CN218923472U - A portable anion atomization oxygen inhalation device - Google Patents

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

A portable anion atomization 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 technique

Portable oxygen inhaler is a common household health care equipment, mainly suitable for patients who have difficulty breathing and need oxygen inhalation therapy. In actual life use, there are some defects and deficiencies. The portable oxygen machine is composed of a PSA physical oxygen generator, an oxygen mask and an oxygen tube connected between the two. Clinically, the patient's condition is complicated, especially for patients with respiratory diseases, such as chronic obstructive pulmonary disease, pulmonary hypertension and other diseases. Compared with negative ion oxygen inhalation therapy, traditional oxygen inhalation therapy often cannot significantly improve the patient's illness, and the patient still Oxygen saturation is not high, shortness of breath after activity, often feeling fatigue, difficulty falling asleep, anorexia, or even a cold, and these are extremely unfavorable to the control of the patient's condition; at the same time, the oxygen inhaled during oxygen therapy must maintain an appropriate concentration In addition to flow rate and flow rate, appropriate temperature and humidity are also required. Generally, the temperature of inhaled oxygen should be kept at about 36°C and the humidity at about 80%. The patient's respiratory tract is dry, resulting in viscous sputum that is difficult to discharge and increases the risk of infection; especially in a cold environment, if the patient inhales oxygen at a temperature that is too low, it will cause serious damage to the patient's respiratory tract.

In addition, patients with respiratory diseases often need nebulization therapy, and conventional portable oxygen machines cannot meet the requirements of oxygen inhalation and nebulization inhalation therapy at the same time, which may cause patients to have dyspnea, blood Oxygen saturation drops and other situations seriously threaten the life and health of patients.

Utility model content

The purpose of the utility model is to provide a portable anion atomization oxygen inhalation device, which can perform constant temperature humidification on the oxygen inhaled by the patient, and avoid damage to the respiratory tract caused by the inhalation of dry or cold oxygen by the patient.

In order to achieve the above object, the utility model adopts the following technical solutions:

A portable anion atomization oxygen inhalation device, comprising a host and a mask, the host and the mask are connected through an air duct, characterized in that: the host includes an oxygen generator, an anion generator mixing device and a device for adjusting oxygen Generating device output oxygen temperature and humidity constant temperature humidifying device, the mixing device is installed on the front side inside the host, the oxygen generating device is installed on the rear side inside the host, and the oxygen generating device is installed There is an inhalation pipe for sucking outside air, the inhalation pipe extends out of the main machine through the side wall of the main machine, the output port of the oxygen generating device is connected to the mixing device through the oxygen delivery conduit, and a second Valve, the constant temperature humidifying device is installed on the oxygen delivery conduit between the second valve and the mixing device; the anion generating device is installed on the host between the mixing device inside the host and the oxygen generating device In the inner space area, the output port of the negative ion generating device is connected with the mixing device through a connecting pipe and a first valve; Airway connection.

As an improvement of the present utility model, the host machine further includes an atomizing device, and the output port of the atomizing device is connected to the mixing device through a connecting pipe and a third valve.

Further, a detection device is installed above the interior of the host, and the detection device is provided with three sets of external sensors to respectively detect the negative ion concentration of the negative ion generator, the oxygen concentration of the oxygen generator, and the temperature and humidity of the constant temperature humidifier. The output signal of the detection device is electrically connected to a display for displaying various detection data, and the display is embedded and fixed on the top board of the host.

Preferably, the host is also equipped with an alarm device and an emergency button, the alarm device is installed inside the host, the emergency button is fixedly installed on the top plate of the host, the alarm device communicates with the The panic button is electrically connected.

Preferably, moving wheels are installed at the bottom of the host to facilitate the movement of the host.

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

(1) The utility model portable anion atomization oxygen inhalation device, by installing a constant temperature humidification device between the second valve and the mixing device on the oxygen delivery conduit, can make the oxygen inhaled by the patient be at a suitable temperature and humidity, avoiding It reduces the secretion of mucus in the respiratory tract due to the inhalation of dry oxygen, which leads to the destruction of the mucus protective barrier and the risk of infection, and keeps the inhaled oxygen at a temperature close to that of the human body, which can reduce the inhaled oxygen and the human body. There is a temperature difference between them and cause the risk of harm to the human respiratory tract; the utility model also connects the oxygen generating device and the negative ion generating device to the mixing device through corresponding valves and related pipelines at the same time. When in use, by adjusting the first and The second valve allows oxygen and negative ions to enter the mixing device together. After being fully mixed, oxygen containing a specific concentration of negative ions is output into the patient's body, which can significantly increase the blood oxygen saturation, improve the quality of life, and reduce insomnia, anorexia, Flu etc.

