CN115554545A - Breathe internal medicine and breathe stable detection device - Google Patents

Abstract

The invention relates to the technical field of respiration detection, in particular to a respiration stability detection device for a respiration medicine. The invention provides a respiratory stability detection device for a respiratory medicine, which has a warning function and can detect the gas frequency and pressure. The utility model provides a breathe internal medicine and breathe stable detection device, is including face guard, pulling force rope, gas-supply pipe, shell, control box, runner pipe and check valve etc. the both sides that the face guard is relative all are connected with the pulling force rope that plays the fixed action, and face guard outside intercommunication has the gas-supply pipe that can carry the air, and one side that is close to the face guard on the gas-supply pipe is equipped with the check valve. When the gas of breathing machine exhalation was through the gasbag, because of gasbag one end opening is big, one end opening is little, and the air current dashes into from the big department of opening and can make the gasbag inflation, and then detects the record through the counter, can detect out the frequency of exhalation gas to conveniently regulate and control this frequency to unanimous with patient respiratory frequency, avoid patient breathing not smooth.

Description

Breathe internal medicine and breathe stable detection device

Technical Field

The invention relates to the technical field of respiration detection, in particular to a respiration stability detection device for a respiration medicine.

Background

Respiration refers to the process of gas exchange between the body and the external environment. In modern clinical medicine, a ventilator has been widely used in respiratory failure due to various reasons, anesthesia and breathing management during major surgery, respiratory support therapy, and emergency resuscitation as an effective means for manually replacing the function of spontaneous ventilation, and a detection device is indispensable for ensuring the stability of a patient during breathing.

The utility model discloses a portable detection device that breathes for CN212307829U, including the detection device casing, detection device casing top surface has from left to right set gradually control button, display screen and pilot lamp, detection device casing inside top has from left to right set gradually control mainboard and carbon dioxide detector, the inside one side of detection device casing bottom air inlet is provided with temperature sensor, detection device casing bottom air inlet bottom is connected with first respiratory tube, first respiratory tube bottom is provided with rotatory bulb, rotatory bulb outside is rotated and is connected with rotatory sleeve, rotatory sleeve bottom is connected with the second respiratory tube, the second respiratory tube bottom is connected with respiratory mask. This portable breathing detection device surveys through temperature sensor detection need not press close to patient's face just can survey patient's breathing, reduces the condition of waking up the patient, and respirator's rotation sets up makes things convenient for night to patrol room medical personnel and breathe the detection to the patient of different sleep positions. However, this patent has the following problems:

1. when the respirator breaks down and stops air supply, an alarm cannot be given out in time;

2. this patent can't detect the frequency and the pressure of breathing machine expired gas, and inconvenient nurse adjusts patient respiratory frequency and breathing machine expired gas frequency to unanimity, chocks patient easily if the pressure value is too high.

To the above-mentioned patent go wrong at the breathing machine, can't in time send out the police dispatch newspaper, and can't detect the problem of breathing machine expired gas frequency and pressure, we need design one kind and possess the warning function, and can detect the breathing internal medicine of gas frequency and pressure and breathe stable detection device.

Disclosure of Invention

In order to overcome the defects that the existing detection device cannot give an alarm in time and cannot detect the exhaled gas frequency and pressure of the respirator when the respirator has a problem, the invention provides the respiratory medicine respiratory stability detection device which has a warning function and can detect the gas frequency and pressure.

The technical scheme is as follows: the utility model provides a breathe internal medicine and breathe stable detection device, including the face guard, the pulling force rope, the gas-supply pipe, and a housing, a control box, the runner pipe, the check valve, the gasbag, the connecting pipe, the air current sensor, the siren, record screen and detection mechanism, the both sides that the face guard is relative all are connected with the pulling force rope that plays the fixed action, face guard outside intercommunication has the gas-supply pipe that can carry the air, one side that is close to the face guard on the gas-supply pipe is equipped with the check valve, the one end intercommunication of keeping away from the face guard on the gas-supply pipe has the runner pipe, the intercommunication has the gasbag on the runner pipe, gasbag upper end also intercommunication has the runner pipe, be connected with the shell of wrapping up the gasbag on the runner pipe, the joint has the connecting pipe on the runner pipe of one side, one side of runner pipe intercommunication connecting pipe is big opening, one side of runner pipe intercommunication gas-supply pipe is little opening, fixed mounting has the control box on the shell, install the air current sensor that can respond to the air current on the shell, the one end of air current sensor is worn to enter in the warning pipe, install the siren that can people on the shell, be fixed with the record screen that is used for the record data, record screen links to control box electrical property links to each other, it links to all links to be equipped with control box electrical property, the detection mechanism of breathing frequency on the gas detection mechanism.

