CN218923472U

CN218923472U - Portable anion atomizing oxygen inhalation device

Info

Publication number: CN218923472U
Application number: CN202120875933.0U
Authority: CN
Inventors: 黄庆晖; 卢文菊; 郭华
Original assignee: Guangzhou Ruineng Precision Medical Technology Co ltd; First Affiliated Hospital of Guangzhou Medical University
Current assignee: Guangzhou Ruineng Precision Medical Technology Co ltd; First Affiliated Hospital of Guangzhou Medical University
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2023-04-28
Anticipated expiration: 2031-04-26

Abstract

The utility model discloses a portable anion atomization oxygen inhalation device, which comprises a host and a mask, wherein the host is connected with the mask through an air duct, the host comprises an oxygen generation device, an anion generation device, a mixing device and a constant temperature humidifying device, an air suction pipe is arranged on the oxygen generation device, the air suction pipe penetrates through the side wall of the host and extends out of the host, an output port of the oxygen generation device is connected to the mixing device through an oxygen delivery pipe, a second valve is arranged on the oxygen delivery pipe, and the constant temperature humidifying device is arranged on the oxygen delivery pipe between the second valve and the mixing device; the negative ion generating device is connected with the mixing device through a connecting pipeline and a first valve; the air outlet pipe is arranged on the mixing device, extends out of the main machine and is connected with the air duct. The oxygen inhalation device has a simple structure, is convenient to carry, can humidify the oxygen inhaled by a patient at a constant temperature, and avoids the damage to the respiratory tract caused by the dry or cold oxygen inhaled by the patient.

Description

Portable anion atomizing oxygen inhalation device

Technical Field

The utility model relates to the technical field of oxygen inhalation devices, in particular to a portable anion atomization oxygen inhalation device.

Background

The portable oxygen inhaler is a common household medical care device, is mainly suitable for patients with dyspnea and oxygen inhalation treatment, and has certain defects and shortages in actual life. The portable oxygen inhaler consists of a PSA physical oxygen generator, an oxygen inhalation mask and an oxygen tube connected between the PSA physical oxygen generator and the oxygen mask. Clinically, the patient has complex illness state, especially patients suffering from respiratory diseases, such as chronic obstructive pulmonary disease, pulmonary arterial hypertension and the like, compared with the negative ion oxygen inhalation therapy, the traditional oxygen inhalation therapy often cannot obviously improve the illness state of the patient, the patient still has low oxygen saturation, and the patient is fast after the movement, and is often feel weak, difficult to fall asleep, anorexia and even cold, which are extremely unfavorable for the control of the illness state of the patient; meanwhile, the oxygen inhaled during oxygen therapy needs to keep proper concentration and flow rate, and proper temperature and humidity, and the temperature of the oxygen inhaled generally needs to be kept at about 36 ℃ and the humidity is about 80%, but the current portable oxygen inhalation device commonly used on the market has no constant temperature and humidification functions, is easy to cause the drying of the respiratory tract of a patient, leads to sticky sputum and is not easy to be discharged, and increases the infection risk; particularly in cold environments, if the patient inhales oxygen at too low a temperature, serious damage to the patient's respiratory tract may occur.

In addition, patients suffering from respiratory diseases often need to be subjected to atomization treatment, but the conventional portable oxygen inhalation machine cannot meet the requirements of oxygen inhalation and atomization inhalation treatment at the same time, so that the patients may suffer from dyspnea, blood oxygen saturation reduction and the like in the atomization treatment process, and the life and health of the patients are seriously threatened.

