CN212789350U

CN212789350U - Atomizing oxygen inhalation device

Info

Publication number: CN212789350U
Application number: CN202020573220.4U
Authority: CN
Inventors: 高静; 唐丰文
Original assignee: First Affiliated Hospital of Xian Jiaotong University
Current assignee: First Affiliated Hospital of Xian Jiaotong University
Priority date: 2020-04-16
Filing date: 2020-04-16
Publication date: 2021-03-26
Anticipated expiration: 2030-04-16

Abstract

The utility model provides an atomization oxygen absorption device, which comprises an oxygen absorber, an atomizer, a breathing mask, a first connecting pipeline, a sputum suction machine and a second connecting pipeline, and the oxygen absorber is used for communicating with oxygen supply equipment ; The breathing mask is used to cover the oral cavity of the atomized object, and both the oxygen inhaler and the atomizer are connected to the breathing mask through the first connecting pipeline to deliver oxygen and atomized gas into the breathing mask for the atomized object. Breathing; the suction machine is communicated with the breathing mask through the second connection pipeline; the suction machine is used to generate negative pressure in the second connection pipeline, and the end of the second connection pipeline connected with the breathing mask is used for the needs of the atomization object When expectorating sputum, it is inserted into the oral cavity of the atomized object to suck out the sputum in the oral cavity of the atomized object. Therefore, the sputum can be directly sucked for the patient without taking off the breathing mask during the process of inhaling oxygen by the patient. The problem of inconvenient expectoration of phlegm during the process of atomizing oxygen inhalation for patients in the prior art is solved.

Description

Atomizing oxygen inhalation device

Technical Field

The utility model relates to the field of medical appliances, particularly, relate to an atomizing oxygen inhalation mask.

Background

At present, in clinical medical field, the patient can often produce a large amount of sputum in the in-process throat that carries out the atomizing oxygen uptake, in order to make the patient discharge the sputum, need frequently take off respiratory mask at the atomizing oxygen uptake in-process, not only troublesome poeration, influence the atomizing oxygen uptake normal clear moreover.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide an atomizing oxygen inhalation mask to solve the problem that the patient is inconvenient in sputum excretion in the process of atomizing oxygen inhalation in the prior art at least.

In order to achieve the above object, the utility model provides an atomizing oxygen inhalation device, include: the oxygen inhaler is communicated with the oxygen supply equipment; the breathing mask is used for covering the oral cavity of the atomization object, and the oxygen inhaler and the atomizer are communicated with the breathing mask through a first connecting pipeline so as to convey oxygen and atomization gas into the breathing mask for the atomization object to breathe; the sputum aspirator is communicated with the respiratory mask through a second connecting pipeline; the sputum suction machine is used for generating negative pressure in the second connecting pipeline, and one end of the second connecting pipeline, which is connected with the respirator, is used for being inserted into the oral cavity of the atomization object when the atomization object needs to discharge sputum so as to suck out the sputum in the oral cavity of the atomization object.

Further, the first connection line includes: a three-way pipe; one end of the oxygen conveying pipe is communicated with the oxygen inhaler, and the other end of the oxygen conveying pipe is communicated with the first port of the three-way pipe; one end of the atomizing pipe is communicated with the atomizer, and the other end of the atomizing pipe is communicated with the second port of the three-way pipe; one end of the mixing pipe is communicated with the third port of the three-way pipe, and the other end of the mixing pipe is communicated with the respiratory mask to convey oxygen and atomizing gas to the respiratory mask for an atomizing object to breathe.

Further, the second connecting line includes: the first end of the first sputum suction pipe is communicated with the sputum suction machine; the second end of the first sputum suction pipe is communicated with the liquid storage bottle so as to generate negative pressure in the liquid storage bottle when the sputum suction machine works; the first end of the second sputum suction pipe is communicated with the liquid storage bottle, and the second end of the second sputum suction pipe is communicated with the respiratory mask; when the atomization object needs to discharge the sputum, the second end of the second sputum suction tube penetrates through the respirator and is inserted into the oral cavity of the atomization object so as to suck the sputum in the oral cavity of the atomization object into the liquid storage bottle.

Furthermore, the second end of the first sputum suction pipe is positioned in the liquid storage bottle and close to the bottle mouth, and the first end of the second sputum suction pipe is positioned in the liquid storage bottle and close to the bottle bottom.

Furthermore, an air outlet is formed on the breathing cover; wherein the second end of the second sputum suction tube is inserted into the oral cavity of the atomization object through the air outlet.

Furthermore, a breathable net is detachably arranged on the air outlet; wherein, the ventilation net is arranged on the air outlet when the sputum suction state is not performed so as to ensure that the atomizing object exhales normally.

