Oxygen inhalation atomizing humidifying bottle

By designing an oxygen nebulizer humidification bottle that includes an oxygen tank, a distribution box, and an exchange tank, the problems of inconvenient disassembly and replacement and difficulty in adjusting the nebulization effect of traditional oxygen nebulizers are solved. It enables convenient replacement of the exchange tank and flexible control of oxygen humidity, meeting diverse usage needs.

CN224404144UActive Publication Date: 2026-06-26HANGZHOU THIRD PEOPLES HOSPITAL (HANGZHOU HUIMIN HOSPITAL HANGZHOU THIRD AFFILIATED HOSPITAL OF ZHEJIANG UNIV OF TRADITIONAL CHINESE MEDICINE)

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU THIRD PEOPLES HOSPITAL (HANGZHOU HUIMIN HOSPITAL HANGZHOU THIRD AFFILIATED HOSPITAL OF ZHEJIANG UNIV OF TRADITIONAL CHINESE MEDICINE)
Filing Date
2025-01-20
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing oxygen nebulizers and humidifiers are not easy to disassemble and replace, and it is difficult to adjust the nebulization and humidification effect, which affects patients' continuous use and their diverse needs.

Method used

An oxygen atomizing humidification bottle was designed, comprising an oxygen tank, a distribution box, an exchange tank, and a control switch knob. The exchange tank can be replaced without stopping the oxygen supply through the inlet and outlet pipes. Combined with the control switch knob to adjust the gas flow rate, flexible control of humidity and atomization effect can be achieved.

Benefits of technology

It enables convenient replacement of the exchange tank without interrupting oxygen delivery, and allows for adjustment of oxygen humidity and atomization effect as needed, meeting various usage requirements and improving the flexibility and convenience of use.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an oxygen inhalation atomization humidification bottle, concretely relates to the technical field of humidification bottle, including oxygen tank, shunt box and exchange jar, the top center of oxygen tank is provided with the shunt box, and the both sides of the bottom of oxygen tank are all installed with the connecting cap, and the bottom end outside screw thread connection of connecting cap has the exchange jar, the top center of shunt box is connected with the gas inlet pipe, and the bottom center of shunt box is penetrated with the connecting pipe, and the inside center of connecting pipe and oxygen tank is intercommunication, the inside of connecting cap is penetrated with the delivery pipe to the side close to shunt box, and the inside of connecting cap is penetrated with the exhaust pipe to the side away from delivery pipe, the bottom side of exchange jar is installed with the liquid inlet pipe, and the inside bottom end of exchange jar is installed with the liquid outlet pipe to the side away from liquid inlet pipe, the utility model has the advantages of convenient replacement liquid and exchange jar, and the oxygen humidity is adjusted conveniently.
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Description

Technical Field

[0001] This utility model relates to the field of humidification bottle technology, specifically to an oxygen-absorbing atomizing humidification bottle. Background Technology

[0002] Oxygen therapy is widely used in hospitals and homes as a treatment method. It is an essential treatment for various diseases that cause hypoxia, such as acute and chronic respiratory diseases, heart failure, rescuing critically ill patients, and carbon monoxide poisoning. When administering oxygen, in order to ensure that the oxygen entering the patient's lungs is humidified, the oxygen from the cylinder needs to be humidified by a humidification bottle before entering the patient's respiratory tract through the oxygen inhalation tube.

[0003] However, in actual use, traditional oxygen nebulizers and humidifiers only have a single container bottle. This means that oxygen is continuously injected into the liquid during use, allowing for nebulization and humidification. When the liquid needs to be changed or maintenance is required, the device must be paused, affecting the patient's continuous use. At the same time, traditional nebulizers and humidifiers lack adjustable features, making it difficult to control and adjust the nebulization and humidification effect. For example, when using the humidification bottle, oxygen cannot be inhaled directly and must be nebulized and humidified. Therefore, they cannot meet diverse usage needs in actual use. Utility Model Content

[0004] The purpose of this invention is to provide an oxygen atomizing humidification bottle that solves the problems of existing oxygen humidifiers being inconvenient to disassemble and replace, and difficult to adjust and control the atomization and humidification effect.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an oxygen atomizing humidification bottle, comprising an oxygen tank, a distribution box, and an exchange tank, wherein a distribution box is provided at the top center of the oxygen tank, and connecting caps are installed on both sides of the bottom of the oxygen tank, with the bottom end of the connecting cap externally threaded to the exchange tank.