Disclosure of Invention

The utility model aims to provide a portable anion atomization oxygen inhalation device which can humidify oxygen inhaled by a patient at a constant temperature and avoid the damage to the respiratory tract caused by the inhalation of dry or cold oxygen by the patient.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a portable anion atomizing oxygen inhalation device, includes host computer and face guard, be connected through the air duct between host computer and the face guard, its characterized in that: the host comprises an oxygen generating device, a negative ion generating device mixing device and a constant temperature humidifying device for regulating the temperature and humidity of oxygen output by the oxygen generating device, wherein the mixing device is arranged on the front side of the interior of the host, the oxygen generating device is arranged on the rear side of the interior of the host, an air suction pipe for sucking external air is arranged on the oxygen generating device, the air suction pipe penetrates through the side wall of the host and extends out of the host, an output port of the oxygen generating device is connected to the mixing device through an oxygen delivery pipe, a second valve is arranged on the oxygen delivery pipe, and the constant temperature humidifying device is arranged on the oxygen delivery pipe between the second valve and the mixing device; the negative ion generating device is arranged in a space region in the host between the mixing device in the host and the oxygen generating device, and an output port of the negative ion generating device is connected with the mixing device through a connecting pipeline and a first valve; the air outlet pipe is arranged on the mixing device, extends out of the main machine and is connected with the air guide pipe.

As an improvement of the utility model, the host also comprises an atomization device, and an output port of the atomization device is connected with the mixing device through a connecting pipeline and a third valve.

Further, a detection device is arranged above the inside of the host, three groups of external sensors are arranged on the detection device and respectively detect the negative ion concentration of the negative ion generating device, the oxygen concentration of the oxygen generating device and the temperature and humidity of the constant-temperature humidifying device, the output signal of the detection device is electrically connected to a display used for displaying various detection data, and the display is embedded and fixed on a top plate of the host.

Preferably, the host is further provided with an alarm device and an emergency button, the alarm device is installed in the host, the emergency button is fixedly installed on a top plate of the host, and the alarm device is electrically connected with the emergency button through a circuit.

Preferably, a moving wheel for facilitating movement of the host is mounted at the bottom of the host.

Compared with the prior art, the utility model has the following beneficial effects:

(1) According to the portable anion atomization oxygen inhalation device, the constant temperature humidifying device is arranged between the second valve and the mixing device on the oxygen delivery catheter, so that oxygen inhaled by a patient is at proper temperature and humidity, the risk that mucus secretion of a respiratory tract is reduced due to dry oxygen inhaled by the patient, so that a mucus protection barrier is damaged to cause infection is avoided, the inhaled oxygen is kept at a temperature close to that of a human body, and the risk of injury to the respiratory tract of the human body due to temperature difference between the inhaled oxygen and the human body is reduced; the utility model also connects the oxygen generating device and the anion generating device with the mixing device through the corresponding valves and the related pipelines, when in use, the oxygen and anions can enter the mixing device together by adjusting the first valve and the second valve, after fully and uniformly mixing, the oxygen containing anions with specific concentration is output and enters the body of a patient, thus obviously improving the blood oxygen saturation, improving the life quality, and reducing the phenomena of insomnia, anorexia, cold and the like.

(2) As an improvement of the utility model, an atomization device is also arranged in the host, when atomization treatment is needed, the third valve is adjusted to be communicated with the atomization device to release medicine, and the first valve and the second valve are adjusted to be communicated with the oxygen generating device and the negative ion generating device at the same time of atomization treatment, so that the simultaneous performance of negative ion oxygen treatment and atomization treatment is realized, the situations that patients possibly have dyspnea, blood oxygen saturation reduction and the like in the atomization treatment process are avoided, and the life safety of the patients is effectively ensured.

(3) The detection device is respectively connected to the oxygen generating device, the negative ion generating device and the constant temperature humidifying device through the concentration detection sensor and the temperature and humidity detection sensor, and the signal output port of the detection device is connected with the display, so that the data such as the oxygen concentration in the oxygen generating device, the negative ion concentration output by the negative ion generating device, the temperature and humidity of the constant temperature humidifying device and the like can be monitored in real time, and the related data are displayed through the display, so that a patient can conveniently and timely adjust each device according to the actual conditions of individuals.