Further, the second connecting line further includes: the connecting plug is detachably plugged into the air outlet, and a sliding hole is formed in the connecting plug; when the atomization object needs to discharge the sputum, the second end of the second sputum suction tube penetrates through the slide hole to extend into the respirator and is inserted into the oral cavity of the atomization object.

Furthermore, a fixing band is arranged on the breathing mask, and the breathing mask is fixed on the head of the atomization object through the fixing band so that the breathing mask is arranged at the oral cavity of the atomization object.

Further, atomizing oxygen inhalation mask still includes: moving the trolley; wherein, the atomizer and the sputum aspirator are both arranged on the mobile trolley.

The atomization oxygen inhalation device applying the technical scheme of the utility model comprises an oxygen inhaler, an atomizer, a respiratory mask, a first connecting pipeline, a sputum aspirator and a second connecting pipeline, wherein the oxygen inhaler is used for being communicated with oxygen supply equipment; the breathing mask is used for covering the oral cavity of the atomization object, and the oxygen inhaler and the atomizer are both communicated with the breathing mask through a first connecting pipeline so as to convey oxygen and atomization gas into the breathing mask for the atomization object to breathe; the sputum aspirator is communicated with the respiratory mask through a second connecting pipeline; the sputum suction machine is used for generating negative pressure in the second connecting pipeline, and one end of the second connecting pipeline connected with the respirator is used for being inserted into the oral cavity of the atomization object when the atomization object needs to discharge sputum so as to suck out the sputum in the oral cavity of the atomization object. Therefore, the sputum suction can be directly carried out on the patient without taking down the respirator in the process of carrying out the atomization oxygen inhalation on the patient. Solves the problem of inconvenient sputum excretion of patients during the process of atomizing and oxygen inhalation in the prior art.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of an optional oxygen atomizing and absorbing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first usage state of an optional respiratory mask of an oxygen inhalation aerosol device according to an embodiment of the present invention; and

fig. 3 is a schematic structural diagram of a second usage state of a respiratory mask of an optional oxygen inhalation aerosol device according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. an oxygen inhaler; 20. an atomizer; 30. a respiratory mask; 31. an air outlet; 32. a breathable net; 33. fixing belts; 40. a first connecting line; 41. a three-way pipe; 42. an oxygen delivery tube; 43. an atomizing tube; 44. a mixing tube; 50. a sputum aspirator; 60. a second connecting line; 61. a first sputum suction tube; 62. a liquid storage bottle; 63. a second sputum aspirator tube; 64. a connecting plug; 70. moving the trolley; 71. a guardrail; 72. a drawer; 73. a storage plate; 74. positioning the barrier strip; 75. supporting legs; 76. a support rod.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The atomized oxygen inhalation device according to the embodiment of the present invention, as shown in fig. 1, comprises an oxygen inhaler 10, an atomizer 20, a respiratory mask 30, a first connecting pipeline 40, a sputum aspirator 50 and a second connecting pipeline 60, wherein the oxygen inhaler 10 is used for communicating with an oxygen supply device; the breathing mask 30 is used for covering the oral cavity of the atomization subject, and the oxygen inhaler 10 and the atomizer 20 are both communicated with the breathing mask 30 through a first connecting pipeline 40 so as to deliver oxygen and the atomization gas into the breathing mask 30 for the atomization subject to breathe; the sputum aspirator 50 is communicated with the respiratory mask 30 through a second connecting pipeline 60; the sputum aspirator 50 is used for generating negative pressure in the second connecting pipeline 60, and one end of the second connecting pipeline 60 connected with the respiratory mask 30 is used for being inserted into the oral cavity of the atomization object to suck out sputum in the oral cavity of the atomization object when the atomization object needs to discharge sputum. Therefore, the sputum suction can be directly carried out on the patient without taking down the breathing mask 30 in the process of carrying out the atomization oxygen inhalation on the patient. Solves the problem of inconvenient sputum excretion of patients during the process of atomizing and oxygen inhalation in the prior art.

In specific implementation, the breathing mask 30 is provided with a fixing band 33, and the breathing mask 30 is fixed on the head of the atomization subject through the fixing band 33 so that the breathing mask 30 covers the oral cavity of the atomization subject. The oxygen supply equipment can be an oxygen tank, an oxygen generator or a centralized oxygen supply system, and the first connecting pipeline 40 comprises a three-way pipe 41, an oxygen conveying pipe 42, an atomizing pipe 43 and a mixing pipe 44; one end of the oxygen therapy tube 42 is communicated with the oxygen inhaler 10, and the other end of the oxygen therapy tube 42 is communicated with the first port of the three-way tube 41; one end of the atomizing pipe 43 is communicated with the atomizer 20, and the other end of the atomizing pipe 43 is communicated with the second port of the three-way pipe 41; one end of the mixing tube 44 is communicated with the third port of the three-way tube 41, the other end of the mixing tube 44 is communicated with the respiratory mask 30, and the oxygen supplied by the oxygen inhaler 10 and the atomization gas generated by the atomizer 20 are respectively transmitted to the three-way tube 41 through the oxygen conveying tube 42 and the atomization tube 43, are mixed at the mixing tube 44 and then are transmitted to the respiratory mask 30 for atomization and oxygen inhalation therapy of an atomization object.

