CN211327541U - Breathing device for cardiology department - Google Patents

Abstract

The utility model discloses a breathing device for intracardiac branch of academic or vocational study, including advancing the oxygen pipe, advance the oxygen pipe through a three-way pipe and a first pipe and a second pipe connection, three-way pipe one end is kept away from to first pipe is connected with the suction hose, the suction hose is connected with a breather valve through a first check valve, the breather valve is connected with a respirator and a exhalation hose, be equipped with the second check valve between breather valve and the exhalation hose, the exhalation hose is kept away from second check valve and second pipe connection, first pipe has connected gradually air purification device, wet membrane device and flow control valve, air purification device is close to three-way pipe one side, be equipped with the carbon dioxide absorber on the second pipe. The utility model realizes the recycling of oxygen; can avoid the patient to inhale the dust during sick, can also adjust the temperature humidity of oxygen, let the patient inhale the suitable oxygen of humidity temperature.

Description

Breathing device for cardiology department

Technical Field

The utility model relates to the technical field of medical equipment, specifically a breathing device for intracardiac branch of academic or vocational study.

Background

At present, in clinical practice, the intracardiac branch of academic or vocational study patient is very big to the oxygen uptake demand, current respiratory does not have the drawback of expiration passageway when having the oxygen uptake, because do not have the recovery unit of expired gas, long-time the use, it is excessive to cause the lung to ventilate easily, carbon dioxide discharges excessively, lead to patient respiratory alkalosis, the patient uses uncomfortable, influence oxygen uptake effect, respiratory can not firmly be fixed, it is inconvenient to cause the oxygen therapy, respiratory is not enough to the oxygen water filling simultaneously, humidity is not enough, can not guarantee patient's life safety.

SUMMERY OF THE UTILITY MODEL

To the weak point among the above-mentioned prior art, the utility model aims at providing a convenient to use's breathing device for intracardiac branch of academic or vocational study solves the not enough of the aforesaid existence.

For solving the technical problem, the utility model provides a pair of breathing device for intracardiac branch of academic or vocational study, including advancing the oxygen pipe, advance the oxygen pipe through a three-way pipe and a first pipe and a second pipe connection, three-way pipe one end is kept away from to first pipe is connected with the suction hose, the suction hose is connected with a breather valve through a first check valve, the breather valve is connected with a respirator and a breathing out hose, be equipped with the second check valve between breather valve and the breathing out hose, the breathing out hose is kept away from second check valve and second pipe connection, first pipe has connected gradually air purification device, wet film device and flow control valve, air purification device is close to three-way pipe one side, be equipped with the carbon dioxide absorber on the second pipe.

Further, the air purification device comprises a first shell and an air purification membrane arranged inside the first shell in a matching mode, wherein the air purification membrane is made of polytetrafluoroethylene materials.

Furthermore, the wet film device comprises a shell, a wet film body arranged in the shell, and a heat preservation water storage tank connected to the bottom of the shell, wherein the wet film body penetrates through the bottom of the shell and extends into the heat preservation water storage tank.

Furthermore, the heat preservation water storage tank is made of transparent heat preservation materials, a thermometer is arranged inside the heat preservation water storage tank, and water volume scale marks are arranged on the outer wall of the heat preservation water storage tank.

Furthermore, fixing belts are arranged on two sides of the breathing mask.

Furthermore, a tightening buckle is arranged on the fixing strap.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model can realize the recycling of oxygen; and air purification device can filter all dust particles including the bacterium when keeping the circulation of air, reaches the purpose of purification and ventilation, and then has avoided the patient in the sick period, and the suction of dust helps the patient recovered, and wet membrane device is used for adjusting oxygen humidity on the one hand, and on the other hand is used for keeping warm its water in, and then adjusts oxygen temperature, lets the patient inhale the oxygen that humidity temperature is suitable, and the patient of being convenient for is recovered.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of the air purification device of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-2, the utility model discloses a breathing device for intracardiac branch of academic or vocational study, including oxygen inlet pipe 1, oxygen inlet pipe 1 is connected with a first pipe 7 and a second pipe 8 through a three-way pipe 6, first pipe 7 is kept away from three-way pipe 6 one end and is connected with the suction hose 9, suction hose 9 is connected with a breather valve 11 through a first check valve 10, breather valve 11 is connected with a respirator 5 and a exhalation hose 12, be equipped with second check valve 13 between breather valve 11 and the exhalation hose 12, exhalation hose 12 is kept away from second check valve 13 and is connected with second pipe 8, first pipe 7 has connected gradually air purification device 2, wet film device 3 and flow control valve 14, air purification device 2 is close to three-way pipe 6 one side, be equipped with carbon dioxide absorber 4 on the second pipe 8.

The air purification device 2 comprises a first shell 15 and an air purification membrane 16 which is arranged inside the first shell 15 in a matching way, wherein the air purification membrane 16 is made of polytetrafluoroethylene materials. The air purification membrane 16 has small aperture (0.2-1.5 um), uniform distribution and large porosity (more than 95%), can filter all dust particles including bacteria while keeping the air circulation, and achieves the purposes of purification and ventilation.