(2) As an improvement of the present utility model, an atomization device is also installed in the main engine. When atomization treatment is required, the third valve can be connected to the atomization device to release medicine. Adjust the first and second valves to communicate with the oxygen generating device and the negative ion generating device, so as to realize negative ion oxygen therapy and nebulization therapy at the same time, avoiding possible breathing difficulties and decreased blood oxygen saturation of the patient during nebulization therapy, effectively The life safety of patients is guaranteed.

(3) The detection device of the utility model is respectively connected to the oxygen generating device, the anion 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 to the display, so that the oxygen generation can be monitored in real time The oxygen concentration in the device, the negative ion concentration output by the negative ion generating device, the temperature and humidity of the constant temperature humidifying device and other data are displayed on the display, which is convenient for patients to adjust each device in time according to their actual conditions.

(4) The utility model is equipped with an alarm device and an emergency button on the host computer, which realizes the function of calling for help with one key in an emergency, and allows the patient to obtain the information of the surrounding neighbors and passers-by as much as possible in the first time when an emergency occurs. Helping to reduce accidents caused by untimely rescue.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of the device of the embodiment of the present invention.

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

In the figure: 1-host, 2-mask, 3-airway, 4-oxygen generator, 5-negative ion generator, 6-atomization device, 7-mixing device, 8-second valve, 9-oxygen catheter , 10-outlet pipe, 11-suction pipe, 12-first valve, 13-third valve, 14-constant temperature humidification device, 141-humidifier, 142-heater, 143-water level sensor, 15-detection device, 16-monitor, 17-oxygen saturation detection device, 18-alarm device, 19-emergency button, 20-moving wheel.

Detailed ways

The technical solution of the utility model will be described in detail below in conjunction with the accompanying drawings and embodiments, so that those of ordinary skill in the art can better understand and implement the technical solution of the utility model.

The utility model provides a kind of portable negative ion atomization oxygen inhalation device as shown in Figure 1, comprises main frame 1 and mask 2, is connected through air guide tube 3 between main frame 1 and mask 2, and main frame 1 comprises oxygen generating device 4, Negative ion generating device 5, mixing device 7, these oxygen generating devices 4, negative ion generating device 5, mixing device 7 can be selected with the prior art with these functions to make. The mixing device 7 is installed on the front side inside the host 1, and the oxygen generator 4 is installed on the rear side inside the host 1. The oxygen generator 4 is provided with an air suction pipe 11 for absorbing outside air, and the air suction pipe 11 runs through the main machine 1 The rear side wall of the main engine 1 extends out, and the output port of the oxygen generating device 4 is connected to the mixing device 7 through the oxygen delivery conduit 9, and the second valve 8 is installed on the oxygen delivery conduit 9;

In order to keep the oxygen inhaled by the patient at a temperature close to that of the human body and at a suitable humidity, a constant temperature humidifying device 14 is installed on the oxygen delivery conduit 9 between the second valve 8 and the mixing device 7 in this embodiment , the constant temperature humidifying device can be made with existing technologies with these functions, as shown in Figure 2, the constant temperature humidifying device 14 includes a humidifier 141, a heater 142, and the inside of the humidifier 141 is equipped with a liquid for humidifying and heating oxygen, The heater 142 is placed in the liquid inside the humidifier to heat the liquid. A section of oxygen delivery conduit 9 through the second valve 8 is inserted into the liquid in the humidifier, and another section of oxygen delivery conduit 9 is inserted above the liquid level in the humidifier and connected to the mixing device 7. The water level of the humidifier liquid can be adjusted by placing it in the humidifier. The water level sensor 143 is used to monitor; the constant temperature humidifying device 14 can control the temperature of the oxygen output from the oxygen generating device 4 to 36±1°C and humidify the oxygen to a humidity of 80±5% before inputting it to the mixing device 7 In the process, it avoids the reduction of mucus secretion in the respiratory tract caused by the inhalation of dry oxygen, which leads to the destruction of the mucus protective barrier and the risk of infection, and keeps the inhaled oxygen at a temperature close to that of the human body, which can reduce the risk of infection due to inhalation. There is a temperature difference between oxygen and the human body, resulting in the risk of injury to the human respiratory tract.

Negative ion generating device 5 is installed in the host internal space area between mixing device 7 and oxygen generating device 4, and the output port of negative ion generating device 5 is connected with mixing device 7 through connecting pipeline and first valve 12; An air outlet pipe 10 is installed on the side opposite to the front side wall of the main machine 1 , and the air outlet pipe 10 extends through the front side wall of the main machine 1 to the outside of the main machine 1 and is connected with the air duct 3 .