[0006] An air inlet pipe is connected to the center of the top of the distribution box, and a connecting pipe is connected to the center of the bottom of the distribution box. The connecting pipe is connected to the center of the interior of the oxygen tank.

[0007] A conveying pipe is installed through the inside of the connecting cap on the side near the diversion box, and a discharge pipe is installed through the inside of the connecting cap on the side away from the conveying pipe.

[0008] An inlet pipe is installed on one side of the bottom of the exchange tank, and a drain pipe is installed on the bottom side of the exchange tank away from the inlet pipe.

[0009] Preferably, the top of the delivery pipe extends through the interior of the oxygen tank and communicates with the interior of the distribution box, the bottom of the delivery pipe communicates with the bottom of the exchange tank, the top of the discharge pipe communicates with the interior of the oxygen tank, the bottom of the discharge pipe communicates with the top of the exchange tank, and an atomizing nozzle is provided at the bottom of the delivery pipe.

[0010] Preferably, the interior center of the oxygen tank is connected to the interior of the distribution box via a connecting pipe, and a control switch knob is provided on the top side of both the connecting pipe and the delivery pipe.

[0011] Preferably, an exhaust pipe is installed through the center of one end of the oxygen tank, and the end of the exhaust pipe away from the oxygen tank is connected to the respirator via a conduit, while the end of the air inlet pipe away from the distribution box is connected to the gas cylinder.

[0012] Preferably, the top of the inlet pipe is located near the top of the inside of the exchange tank, the top of the outlet pipe is located near the bottom of the inside of the exchange tank, and a one-way inlet valve is installed at the bottom of the inlet pipe and a one-way outlet valve is installed at the bottom of the outlet pipe.

[0013] Preferably, a display screen is installed on one side of the oxygen tank, and detection modules are installed inside both the inlet pipe and the outlet pipe, and the detection modules include a temperature and humidity sensor and a gas flow sensor.

[0014] The technical effects and advantages provided by this utility model in the above technical solution are as follows:

[0015] 1. Liquid is introduced through the inlet pipe and discharged through the drain pipe at the bottom. Since the top outlet of the inlet pipe is close to the top of the exchange tank, the liquid at the bottom can be discharged first, thus allowing the replacement of the liquid inside the exchange tank without stopping the oxygen supply in the delivery pipe. At the same time, the delivery pipe inside another exchange tank can be opened for oxygen exchange. Then, the delivery pipe inside the exchange tank that needs to be replaced is closed, and oxygen exchange can continue to be carried out. It is also very convenient to disassemble the exchange tank that needs to be replaced or repaired.

[0016] 2. Rotate the control switch knob to control the connecting pipe and delivery pipe respectively. By adjusting the control switch knob inside the connecting pipe and delivery pipe to different opening degrees, the gas flow rate inside the connecting pipe and delivery pipe can be controlled. This allows adjustment of the amount of humidified oxygen and untreated oxygen inside the oxygen tank, thereby achieving humidity adjustment of the gas inside the oxygen tank to meet different user needs. At the same time, the connecting pipe and delivery pipe can be directly opened and closed by controlling the control switch knob, so that oxygen can be delivered directly to the oxygen tank without treatment. This allows for convenient delivery of oxygen directly to the patient through the exhaust pipe, thus meeting various different usage needs. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.

[0018] Figure 1 This is a schematic diagram of the present invention;

[0019] Figure 2 This is a front view of the present invention;

[0020] Figure 3 This is a side view of the present invention;

[0021] Figure 4 This is a cross-sectional view of the internal structure of the oxygen tank of this utility model;

[0022] Figure 5 This is a schematic diagram of the internal structure of the exchange tank of this utility model.

[0023] Explanation of reference numerals in the attached figures:

[0024] 1. Oxygen tank; 101. Exhaust pipe; 102. Display screen; 2. Diverter box; 201. Inlet pipe; 202. Connecting pipe; 203. Control switch knob; 3. Exchange tank; 301. Liquid inlet pipe; 302. Liquid outlet pipe; 4. Connecting cap; 401. Delivery pipe; 402. Discharge pipe. Detailed Implementation

[0025] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.

