover, and the non-atomized water drops are collected and flow back to the humidifying bottle from the water return hole; oxygen and water mist are output from the output connector for inhalation by the patient. In the process, oxygen and water are mixed to realize humidification of oxygen, and simultaneously, oxygen also drives water mist to be output from the output connector, so that oxygen is very humid, and the dryness of the airway of a patient can be effectively avoided. The noise is obviously reduced because no bubble is generated in the oxygen humidifying process.

The oxygen humidifying device of the third technical scheme can also be adjusted to select whether oxygen needs to be humidified, so that the oxygen humidifying device is suitable for oxygen inhalation and oxygen atomization. Particularly, the adjusting rod is pulled backwards, so that the front end of the adjusting rod is positioned behind the water suction pipe, and water suction can be realized to humidify oxygen and adapt to the oxygen suction condition; the adjusting rod is pushed forwards, so that the front end of the adjusting rod is positioned in front of the water suction pipe, the water suction pipe is sealed by the adjusting rod, and water cannot be sucked, so that the water cannot be humidified, and the oxygen atomization condition is adapted. The adjustment mode does not need to disassemble the humidification bottle, and is very simple and practical.

Drawings

FIG. 1 is a schematic diagram of a first silent oxygen humidification device;

FIG. 2 is a sectional view of the water absorption tube;

FIG. 3 is a schematic diagram of a second silent oxygen humidifier;

FIG. 4 is a schematic diagram of a third silent oxygen humidifier;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a partial enlarged view of a silent oxygen humidifier with a silencer tube;

labeled as: the oxygen inhalation device comprises an oxygen inhalation device 1, a humidifying bottle 2, an oxygen tube 3, an output joint 4, a water suction tube 5, a small water suction hole 51, a water filling port 6, a water filling port cover 7, a humidifying bottle cover 8, a bottle cover main body 81, an output hole 811, a water return hole 812, an atomizing tube 82, a conical tube 821, a cylindrical tube 822, an adjusting rod 83, an oxygen hole 831, a water collecting cover 84, a silencing tube 85 and a silencing hole 851.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

As shown in fig. 1, the first silent oxygen humidification device comprises an oxygen inhalator 1 and a humidification bottle 2, wherein the oxygen inhalator 1 is provided with an output joint 4 and an oxygen tube 3, and the humidification bottle 2 is sleeved on the oxygen tube 3 and is detachably connected with the oxygen inhalator 1; also comprises a water suction pipe 5; the front part of the oxygen tube 3 is horizontal or upwarps, and the water suction tube 5 is vertically arranged below the oxygen tube 3 and is connected with the oxygen tube 3.

When the first oxygen humidifying device is used, oxygen passes through the oxygen pipe 3 at a high speed. According to bernoulli's law, low pressure is generated near the fluid flowing at high speed, thereby generating adsorption, so that the low pressure attracts the humidified water, and the humidified water flows into the oxygen hose 3 through the suction pipe 5, is mixed with the oxygen and flows out of the oxygen hose 3 together. In the process, the oxygen is humidified due to the mixing with the humidifying water. After the humidified water and the oxygen flow out of the oxygen tube 3, the humidified water falls back to the humidifying bottle 2, and the oxygen is output from the output joint 4 for the patient to inhale. The noise is obviously reduced because no bubble is generated in the oxygen humidifying process.

As shown in fig. 3, the second silent oxygen humidification device comprises an oxygen inhalator 1, a humidification bottle cap 8 and a humidification bottle 2, wherein an output connector 4 and an oxygen tube 3 are arranged on the humidification bottle cap 8, the humidification bottle cap 8 is detachably connected with the oxygen inhalator 1, the oxygen tube 3 is communicated with the oxygen inhalator 1, and the humidification bottle 2 is sleeved outside the oxygen tube 3 and detachably connected with the humidification bottle cap 8; also comprises a water suction pipe 5; the front part of the oxygen tube 3 is horizontal or upwarps, and the water suction tube 5 is vertically arranged below the oxygen tube 3 and is connected with the oxygen tube 3.

The humidifying principle of the second silent oxygen humidifying device is the same as that of the first silent oxygen humidifying device, and the second silent oxygen humidifying device is not described in detail herein.

The two oxygen humidifying devices are preferably provided with a plurality of water absorbing small holes 51 in the water absorbing pipe 5, so that the humidifying devices are more favorable for absorbing humidifying water, and the humidifying water is more dispersed after being absorbed into the oxygen pipe 3 and is favorable for being fully mixed with oxygen.

In order to add water into the humidification bottle 2 conveniently, the preferential silent oxygen humidification device comprises a water adding port cover 7, a water adding port 6 is arranged on the humidification bottle 2, and the water adding port cover 7 covers the water adding port 6. Therefore, the water can be added into the humidification bottle 2 by opening the water adding opening cover 7, and the humidification bottle 2 does not need to be detached, so that the humidification bottle is more convenient.