Further, the detection mechanism comprises a sliding block, an extrusion spring, connecting rods, a counter and a sliding block, wherein four sliding blocks are arranged on two opposite sides of the shell in a sliding mode, the extrusion spring is connected between each sliding block and the shell, the connecting rods are arranged on the sliding blocks in a rotating mode, the counter is arranged between the two connecting rods on the same side in a rotating mode, the sliding block is glued on one side, close to the counter, of the air bag, the sliding blocks are all in contact with the close counter, and the counter is electrically connected with the control box.

Further, the device also comprises a barometer, and the barometer capable of detecting the flowing pressure of the gas is fixed on the gas transmission pipe.

Further, the gas pressure meter also comprises a lamp ring, and the lamp ring for illumination is fixed on the gas pressure meter.

Further explaining, still including chucking mechanism, chucking mechanism is including guiding axle, sliding plate and coupling spring, and the one side of keeping away from the record screen on the shell is fixed with the guiding axle, and the gliding style is equipped with the sliding plate that can improve connecting pipe stability on the guiding axle, is connected with coupling spring between sliding plate and the guiding axle, and the sliding plate is connected with the connecting pipe joint.

Further explain, still including exhaust mechanism, exhaust mechanism is fixed with the spirometric detector that can detect patient's expired gas volume including spirometric detector and curved surface display screen in one side that the face guard was not laminated with the people's face, and the last one side of keeping away from the face guard of spirometric detector all has the venthole along circumference evenly opened, and the outside upside of face guard is fixed with curved surface display screen, and spirometric detector and curved surface display screen all link to each other with the control box electrical property.

Further explain, still including filter mechanism, filter mechanism is fixed with the silica gel piece that is no less than two including silica gel piece and filtration cotton on the face guard that lies in the one side of vital capacity detector facade, and the joint has the filtration cotton that can block the secretion to splash on the face guard between the silica gel piece, and the filtration cotton is hugged closely the face guard.

Further explaining, still including cramping mechanism, cramping mechanism is including magic subsides and ventilative silica gel, and the position that is close to the pulling force rope top on the face guard is connected with the magic subsides, and the one side glue that is close to the filter pulp on the face guard has the ventilative silica gel who is used for the protection.

The invention provides a respiratory stability detection device for respiratory medicine, which has the following advantages:

1. when the gas exhaled by the respirator passes through the air bag, the air bag can be expanded due to the fact that the opening at one end of the air bag is large and the opening at the other end of the air bag is small, the air flow rushes into the air bag from the large opening, and then the frequency of the exhaled gas can be detected through detection and recording of the counter, so that the frequency can be conveniently regulated and controlled to be consistent with the respiratory frequency of a patient, and the patient is prevented from breathing unsmoothly;

2. the barometer can detect the pressure of the gas exhaled by the respirator, so that the patient is prevented from being choked by overlarge pressure;

3. when the respirator breaks down and stops air supply, the airflow sensor can detect that the airflow is stopped, and then the alarm is sent out through the alarm to warn people, so that the condition can be conveniently and timely handled, and the use safety is improved;

4. gas exhaled by the lung of the patient is detected by the spirometry detector, qualified data is recorded, whether the breath of the patient is normal or not is distinguished according to the data volume detected and recorded in one minute, and the condition of the patient can be conveniently known at any time;

5. the filter cotton can prevent saliva sprayed out when a patient coughs from splashing on the mask, so that the filter cotton can be conveniently and directly replaced for cleaning in the later period;

6. the magic subsides can strengthen the face guard, avoids the face guard unstability from patient's face landing.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a first partial cross-sectional view of the present invention.

Fig. 3 is a second partial cross-sectional view of the present invention.

Fig. 4 is a schematic perspective view of a first exemplary embodiment of a detecting mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second detecting mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first clamping mechanism of the present invention.

Fig. 7 is a schematic perspective view of a second embodiment of the clamping mechanism of the present invention.

Fig. 8 is a schematic perspective view of the exhaust mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first filter mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second filter mechanism according to the present invention.

FIG. 11 is a first perspective view of the tightening mechanism of the present invention.

FIG. 12 is a second perspective view of the tightening mechanism of the present invention.