Further, the second connecting pipeline 60 comprises a first sputum suction pipe 61, a liquid storage bottle 62 and a second sputum suction pipe 63, and the first end of the first sputum suction pipe 61 is communicated with the sputum suction machine 50; the second end of the first sputum suction pipe 61 is communicated with the liquid storage bottle 62 to generate negative pressure in the liquid storage bottle 62 when the sputum suction machine 50 works; the first end of the second sputum suction pipe 63 is communicated with the liquid storage bottle 62, and the second end of the second sputum suction pipe 63 is communicated with the respiratory mask 30; the second end of first phlegm suction pipe 61 is located the position that is close to the bottleneck in the stock solution bottle 62, and the first end of second phlegm suction pipe 63 is located the position that is close to the bottle bottom in the stock solution bottle 62, and when the atomizing object need sputum excretion, the second end of second phlegm suction pipe 63 passes respiratory mask 30 and inserts the oral cavity of atomizing object and inhale the sputum in the oral cavity of atomizing object to the stock solution bottle 62 in thereby realize the sputum excretion to the atomizing object under the effect of stock solution bottle 62 internal negative pressure.

Further, as shown in fig. 2, an air outlet 31 is formed on the breathing mask 30; detachably is provided with ventilative net 32 on the gas outlet 31, and the circumference border of ventilative net 32 is provided with solid fixed ring, all sets up the helicitic texture of mutual matching on solid fixed ring and the gas outlet 31, and the atomizing object is in the atomizing oxygen uptake treatment process, if need not sputum discharging, then ventilative net 32 is installed on gas outlet 31 through solid fixed ring to make the atomizing object can normally exhale in the atomizing oxygen uptake process.

When the atomizing object needs to discharge sputum in the atomizing oxygen inhalation process, the ventilation net 32 is directly detached, and the second end of the second sputum suction pipe 63 is inserted into the oral cavity of the atomizing object through the air outlet 31, so that the sputum can be discharged from the atomizing object.

Further, as shown in fig. 2 and 3, in order to prevent the atomizing object from biting the second sputum suction tube 63 by teeth during the sputum excretion process to affect the sputum excretion, the second connecting pipeline 60 further includes a connecting plug 64, the connecting plug 64 is of a cylindrical structure, when the sputum excretion is required, the connecting plug 64 is plugged into the air outlet 31 to be fixed, a sliding hole is formed in the connecting plug 64, the second end of the second sputum suction tube 63 passes through the sliding hole to extend into the respiratory mask 30 and to be inserted into the oral cavity of the atomizing object, the teeth of the atomizing object are bitten on the connecting plug 64 during the sputum excretion process to prevent the second sputum suction tube 63 from deforming to affect the sputum excretion.

In order to facilitate the oxygen inhalation by atomization for different patients, as shown in fig. 1, the oxygen inhalation by atomization device further comprises a moving trolley 70, a guardrail 71 is arranged above the moving trolley 70, and the atomizer 20 and the sputum aspirator 50 are arranged in a space surrounded by the guardrail 71; the movable trolley 70 is also provided with a drawer 72, and other appliances and medical supplies required in the process of atomizing and oxygen inhalation can be placed in the drawer 72; an object placing plate 73 capable of being turned over up and down is arranged on the side of the movable trolley 70, one end of the object placing plate 73 is rotatably connected with a side plate of the movable trolley 70 through a hinge, the other end of the object placing plate 73 is a free end, and a positioning barrier strip 74 is arranged on the lower surface of the object placing plate 73; correspondingly, two support rods 76 are correspondingly arranged on two support legs 75 of the movable trolley 70, the first ends of the two support rods 76 are correspondingly hinged to the two support legs 75, the second ends of the two support rods 76 are free ends, when the storage plate 73 is turned upwards to a horizontal state, the second ends of the two support rods 76 are propped against the positioning barrier strips 74 below the storage plate 73, so that the storage plate 73 is supported on a horizontal position, and when the storage plate 73 is located on the horizontal position, atomized oxygen inhalation appliances such as the liquid storage bottle 62 and the respiratory mask 30 can be placed on the storage plate 73. After the atomized oxygen inhalation is finished, the two support rods 76 are put down, and the object placing plate 73 can be turned downwards to be in a vertical state, so that the space is saved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. an atomization oxygen absorption device, is characterized in that, comprises:

an oxygen absorber (10) and an atomizer (20), the oxygen absorber (10) being used to communicate with an oxygen supply device;