[0026] This utility model provides, for example Figure 1-5 The oxygen atomizing humidifier bottle shown includes an oxygen tank 1, a distribution box 2, and an exchange tank 3. The distribution box 2 is located at the top center of the oxygen tank 1, and connecting caps 4 are installed on both sides of the bottom of the oxygen tank 1. The bottom end of the connecting cap 4 is externally threaded to the exchange tank 3. An air inlet pipe 201 is connected to the top center of the distribution box 2, and a connecting pipe 202 is installed through the bottom center of the distribution box 2, which is connected to the center of the interior of the oxygen tank 1. A delivery pipe 401 is installed through the interior of the connecting cap 4 on the side near the distribution box 2, and a discharge pipe 402 is installed through the interior of the connecting cap 4 on the side away from the delivery pipe 401. An inlet pipe 301 is installed on one side of the bottom of the exchange tank 3, and a drain pipe 302 is installed on the bottom end of the interior of the exchange tank 3 on the side away from the inlet pipe 301.

[0027] like Figure 4 , Figure 5 As shown, the top of the delivery pipe 401 penetrates the interior of the oxygen tank 1 and connects with the interior of the distribution box 2. The bottom of the delivery pipe 401 connects with the bottom of the exchange tank 3. The top of the discharge pipe 402 connects with the interior of the oxygen tank 1, and the bottom of the discharge pipe 402 connects with the top of the exchange tank 3. An atomizing nozzle is provided at the bottom of the delivery pipe 401. The center of the interior of the oxygen tank 1 is connected to the interior of the distribution box 2 via a connecting pipe 202. A control switch knob 203 is provided on one side of the top of both the connecting pipe 202 and the delivery pipe 401. Rotating the control switch knob 203 can control the connecting pipe 202 and the delivery pipe 401 respectively, thereby adjusting the control switch knob 203 inside the connecting pipe 202 and the delivery pipe 401 to different opening degrees. This allows control of the gas flow rate inside the connecting pipe 202 and the delivery pipe 401, thereby adjusting the amount of atomized and humidified oxygen and the amount of untreated oxygen inside the oxygen tank 1, thus achieving humidity adjustment of the gas inside the oxygen tank 1 and meeting the needs of different users.

[0028] like Figure 1 , Figure 2 As shown, an exhaust pipe 101 is installed through the center of one end of the oxygen tank 1. The end of the exhaust pipe 101 away from the oxygen tank 1 is connected to the respirator via a conduit. The end of the inlet pipe 201 away from the distribution box 2 is connected to the gas cylinder. A display screen 102 is installed on one side of the oxygen tank 1. Detection modules are installed inside one side of both the inlet pipe 201 and the exhaust pipe 101. The detection modules include a temperature and humidity sensor and a gas flow sensor, which can easily connect the inlet pipe 201 to the corresponding gas cylinder, and then connect it to the exhaust pipe 101 via a conduit, so that the gas can be delivered to the distribution box 2 through the inlet pipe 201.

[0029] like Figure 1 , Figure 5 As shown, the top of the inlet pipe 301 is close to the top of the inside of the exchange tank 3, and the top of the outlet pipe 302 is close to the bottom of the inside of the exchange tank 3. A one-way inlet valve is installed at the bottom of the inlet pipe 301, and a one-way outlet valve is installed at the bottom of the outlet pipe 302. When it is necessary to replace the liquid inside the exchange tank 3, the liquid can be conveniently input through the inlet pipe 301 and discharged through the outlet pipe 302 at the bottom. Since the top outlet of the inlet pipe 301 is close to the top of the exchange tank 3, the liquid at the bottom can be conveniently discharged first, thus realizing the replacement of the liquid inside the exchange tank 3 without stopping the oxygen supply of the delivery pipe 401.

[0030] In use, the inlet pipe 201 can be easily connected to the corresponding gas cylinder, and then the conduit can be connected to the exhaust pipe 101. This allows gas to be delivered to the distribution box 2 through the inlet pipe 201. Turning the control switch knob 203 of the corresponding delivery pipe 401 delivers the gas to the exchange tank 3 through the delivery pipe 401. The gas is then sprayed out through the atomizing nozzle at the bottom of the delivery pipe 401, allowing it to interact with the solution inside the exchange tank 3, effectively increasing the water content of the gas. Simultaneously, the gas is discharged into the oxygen tank 1 through the top exhaust pipe 402, and finally delivered to the conduit through the exhaust pipe 101, completing the oxygen treatment. When the liquid inside the exchange tank 3 needs to be replaced, the liquid can be conveniently input through the inlet pipe 301 and discharged through the drain pipe 302 at the bottom. Since the top outlet of the inlet pipe 301 is close to the top of the exchange tank 3, the liquid at the bottom can be discharged first, thus realizing the replacement of the liquid inside the exchange tank 3 without stopping the oxygen supply of the delivery pipe 401. The delivery pipe 401 inside another exchange tank 3 can also be opened at the same time for oxygen exchange. Then the delivery pipe 401 inside the exchange tank 3 that needs to be replaced is closed, and the exchange tank 3 that needs to be replaced or repaired is removed, so that oxygen exchange operation can continue, which is very convenient.