In the above drawings: 1_ face mask, 2_ tension rope, 201_ one-way valve, 3_ air pipe, 301_ shell, 4_ control box, 41_ flow pipe, 5_ air bag, 6_ connecting pipe, 7_ air flow sensor, 8_ alarm, 9_ recording screen, 10_ detection mechanism, 100_ slider, 101_ extrusion spring, 102_ connecting rod, 103_ counter, 104_ slider, 11_ clamping mechanism, 110_ guide shaft, 111_ sliding plate, 112_ connecting spring, 12_ exhaust mechanism, 120_ vital capacity detector, 121_ air outlet, 122_ curved surface display screen, 13_ barometer, 14_ filter mechanism, 140_ silica gel block, 141_ filter cotton, 15_ clamping mechanism, 150_ magic tape, 151_ air permeable silica gel, 16_ lamp ring.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize techniques such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary, and is not intended to limit the scope of the invention in any way.

Example 1

The utility model provides a breathe internal medicine and breathe stable detection device, as shown in fig. 1-3, including face guard 1, the pulling force rope 2, check valve 201, gas-supply pipe 3, shell 301, control box 4, runner pipe 41, gasbag 5, connecting pipe 6, airflow sensor 7, siren 8, record screen 9 and detection mechanism 10, the 1 left and right sides of face guard all is connected with the pulling force rope 2 that plays the fixed action, 1 outside intercommunication of face guard has the gas-supply pipe 3 that can carry the air, gas-supply pipe 3 left side is equipped with check valve 201, 3 right-hand member intercommunication of gas-supply pipe has runner pipe 41, the intercommunication has gasbag 5 on runner pipe 41, gasbag 5 upper end also communicates runner pipe 41, be connected with shell 301 between runner pipe 41, the last joint of upside runner pipe 41 has connecting pipe 6, one side that upside runner pipe 41 communicates connecting pipe 6 is big opening, one side that downside 41 communicates gas-supply pipe 3 is little opening, install control box 4 on the shell 301, airflow sensor 7 that can respond to the air current is installed to the upside of shell 301, the one end that responds to the air-supply sensor 7 is worn in connecting pipe 6, the downside of installing can alarm sensor 301 alarm, people's side is equipped with the alarm control and the alarm control of the equal control of the alarm 4 and the alarm control of the alarm 4, it links to be continuous with 4 with the alarm control of 4 on the electricity control of 4 record mechanism 10, the electricity control of 4 record screen 9, the detection mechanism.

As shown in fig. 2, 4 and 5, the detecting mechanism 10 includes a sliding block 100, an extruding spring 101, a connecting rod 102, a counter 103 and a sliding block 104, the sliding block 100 is disposed on the left and right sides of a housing 301 in a vertically symmetrical sliding manner, the extruding spring 101 is connected between the sliding block 100 and the housing 301, the connecting rod 102 is disposed on the sliding block 100 in a rotating manner, the counter 103 is disposed between the right side of the connecting rod 102 on the left side and between the left side of the connecting rod 102 on the right side in a rotating manner, the sliding block 104 is glued on the left and right sides of the airbag 5, the sliding block 104 is in contact with the adjacent counter 103, and the counter 103 is electrically connected with the control box 4.

As shown in fig. 1 and 2, the pneumatic pressure gauge 13 is further included, and the pneumatic pressure gauge 13 is fixed on the upper side of the air pipe 3.

As shown in fig. 1, the electronic pressure gauge further comprises a lamp ring 16, the lamp ring 16 is fixed on the pressure gauge 13, the electronic pressure gauge can play a role in illumination, and a nurse can check data on the pressure gauge 13 conveniently when making a round in the morning.