(4) The main machine is provided with the alarm device and the emergency button, so that the one-key calling help-seeking function under the emergency condition is realized, the patient can acquire the help of surrounding neighbors and passers-by as much as possible at the first time of the emergency condition, and accidents caused by untimely rescue are reduced.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a device according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of the principle of the composition structure of the constant temperature humidifying device.

In the figure: 1-host computer, 2-face guard, 3-air duct, 4-oxygen generating device, 5-anion generating device, 6-atomizing device, 7-mixing device, 8-second valve, 9-oxygen catheter, 10-outlet duct, 11-breathing pipe, 12-first valve, 13-third valve, 14-constant temperature humidification device, 141-humidifier, 142-heater, 143-water level sensor, 15-detection device, 16-display, 17-oxygen saturation detection device, 18-alarm device, 19-emergency button, 20-removal wheel.

Detailed Description

The following detailed description of the present utility model is presented in conjunction with the drawings and examples to enable one of ordinary skill in the art to better understand and practice the present utility model.

The utility model provides a portable anion atomization oxygen inhalation device shown in figure 1, which comprises a host machine 1 and a mask 2, wherein the host machine 1 is connected with the mask 2 through an air duct 3, the host machine 1 comprises an oxygen generating device 4, an anion generating device 5 and a mixing device 7, and the oxygen generating device 4, the anion generating device 5 and the mixing device 7 can be manufactured by the prior art with the functions. The mixing device 7 is arranged at the front side of the inside of the host 1, the oxygen generating device 4 is arranged at the rear side of the inside of the host 1, the oxygen generating device 4 is provided with an air suction pipe 11 for absorbing external air, the air suction pipe 11 penetrates through the rear side wall of the host 1 and extends out of the host 1, an output port of the oxygen generating device 4 is connected to the mixing device 7 through an oxygen delivery pipe 9, and a second valve 8 is arranged on the oxygen delivery pipe 9;

in order to keep the oxygen inhaled by the patient at a temperature relatively close to the human body and a proper humidity, the constant temperature humidifying device 14 is mounted on the oxygen delivery conduit 9 between the second valve 8 and the mixing device 7, and the constant temperature humidifying device can be made by the prior art with the functions, as shown in fig. 2, the constant temperature humidifying device 14 comprises a humidifier 141 and a heater 142, the humidifier 141 is internally provided with a liquid for humidifying and heating the oxygen, and the heater 142 is placed in the liquid in the humidifier and can heat the liquid. One section of oxygen delivery conduit 9 through the second valve 8 is inserted into the liquid in the humidifier, the other section of oxygen delivery conduit 9 is inserted above the liquid level in the humidifier and connected to the mixing device 7, and the water level of the liquid in the humidifier can be monitored through a water level sensor 143 arranged in the humidifier; the constant temperature humidifying device 14 can control the temperature of the oxygen output from the oxygen generating device 4 to 36+/-1 ℃ and humidify the oxygen to 80+/-5% of humidity and then input the oxygen into the mixing device 7, so that the risk that the mucus secretion of the respiratory tract is reduced due to the dry oxygen inhalation of a patient, thereby damaging the mucus protection barrier and causing infection is avoided, and the inhaled oxygen is kept at a temperature close to that of a human body, thereby reducing the risk of injury to the respiratory tract of the human body due to the temperature difference between the inhaled oxygen and the human body.

The negative ion generating device 5 is arranged in the internal space region of the host between the mixing device 7 and the oxygen generating device 4, and the output port of the negative ion generating device 5 is connected with the mixing device 7 through a connecting pipeline and a first valve 12; an air outlet pipe 10 is arranged on one side of the mixing device 7 opposite to the front side wall of the main machine 1, and the air outlet pipe 10 penetrates through the front side wall of the main machine 1, extends out of the main machine 1 and is connected with the air duct 3.