As an improvement of the present utility model, an atomizing device 6 is also installed inside the host machine, which can be made by using existing technologies with these functions, and the output port of the atomizing device 6 is connected to the third The valve 13 is connected to the mixing device 7. When nebulization treatment is required, the third valve 13 can be connected to the nebulization device 6 to release the medicine, and the first valve 12 can be adjusted to communicate with the second valve 8 during the nebulization treatment. The oxygen generating device 4 and the negative ion generating device 5 realize negative ion oxygen therapy and nebulization therapy at the same time, avoiding possible breathing difficulties and decreased blood oxygen saturation of the patient during the nebulization treatment process, effectively guaranteeing the life safety of the patient .

The utility model is equipped with a detection device 15 on the inside of the host 1, the detection device 15 is provided with a concentration detection sensor, a temperature and humidity detection sensor and a water level sensor 143, and the concentration detection sensor is installed and connected to the anion generator 5 and the oxygen generator 4 respectively , the temperature and humidity detection sensor is installed and connected in the mask 2, and the water level sensor 143 is connected in the upper humidifier of the constant temperature humidifying device 14. Concentration detection sensor is used to detect the negative ion concentration of negative ion generator 5, the oxygen concentration of oxygen generator 4; The liquid water level; the signal output port of detection device 15 is connected with display 16, can real-time monitor the oxygen concentration in oxygen generating device 4, the negative ion concentration of negative ion generating device 5, the constant temperature temperature and humidification humidity that constant temperature humidification device 14 outputs oxygen, humidification The water level and other data of the liquid in the device, and display the relevant data through the display 16, so that the patient can adjust each device in time according to the actual situation of the individual; The operation of the heater enables the constant temperature humidifying device 14 to reach a temperature of 36±1°C for the oxygen output from the oxygen generating device 4 and humidify the oxygen to a humidity of 80±5%. The concentration detection sensor, the temperature and humidity detection sensor, and the water level sensor 143 can be selected from existing sensor products with this conventional function, and the detection circuit chip in the detection device can be selected to realize the common chip circuit and display circuit for processing the above parameters.

In this embodiment, a commonly used oxygen saturation detection device 17 can also be electrically connected to the detection device 15, and the oxygen saturation detection device 17 is arranged outside the host computer, and the oxygen saturation detection device 17 can monitor the patient's use of the inhaler. The blood oxygen saturation, blood pressure, heart rate, respiration and other data when the oxygen device inhales oxygen, and feed back relevant data information to the patient through the display 16, so that the patient can know his own situation at any time, and adjust the oxygen output according to his own situation Make sure your oxygen saturation is maintained at a normal level.

Alarm device 18 and emergency button 19 are also installed on main frame 1 in the present embodiment, and alarm device 18 is installed in the inside of main frame 1, and emergency button 19 is fixedly installed on the top plate of main frame 1, and alarm device 18 is connected with emergency button 19 by circuit. Electrically connected, when an emergency occurs during oxygen inhalation therapy, the patient can trigger the alarm device 18 by pressing the emergency button 19 to attract the attention of neighbors and passers-by as much as possible, so as to ensure that the patient can Obtaining help from others reduces accidents caused by untimely rescue.

The utility model is also equipped with moving wheels 20 at the bottom of the host 1, which can facilitate the user to push the host 1 to move.

The utility model mainly has the following usage modes:

1) During use, the face mask 2 is attached to the face, and when simple oxygen delivery is required, the oxygen generating device 4, the constant temperature humidifying device 14, the mixing device 7, the detection device 15 and the display 16 are turned on, and other devices are turned off, and the various parameters displayed by the display 16 are turned on. Item parameter, adjust the second valve 8 to control the concentration and flow rate of the output oxygen, and adjust the constant temperature humidifying device 14 to reach the appropriate temperature and humidity required for oxygen inhalation;

2) When negative ion oxygen inhalation is required, turn on 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, and turn off other devices, and adjust the parameters displayed by the display 16 The second valve 8 is to adjust the concentration and flow rate of the output oxygen, adjust the constant temperature humidifying device 14 to keep the oxygen inhaled at an appropriate temperature and humidity, and then adjust the first valve 12 to adjust the concentration of the negative ion generator 5 output negative ions;

3) When nebulization treatment is required, the nebulization device 6 and the mixing device 7 are turned on, other devices are closed, and the flow rate of the nebulization is controlled by adjusting the third valve 13;

4) When oxygen inhalation and nebulization treatment are needed at the same time, all devices are turned on, and the first valve 12, the second valve 8 and the third valve 13 are adjusted to control the oxygen, nebulization and negative ions through various parameters displayed on the display 16. output;

When an emergency occurs during the oxygen inhalation therapy, the emergency button 19 is pressed to trigger the alarm device 18 to obtain the rescue of other people around at the first time.

The foregoing embodiments are only preferred embodiments of the utility model, but not as limitations on the utility model. Any modification and improvement made on the basis of the concept of the utility model should fall within the protection scope of the utility model. The specific protection scope is subject to the description in the claims.

Claims (5)

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.

Images