The device is mainly used for being connected with a breathing machine to provide oxygen for a patient, when the device needs to be installed for use, a connecting pipe 6 can be connected with a breathing machine air source, the breathing machine and an oxygen generator are jointly used, a nurse can open the breathing machine and the oxygen generator, adjust and control the oxygen flow according to the oxygenation capacity of the patient, adjust the ventilation frequency, the ventilation tidal volume, the breathing machine inspiration flow rate, the breathing machine respiration ratio, the breathing machine airflow mode, the breathing machine inspiration oxygen concentration and the triggering sensitivity of the breathing machine, the breathing machine can inhale the oxygen into an air bag 5 through the connecting pipe 6 and a circulating pipe 41, when the air flow enters the air bag 5, the air bag 5 is expanded due to the fact that one end of the air bag 5 is opened greatly and the other end is opened shallowly, the air flow is inhaled from the place with the large opening, and then is exhausted through an air pipe 3 after entering the air bag 5, when the air bag 5 expands, the sliding block 104 is pushed to move towards the side far away from each other, the sliding block 104 is enabled to extrude the counter 103, the counter 103 is enabled to push the connecting rod 102 to rotate, the connecting rod 102 is enabled to push the sliding block 100 to slide towards the outer side, the extrusion spring 101 is enabled to compress, when the counter 103 is extruded by the sliding block 104 once, the number of times is recorded, the number is transmitted to the control box 4, the control box 4 is displayed through the recording screen 9, as the oxygen exhaled by the respirator has a certain frequency, during the expiration oxygen exhalation pause period of the respirator, no more oxygen is needed to push the air bag 5, the air bag 5 can reset to the initial size by virtue of the self elasticity, meanwhile, the sliding block 104 is driven to move towards the side close to each other to reset, the sliding block 100 can reset towards the inner side under the reset action of the extrusion spring 101, the connecting rod 102 is further pushed to rotate reversely, the connecting rod 102 is enabled to push the counter 103 to reset, when the oxygen is exhaled again, the air bag 5 is expanded again, the counter 103 is pressurized again, so that the recording can be carried out on the recording screen 9, the per minute exhalation frequency of the breathing machine can be known by looking up the recording screen 9, the mask 1 can be worn on the face of a patient after the frequency is qualified, the pull rope 2 can be hung on two sides of the ears of the patient, the mask 1 is fixed, the displacement of the mask 1 is avoided, the breathing of the patient can be facilitated by the cooperation of the breathing machine and the device, the respiratory failure can be prevented and treated, related complications are reduced, after the mask 1 is worn, the patient can inhale oxygen exhaled by the air conveying pipe 3 to the lung, the oxygen in the alveolus and carbon dioxide in blood are exchanged, then the carbon dioxide is discharged out of the body, when the patient exhales, the gas cannot enter the air conveying pipe 3 through the one-way valve 201, the gas exhaled by the patient can be discharged through the mask 1, the barometer 13 can detect the pressure of the air flow flowing through the air pipe 3, so as to prevent the excessive pressure of the oxygen exhaled by the respirator from irritating the patient, the detected data is directly displayed on the barometer 13, the barometer can be known in time when a nurse visits the room, meanwhile, the air flow sensor 7 can detect the air flow flowing through the connecting pipe 6, if the respirator fails and does not have the air flow flowing through, a signal is sent to the control box 4, the control box 4 controls the alarm 8 to send a section of alarm, further the surrounding people are warned, the nurse can be called to deal with the situation in time, thus, the frequency of the exhaled oxygen is detected by the detection mechanism 10, the pressure of the flowing oxygen is detected by the barometer 13, the safety of the patient can be ensured, the situation that the patient is difficult to know due to special situations can be avoided, when the device is not needed, the respirator and the oxygen generator are shut down, lift 1 face of face guard off from patient to can lift 6 from gasbag 5 with the connecting pipe off, conveniently disinfect to face guard 1, when still need use in the later stage, with connecting pipe 6 with gasbag 5 joint again can, connecting pipe 6 detachable mode can connect the connecting pipe 6 of different length, the convenient position of removing the breathing machine according to the demand.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 6 and 7, the present invention further includes a clamping mechanism 11, the clamping mechanism 11 includes a guide shaft 110, a sliding plate 111 and a connection spring 112, the guide shaft 110 is fixed to the rear wall of the housing 301, the sliding plate 111 capable of improving the stability of the connection pipe 6 is slidably disposed on the guide shaft 110, the connection spring 112 is connected between the sliding plate 111 and the guide shaft 110, and the sliding plate 111 is connected to the connection pipe 6 in a snap-fit manner.

Initially, the connecting spring 112 is in a stretching state, the sliding plate 111 clamps the connecting pipe 6, the connecting pipe 6 and the airbag 5 can be clamped more tightly by the sliding plate 111 through the stretching force of the connecting spring 112, the connecting pipe 6 is prevented from loosening, when the connecting pipe 6 and the airbag 5 need to be separated, the sliding plate 111 can be pulled upwards first to stretch the connecting spring 112, the connecting pipe 6 can be pulled upwards to be separated from the airbag 5 after the connecting pipe 6 is not pressed by the sliding plate 111, the connecting pipe 6 is pulled leftwards to be separated from the sliding plate 111, the sliding plate 111 can be released, the sliding plate 111 can be moved downwards to be reset under the resetting action of the connecting spring 112, when the connecting pipe 6 needs to be clamped again, the sliding plate 111 can be pulled upwards repeatedly by the operation, the connecting pipe 6 is pushed into the sliding plate 111 to be clamped with the sliding plate 111, the connecting pipe 6 is clamped into the airbag 5, the sliding plate 111 can be released, the sliding plate 111 can be reset to press the connecting pipe 6 tightly, and the fixing is finished.