A breathing mask (30), the breathing mask (30) is used to cover the oral cavity of the atomized object, and both the oxygen inhaler (10) and the atomizer (20) are connected with the first connecting pipeline (40). The breathing mask (30) is in communication to deliver oxygen and aerosolized gas into the breathing mask (30) for breathing by the aerosolized object;

a sputum suction machine (50), wherein the sputum suction machine (50) communicates with the breathing mask (30) through a second connecting pipeline (60);

Wherein, the sputum suction machine (50) is used to generate negative pressure in the second connection pipeline (60), and the end of the second connection pipeline (60) connected with the breathing mask (30) is used to When the atomized object needs to expectorate sputum, it is inserted into the oral cavity of the atomized object to suck out the sputum in the oral cavity of the atomized object.

2. The atomizing oxygen inhalation device according to claim 1, wherein the first connecting pipeline (40) comprises:

Three-way pipe (41);

an oxygen delivery pipe (42), one end of the oxygen delivery pipe (42) is communicated with the oxygen absorber (10), and the other end of the oxygen delivery pipe (42) is communicated with the first port of the three-way pipe (41);

An atomizing pipe (43), one end of the atomizing pipe (43) is communicated with the atomizer (20), and the other end of the atomizing pipe (43) is connected with the first end of the three-way pipe (41). Two-port connection;

A mixing pipe (44), one end of the mixing pipe (44) is communicated with the third port of the three-way pipe (41), and the other end of the mixing pipe (44) is communicated with the breathing mask (30) to Oxygen and nebulized gas are delivered to the breathing mask (30) for breathing by the nebulized subject.

3. The atomizing oxygen inhalation device according to claim 1, wherein the second connecting pipeline (60) comprises:

a first sputum suction tube (61), the first end of the first sputum suction tube (61) is communicated with the sputum suction machine (50);

A liquid storage bottle (62), the second end of the first sputum suction tube (61) is communicated with the liquid storage bottle (62), so that when the sputum suction machine (50) is working, the liquid storage bottle (62) 62) Negative pressure is generated inside;

The second suction pipe (63), the first end of the second suction pipe (63) is communicated with the liquid storage bottle (62), and the second end of the second suction pipe (63) is connected with the liquid storage bottle (62). the breathing mask (30) is connected;

Wherein, when the aerosolized object needs to expectorate sputum, the second end of the second sputum suction tube (63) passes through the respirator (30) and is inserted into the oral cavity of the aerosolized object to suck the mist The sputum in the oral cavity of the object is sucked into the liquid storage bottle (62).

4. The atomization oxygen inhalation device according to claim 3, wherein the second end of the first sputum suction pipe (61) is located at a position close to the bottle mouth in the liquid storage bottle (62), so The first end of the second suction pipe (63) is located in the liquid storage bottle (62) near the bottom of the bottle.

5. The atomization oxygen inhalation device according to claim 3, wherein an air outlet (31) is provided on the breathing mask (30);

Wherein, the second end of the second sputum suction tube (63) is inserted into the oral cavity of the atomized object through the air outlet (31).

6. The atomization oxygen inhalation device according to claim 5, characterized in that, a ventilating net (32) is detachably provided on the air outlet (31);

Wherein, the ventilation net (32) is used to be arranged on the air outlet (31) when the sputum is not suctioned, so that the atomized object can breathe normally.

7. The atomization oxygen inhalation device according to claim 5, wherein the second connecting pipeline (60) further comprises:

a connecting plug (64), which is detachably inserted into the air outlet (31), and a sliding hole is formed on the connecting plug (64);

Wherein, when the nebulized object needs to expectorate sputum, the second end of the second sputum suction tube (63) extends into the respirator (30) through the sliding hole and is inserted into the nebulized object's intraoral.

8. The atomizing oxygen inhalation device according to claim 1, characterized in that, a fixing belt (33) is provided on the breathing mask (30), and the breathing mask (30) passes through the fixing belt (33) It is fixed on the head of the atomizing object so that the breathing mask (30) covers the oral cavity of the atomizing object.

9. The atomization oxygen inhalation device according to claim 1, wherein the atomization oxygen inhalation device further comprises:

mobile cart(70);

Wherein, the atomizer (20) and the sputum suction machine (50) are both arranged on the mobile trolley (70).