As shown in fig. 4 and 5, the third silent oxygen humidification device comprises an oxygen inhalator 1, a humidification bottle cap 8 and a humidification bottle 2, wherein an output joint 4 and an oxygen tube 3 are arranged on the humidification bottle cap 8, the humidification bottle cap 8 is detachably connected with the oxygen inhalator 1, the oxygen tube 3 is communicated with the oxygen inhalator 1, and the humidification bottle 2 is detachably connected with the humidification bottle cap 8; also comprises a water suction pipe 5; the humidifying bottle cap 8 comprises a bottle cap main body 81, an atomizing pipe 82, an adjusting rod 83 and a water collecting cover 84; the bottle cap main body 81 is provided with an output hole 811 and a water return hole 812 positioned below the output hole; the atomizing pipe 82 is arranged along the radial direction of the bottle cap body 81, the atomizing pipe 82 comprises a conical pipe 821 and a cylindrical pipe 822, the large end of the conical pipe 821 is arranged corresponding to the output hole 811 and is connected with the bottle cap body 81, and the cylindrical pipe 822 is connected with the small end of the conical pipe 821; the water suction pipe 5 is vertically arranged below the cylindrical pipe 822, the water suction pipe 5 is connected with the cylindrical pipe 822, and the connection position of the water suction pipe 5 is close to the conical pipe 821; the front end of the adjusting rod 83 is inserted into the cylindrical pipe 822 and is matched with the cylindrical pipe 822, the rear end of the adjusting rod 83 extends out of the bottle cap main body 81 and is sealed with the bottle cap main body 81, and the adjusting rod 83 is provided with an oxygen hole 831 extending backwards from the front end of the adjusting rod 83; the adjusting rod 83 can move axially, so that the front end surface of the adjusting rod can move to the front or the back of the water suction pipe 5; the oxygen pipe 3 is a hose, and the oxygen pipe 3 is connected with the adjusting rod 83 and communicated with the oxygen hole 831; the water collecting cover 84 is positioned outside the bottle cap body 81, and the water collecting cover 84 is connected with the bottle cap body 81 and covers the output hole 811 and the water return hole 812; the output connector 4 is connected with the water collecting cover 84, and the output connector 4 is higher than the output hole 811.

The third silent oxygen humidifying device is further improved on the basis of the second silent oxygen humidifying device. When in use, oxygen flows out through the oxygen pipe 3 and the oxygen holes 831, and low-pressure adsorption effect is also generated; the humidified water flows into the cylindrical pipe 822 through the water suction pipe 5, and the humidified water is atomized by the impact of oxygen; the atomization principle is the same as that of the existing oxygen atomization device. Then the oxygen, the water mist and the small water drops which are not atomized enter the water collecting cover 84, and the small water drops which are not atomized are collected and flow back to the humidifying bottle 2 from the water return hole 812; oxygen and water mist are output from the output connector 4 for inhalation by the patient. In the process, oxygen and water are mixed to realize humidification of oxygen, and simultaneously, oxygen also drives water mist to be output from the output connector 4, so that oxygen is very humid, and the dryness of the airway of a patient can be effectively avoided. The noise is obviously reduced because no bubble is generated in the oxygen humidifying process.

The oxygen humidifying device of the third technical scheme can also be adjusted to select whether oxygen needs to be humidified, so that the oxygen humidifying device is suitable for oxygen inhalation and oxygen atomization. Specifically, the adjusting rod 83 is pulled backwards, so that the front end of the adjusting rod 83 is positioned behind the water suction pipe 5, and the oxygen can be humidified by absorbing water to adapt to the oxygen absorbing condition; the adjusting rod 83 is pushed forward, so that the front end of the adjusting rod 83 is positioned in front of the water suction pipe 5, the adjusting rod 83 seals the water suction pipe 5, and water cannot be sucked so as not to be humidified, thereby adapting to the oxygen atomization condition. The adjustment mode does not need to disassemble the humidification bottle 2, and is very simple and practical.

In order to further reduce noise, the humidifying bottle cap 8 preferably comprises a silencing pipe 85, the silencing pipe 85 is arranged in the water collecting cover 84, the silencing pipe 85 corresponds to the output hole 811 in position, two ends of the silencing pipe 85 are respectively connected with the humidifying bottle cap 8 and the water collecting cover 84, and the silencing pipe 85 is provided with a plurality of silencing holes 851.

The water accumulation cover 84 and the silencing pipe 85 jointly form a silencer, the structure and the principle of the silencer are basically the same as those of the existing engine silencer, and noise can be further reduced. In addition to reducing noise, the muffler pipe 85 can block water droplets from entering the outlet joint 4.

Also in order to conveniently add water into the humidification bottle 2, the third silent oxygen humidification device preferably comprises a water adding port cover 7, a water adding port 6 is arranged on a humidification bottle cover 8, and the water adding port cover 7 covers the water adding port 6.