The wet film device 3 comprises a shell 17, a wet film body 18 arranged in the shell 17, and a heat preservation water storage tank 19 connected to the bottom of the shell 17, wherein the wet film body 18 penetrates through the bottom of the shell 17 and extends into the heat preservation water storage tank 19. The wet film device 3 is mainly used for adjusting the humidity of the oxygen so that the oxygen is not dried; and the effect of heat preservation storage water tank 19 is used for increasing the humidity of wet film body 18 on the one hand, guarantees that oxygen humidity is enough, and on the other hand is used for keeping warm its water in, avoids the water cooling, and then guarantees that the patient inhales hot oxygen, makes its suitable patient recovered.

The heat preservation water storage tank 19 is made of transparent heat preservation materials, a thermometer 20 is arranged inside the heat preservation water storage tank 19, and water volume scale marks 21 are arranged on the outer wall of the heat preservation water storage tank 19. The heat preservation water storage tank 19 is made of transparent heat preservation materials and mainly facilitates observation of water level and water temperature, the thermometer 20 is mainly used for tracking, adjusting and controlling water temperature, and the scale marks 21 are mainly used for observing and adjusting water level.

Fixing straps 22 are arranged on two sides of the breathing mask 5.

The fixing belt 22 is provided with a tightening buckle 23.

The fixing belt 22 and the tightening buckle 23 are mainly used for fixing the breathing mask 5, so that the breathing mask 5 is suitable for being worn by a patient, and the tightening buckle 23 is arranged to facilitate tightening adjustment of the fixing belt 22.

Specifically, in the practical application process, oxygen enters from the oxygen inlet pipe 1, enters the air purification device 2 through the three-way pipe 6, enters the wet film device 3 through the flow of the oxygen filtered by the air purification device 2, and is humidified and heated by the wet film device 3, so that the oxygen enters and is sucked into the human body through the first one-way valve 10 and the breather valve 11. And carbon dioxide and residual oxygen exhaled by the human body finally enter the carbon dioxide absorber 4 through the breather valve 11 and the second one-way valve 13, the carbon dioxide is finally absorbed by the carbon dioxide absorber 4, and the residual oxygen enters the second conduit 8 and the three-way pipe 6 and is finally breathed by the patient again, so that the oxygen recycling process is realized. The utility model discloses 16 apertures of air purification membrane (0.2-1.5 um) of air purification device 2 are little (0.2-1.5 um), distribute evenly, and the porosity is big (more than 95%), when keeping the circulation of air, can filter all dust particles including the bacterium, reach the purpose of purification and ventilation, and then avoided the patient in the sick period, the suction of dust helps the patient to recover, and wet membrane device 3 has the effect of adjusting oxygen humidity, makes oxygen no longer dry; and the effect of heat preservation storage water tank 19 is used for adjusting oxygen humidity on the one hand, and on the other hand is used for keeping warm its water in, and then adjusts oxygen temperature, lets the patient inhale the suitable oxygen of humidity temperature, and the patient of being convenient for is recovered.

Claims (6)

1. A breathing device for cardiology department, comprising: comprises an oxygen inlet pipe (1), the oxygen inlet pipe (1) is connected with a first conduit (7) and a second conduit (8) through a three-way pipe (6), one end of the first conduit (7) far away from the three-way pipe (6) is connected with an inhalation hose (9), the inhalation hose (9) is connected with a breather valve (11) through a first one-way valve (10), the breather valve (11) is connected with a respirator (5) and an exhalation hose (12), a second one-way valve (13) is arranged between the breather valve (11) and the exhalation hose (12), the exhalation hose (12) far away from the second one-way valve (13) and is connected with the second conduit (8), the first conduit (7) is sequentially connected with an air purification device (2), a wet film device (3) and a flow control valve (14), the air purification device (2) is close to one side of the three-way pipe (6), and a carbon dioxide absorber (4) is arranged on the second conduit (8).

2. The breathing apparatus for cardiology of claim 1, wherein: the air purification device (2) comprises a first shell (15) and an air purification membrane (16) arranged inside the first shell (15) in a matching mode, wherein the air purification membrane (16) is made of polytetrafluoroethylene materials.

3. The breathing apparatus for cardiology of claim 1, wherein: wet membrane device (3) are equipped with in casing (17) and casing (17) wet membrane body (18) and connect heat preservation storage water tank (19) in casing (17) bottom including casing (17), wet membrane body (18) pierce through casing (17) bottom and extend and put in heat preservation storage water tank (19).

4. A breathing apparatus for cardiology according to claim 3, wherein: the heat preservation water storage tank (19) is made of transparent heat preservation materials, a thermometer (20) is arranged inside the heat preservation water storage tank (19), and water volume scale marks (21) are arranged on the outer wall of the heat preservation water storage tank (19).

5. The breathing apparatus for cardiology of claim 1, wherein: fixing belts (22) are arranged on two sides of the breathing mask (5).

6. The breathing apparatus for cardiology of claim 5, wherein: the fixing belt (22) is provided with a tightening buckle (23).

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