As an improvement of the utility model, an atomization device 6 is also arranged in the main machine, the atomization device 6 can be made of the prior art with the functions, the output port of the atomization device 6 is connected with the mixing device 7 through a connecting pipeline and a third valve 13, when atomization treatment is needed, the third valve 13 is regulated to be communicated with the atomization device 6 to release medicines, and the first valve 12 and the second valve 8 are regulated to be communicated with the oxygen generating device 4 and the negative ion generating device 5 during atomization treatment, thereby realizing simultaneous performance of negative ion oxygen treatment and atomization treatment, avoiding the situations of dyspnea, blood oxygen saturation reduction and the like of patients in the atomization treatment process and effectively guaranteeing the life safety of the patients.

The utility model installs the detecting device 15 above the inside of the host 1, the detecting device 15 is provided with the concentration detecting sensor, the temperature and humidity detecting sensor and the water level sensor 143, the concentration detecting sensor is respectively installed and connected on the anion generating device 5 and the oxygen generating device 4, the temperature and humidity detecting sensor is installed and connected in the mask 2, the water level sensor 143 is connected in the upper humidifier of the constant temperature humidifying device 14. The concentration detection sensor is used for detecting the negative ion concentration of the negative ion generating device 5 and the oxygen concentration of the oxygen generating device 4; the temperature and humidity detection sensor is used for detecting the temperature and humidity of oxygen after passing through the constant temperature humidifying device 14, and the water level sensor 143 is used for detecting the liquid level inside the humidifier 141; the signal output port of the detection device 15 is connected with the display 16, so that the oxygen concentration in the oxygen generating device 4, the negative ion concentration of the negative ion generating device 5, the constant temperature and humidity of the oxygen output by the constant temperature humidifying device 14, the water level of the humidifier liquid and other data can be monitored in real time, and the related data are displayed through the display 16, so that a patient can conveniently adjust each device in time according to the actual personal situation; the detecting device 15 can control the operation of the heater in the constant temperature humidifying device 14 according to the detection signal of the temperature and humidity detecting sensor, so that the constant temperature humidifying device 14 can achieve 36+/-1 ℃ for the temperature of the oxygen output from the oxygen generating device 4 and humidify the oxygen to 80+/-5%. The concentration detection sensor, the temperature and humidity detection sensor and the water level sensor 143 can be sensor products with the conventional function, and a detection circuit chip in the detection device can be a common chip circuit and a display circuit for processing the parameters.

In this embodiment, a common oxygen saturation detecting device 17 may be further electrically connected to the detecting device 15, where the oxygen saturation detecting device 17 is disposed outside the host, and the oxygen saturation detecting device 17 may monitor data such as blood oxygen saturation, blood pressure, heart rate, and respiration of the patient when the patient uses the oxygen inhaler to inhale oxygen, and feedback relevant data information to the patient via the display 16, so that the patient can know his own situation at any time, and adjust the output of oxygen according to his own situation, so as to ensure that his own oxygen saturation is maintained at a normal level.

In this embodiment, the host 1 is further provided with the alarm device 18 and the emergency button 19, the alarm device 18 is installed in the host 1, the emergency button 19 is fixedly installed on the top plate of the host 1, the alarm device 18 is electrically connected with the emergency button 19 through a circuit, when an emergency occurs during oxygen inhalation treatment, a patient can trigger the alarm device 18 by pressing the emergency button 19 to get attention of surrounding neighbors and passers-by as much as possible, so that the help of others can be obtained in the first time of the emergency, and accidents caused by untimely rescue are reduced.

The utility model is also provided with a moving wheel 20 at the bottom of the host 1, which is convenient for a user to push the host 1 to move.