Claims

1. The silent oxygen humidifying device comprises an oxygen inhalator (1) and a humidifying bottle (2), wherein an output joint (4) and an oxygen tube (3) are arranged on the oxygen inhalator (1), and the humidifying bottle (2) is sleeved on the oxygen tube (3) and is detachably connected with the oxygen inhalator (1); the method is characterized in that: comprises a suction pipe (5); the front part of the oxygen tube (3) is horizontal or upwarps, and the water suction tube (5) is vertically arranged below the oxygen tube (3) and is connected with the oxygen tube (3).

2. The silent oxygen humidification device as claimed in claim 1, wherein: the water suction pipe (5) is internally provided with a plurality of water suction pores (51).

3. The silent oxygen humidification device of claim 2, wherein: comprises a water filling port cover (7), a water filling port (6) is arranged on the humidification bottle (2), and the water filling port cover (7) covers the water filling port (6).

4. A silent oxygen humidifying device comprises an oxygen inhaler (1), a humidifying bottle cap (8) and a humidifying bottle (2), wherein an output connector (4) and an oxygen tube (3) are arranged on the humidifying bottle cap (8), the humidifying bottle cap (8) is detachably connected with the oxygen inhaler (1), the oxygen tube (3) is communicated with the oxygen inhaler (1), and the humidifying bottle (2) is sleeved outside the oxygen tube (3) and detachably connected with the humidifying bottle cap (8); the method is characterized in that: comprises a suction pipe (5); the front part of the oxygen tube (3) is horizontal or upwarps, and the water suction tube (5) is vertically arranged below the oxygen tube (3) and is connected with the oxygen tube (3).

5. The humidified oxygen device of claim 4, wherein: the water suction pipe (5) is internally provided with a plurality of water suction pores (51).

6. The silent oxygen humidification device as claimed in claim 5, wherein: comprises a water filling port cover (7), a water filling port (6) is arranged on a humidifying bottle cover (8), and the water filling port cover (7) covers the water filling port (6).

7. A silent oxygen humidifying device comprises an oxygen inhaler (1), a humidifying bottle cap (8) and a humidifying bottle (2), wherein an output connector (4) and an oxygen tube (3) are arranged on the humidifying bottle cap (8), the humidifying bottle cap (8) is detachably connected with the oxygen inhaler (1), the oxygen tube (3) is communicated with the oxygen inhaler (1), and the humidifying bottle (2) is detachably connected with the humidifying bottle cap (8); the method is characterized in that: comprises a suction pipe (5); the humidifying bottle cap (8) comprises a bottle cap main body (81), an atomizing pipe (82), an adjusting rod (83) and a water collecting cover (84); the bottle cap main body (81) is provided with an output hole (811) and a water return hole (812) positioned below the output hole; the atomizing pipe (82) is arranged along the radial direction of the bottle cap main body (81), the atomizing pipe (82) comprises a conical pipe (821) and a cylindrical pipe (822), the large end of the conical pipe (821) is arranged corresponding to the output hole (811) and is connected with the bottle cap main body (81), and the cylindrical pipe (822) is connected with the small end of the conical pipe (821); the water suction pipe (5) is vertically arranged below the cylindrical pipe (822), the water suction pipe (5) is connected with the cylindrical pipe (822), and the connection position of the water suction pipe and the cylindrical pipe is close to the conical pipe (821); the front end of the adjusting rod (83) is inserted into the cylindrical pipe (822) and matched with the cylindrical pipe (822), the rear end of the adjusting rod (83) extends out of the bottle cap main body (81) and is sealed with the bottle cap main body (81), and the adjusting rod (83) is provided with an oxygen hole (831) which extends backwards from the front end of the adjusting rod (83); the adjusting rod (83) can move axially, so that the front end surface of the adjusting rod can move to the front or the back of the water suction pipe (5); the oxygen pipe (3) is a hose, and the oxygen pipe (3) is connected with the adjusting rod (83) and communicated with the oxygen hole (831); the water collecting cover (84) is positioned outside the bottle cap main body (81), and the water collecting cover (84) is connected with the bottle cap main body (81) and covers the output hole (811) and the water return hole (812); the output connector (4) is connected with the water collecting cover (84), and the output connector (4) is higher than the output hole (811).

8. The silent oxygen humidification device of claim 7, wherein: the humidifying bottle cap (8) comprises a silencing pipe (85), the silencing pipe (85) is arranged in the water collecting cover (84), the silencing pipe (85) corresponds to the position of the output hole (811), two ends of the silencing pipe (85) are respectively connected with the humidifying bottle cap (8) and the water collecting cover (84), and a plurality of silencing holes (851) are formed in the silencing pipe (85).

9. The silent oxygen humidification device of claim 8, wherein: comprises a water filling port cover (7), a water filling port (6) is arranged on a humidifying bottle cover (8), and the water filling port cover (7) covers the water filling port (6).