[0031] During use, the control switch knob 203 can be rotated to control the connecting pipe 202 and the delivery pipe 401 respectively, thereby adjusting the control switch knob 203 inside the connecting pipe 202 and the delivery pipe 401 to different opening degrees. This controls the gas flow rate inside the connecting pipe 202 and the delivery pipe 401, thereby adjusting the amount of humidified oxygen and untreated oxygen inside the oxygen tank 1, thus achieving humidity adjustment of the gas inside the oxygen tank 1 to meet the needs of different users. At the same time, the connecting pipe 202 can be opened and the delivery pipe 401 can be closed directly by controlling the control switch knob 203, so that oxygen can be delivered directly to the oxygen tank 1 without treatment, and then conveniently delivered to the patient's position directly through the exhaust pipe 101, thus meeting a variety of different usage needs according to the adjustment.

[0032] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.

Claims

1. An oxygen atomizing humidifier bottle, comprising an oxygen tank (1), a distribution box (2), and an exchange tank (3), characterized in that: A diversion box (2) is provided at the top center of the oxygen tank (1), and connecting caps (4) are installed on both sides of the bottom of the oxygen tank (1). The bottom end of the connecting cap (4) is externally threaded to an exchange tank (3). An air inlet pipe (201) is connected to the top center of the diversion box (2), and a connecting pipe (202) is connected through the bottom center of the diversion box (2). The connecting pipe (202) is connected to the center of the interior of the oxygen tank (1). A conveying pipe (401) is installed through the inside of the connecting cap (4) on the side close to the diversion box (2), and a discharge pipe (402) is installed through the inside of the connecting cap (4) on the side away from the conveying pipe (401). An inlet pipe (301) is installed on one side of the bottom of the exchange tank (3), and a drain pipe (302) is installed on the side of the bottom inside the exchange tank (3) away from the inlet pipe (301).

2. The oxygen atomizing humidifying bottle according to claim 1, characterized in that: The top of the delivery pipe (401) penetrates the interior of the oxygen tank (1) and is connected to the interior of the diversion box (2). The bottom of the delivery pipe (401) is connected to the bottom of the exchange tank (3). The top of the discharge pipe (402) is connected to the interior of the oxygen tank (1). The bottom of the discharge pipe (402) is connected to the top of the exchange tank (3). An atomizing nozzle is provided at the bottom of the delivery pipe (401).

3. The oxygen atomizing humidifying bottle according to claim 1, characterized in that: The oxygen tank (1) is connected to the interior of the distribution box (2) through a connecting pipe (202) at its internal center. Both the connecting pipe (202) and the delivery pipe (401) are equipped with control switch knobs (203) on one side of their tops.

4. The oxygen atomizing humidifying bottle according to claim 1, characterized in that: An exhaust pipe (101) is installed through the center of one end of the oxygen tank (1). The end of the exhaust pipe (101) away from the oxygen tank (1) is connected to the respirator through a conduit. The end of the air inlet pipe (201) away from the diversion box (2) is connected to the gas cylinder.

5. The oxygen atomizing humidifying bottle according to claim 1, characterized in that: The top of the inlet pipe (301) is close to the top of the inside of the exchange tank (3), and the top of the outlet pipe (302) is close to the bottom of the inside of the exchange tank (3). A one-way inlet valve is installed at the bottom of the inlet pipe (301), and a one-way outlet valve is installed at the bottom of the outlet pipe (302).

6. The oxygen atomizing humidifying bottle according to claim 4, characterized in that: The oxygen tank (1) is equipped with a display screen (102) on one side, and detection modules are installed inside the air inlet pipe (201) and the exhaust pipe (101) on one side. The detection modules include a temperature and humidity sensor and a gas flow sensor.