The utility model mainly comprises the following using modes:

1) When the mask 2 is attached to the face and only oxygen is needed to be infused, the oxygen generating device 4, the constant temperature humidifying device 14, the mixing device 7, the detecting device 15 and the display 16 are opened, other devices are closed, the concentration and the flow rate of the output oxygen are controlled by adjusting the second valve 8 through various parameters displayed by the display 16, and the constant temperature humidifying device 14 is adjusted to achieve proper temperature and humidity required by oxygen inhalation;

2) When the negative ion oxygen inhalation is needed, the oxygen generating device 4, the negative ion generating device 5, the constant temperature humidifying device 14, the mixing device 7, the detecting device 15 and the display 16 are opened, other devices are closed, the concentration and the flow rate of the output oxygen are adjusted by adjusting the second valve 8 through various parameters displayed by the display 16, the constant temperature humidifying device 14 is adjusted to keep the inhaled oxygen at a proper temperature and humidity, and then the first valve 12 is adjusted to adjust the concentration of the negative ions output by the negative ion generating device 5;

3) When the atomization treatment is needed, the atomization device 6 and the mixing device 7 are opened, other devices are closed, and the flow rate of atomization is controlled by adjusting the third valve 13;

4) When oxygen inhalation and atomization treatment are needed, all devices are opened, and the output quantity of oxygen, atomization and negative ions is controlled by adjusting the first valve 12, the second valve 8 and the third valve 13 through various parameters displayed by the display 16;

when an emergency situation occurs during oxygen inhalation therapy, the emergency button 19 is pressed, triggering the alarm device 18 to obtain assistance from other people around at the first time.

The above embodiments are only preferred embodiments of the present utility model, but not limiting, and any modifications and improvements based on the concept of the present utility model should fall within the scope of the present utility model, and the specific scope of the present utility model is defined by the claims.

Claims

1. The utility model provides a portable anion atomizing oxygen inhalation device, includes host computer (1) and face guard (2), be connected through air duct (3), its characterized in that between host computer (1) and face guard (2): the host machine (1) comprises an oxygen generating device (4), a negative ion generating device (5), a mixing device (7) and a constant temperature humidifying device (14) for adjusting the temperature and humidity of oxygen output by the oxygen generating device, wherein the mixing device (7) is arranged on the front side of the interior of the host machine (1), the oxygen generating device (4) is arranged on the rear side of the interior of the host machine (1), an air suction pipe (11) for sucking external air is arranged on the oxygen generating device (4), the air suction pipe (11) extends out of the host machine (1) through the side wall of the host machine (1), an output port of the oxygen generating device (4) is connected to the mixing device (7) through an oxygen transmission pipe (9), a second valve (8) is arranged on the oxygen transmission pipe (9), and the constant temperature humidifying device (14) is arranged on the oxygen transmission pipe (9) between the second valve (8) and the mixing device (7); the negative ion generating device (5) is arranged in the internal space region of the host between the mixing device (7) and the oxygen generating device (4), and an output port of the negative ion generating device (5) is connected with the mixing device (7) through a connecting pipeline and a first valve (12); an air outlet pipe (10) is arranged on the mixing device (7), and the air outlet pipe (10) extends out of the main machine (1) and is connected with the air duct (3).

2. The portable anion atomizing oxygen inhalation device according to claim 1, wherein: the host machine (1) further comprises an atomization device (6), and an output port of the atomization device (6) is connected with the mixing device (7) through a connecting pipeline and a third valve (13).

3. The portable anion atomizing oxygen inhalation device according to claim 2, wherein: the device is characterized in that a detection device (15) is arranged above the inside of the host machine (1), the detection device (15) is provided with three groups of external sensors for respectively detecting the negative ion concentration of the negative ion generating device (5), the oxygen concentration of the oxygen generating device (4) and the temperature and humidity of the constant-temperature humidifying device (14), an output signal of the detection device (15) is electrically connected to a display (16) for displaying various detection data, and the display (16) is embedded and fixed on the top plate of the host machine (1).

4. The portable anion atomizing oxygen inhalation device according to claim 1, wherein: the main machine (1) is also provided with an alarm device (18) and an emergency button (19), the alarm device (18) is arranged in the main machine (1), the emergency button (19) is fixedly arranged on a top plate of the main machine (1), and the alarm device (18) is electrically connected with the emergency button (19) through a circuit.

5. The portable anion atomizing oxygen inhalation device according to claim 1, wherein: the bottom of the host machine (1) is provided with a moving wheel (20) which is used for enabling the host machine (1) to conveniently move.