As shown in fig. 1, 2 and 8, the breathing mask further comprises an exhaust mechanism 12, the exhaust mechanism 12 comprises a vital capacity detector 120 and a curved display screen 122, the left side and the right side of the exterior of the mask 1 are respectively fixed with the vital capacity detector 120 capable of detecting the amount of the gas exhaled by the patient, one side of the vital capacity detector 120, which is far away from the mask 1, is uniformly provided with air outlets 121 along the circumferential direction, the curved display screen 122 is fixed on the upper side of the exterior of the mask 1, and the vital capacity detector 120 and the curved display screen 122 are both electrically connected with the control box 4.

When a patient inhales oxygen exhaled by the connecting pipe 6 to the lung through the nose and then exhausts the carbon dioxide out of the body, the carbon dioxide passes through the vital capacity detector 120 and is exhausted from the air outlet 121, the vital capacity detector 120 can detect the amount of the gas exhaled by the patient, the small amount of the gas represents that the oxygen inhaled by the patient is small, the breathing of the patient is abnormal, the possibility of respiratory failure exists, when the gas exhaled by the patient reaches the normal breathing amount, the vital capacity detector 120 sends a signal to the control box 4, the control box 4 transmits the data to the curved surface display screen 122, the data is displayed on the curved surface display screen 122, when a nurse visits the ward, the recorded number of times of the gas exhaled by the patient within one minute can be known through the data on the curved surface display screen 122, the recorded number of times is small, the abnormal breathing of the patient represents that the patient breathes, the nurse can detect the vital capacity of the patient, the nurse needs to compress the mask 1 first to ensure the air tightness of the mask 1, then guide the patient to inhale the oxygen deeply, the lung capacity can be detected by the vital capacity detector 120, the patient can adjust the breathing data of the patient, and the breathing machine can be convenient for treating the patient.

As shown in fig. 2, 9 and 10, the mask further comprises a filtering mechanism 14, the filtering mechanism 14 comprises two silica gel blocks 140 and filter cotton 141, two silica gel blocks 140 are fixed on the upper side of the back wall of the mask 1, one silica gel block 140 is fixed on the lower side of the back wall of the mask 1, the filter cotton 141 for preventing secretion from splashing on the mask 1 is clamped between the silica gel blocks 140, and the filter cotton 141 is tightly attached to the back wall of the mask 1.

After the face mask 1 is worn on the face of a patient, a plurality of patients lie for a long time, the respiratory tract is easy to generate inflammatory reaction, more inflammatory secretion can be generated, the patient is easy to cough, the saliva sprayed by the cough can be sprayed on the filter cotton 141, the problem that the saliva is directly sprayed on the face mask 1 and is difficult to clean is avoided, the filter cotton 141 needs to be detached after the face mask is used for a period of time, the filter cotton 141 is replaced, and the filter cotton 141 can be directly clamped between the silica gel blocks 140.

As shown in fig. 1, fig. 2, fig. 11 and fig. 12, the mask further comprises a tightening mechanism 15, the tightening mechanism 15 comprises a magic tape 150 and a breathable silica gel 151, the magic tape 150 is connected between the left side and the right side of the upper portion of the mask 1, the magic tape 150 can reinforce the mask 1, and the breathable silica gel 151 used for protection is glued on the upper side of the rear wall of the mask 1.

When patient wears this device, in order to avoid appearing patient's head activity face guard 1 and the phenomenon that the face breaks away from, when wearing, accessible magic subsides 150 tight patient heads of circle, make face guard 1 hug closely with patient's nasal part, ventilative silica gel 151 also will contact with patient's nose root, paste 150 can fixed face guard 1 through the magic, pulling force rope 2 just hangs on patient's both ears, ventilative silica gel 151 plays the effect of buffering, it causes the discomfort to avoid patient's nose root to be pressed the friction by face guard 1, when unloading face guard 1, it can to tear magic subsides 150.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A respiration stability detection device for a respiratory medicine comprises a face mask (1), tension ropes (2), gas transmission pipes (3), a shell (301), a control box (4), a circulation pipe (41), a one-way valve (201), an air bag (5) and a connecting pipe (6), wherein the tension ropes (2) playing a fixing role are connected to two opposite sides of the face mask (1), the gas transmission pipes (3) capable of conveying air are communicated to the outer side of the face mask (1), the one side, close to the face mask (1), of the gas transmission pipes (3) is provided with the one-way valve (201), one end, far away from the face mask (1), of the gas transmission pipes (3) is communicated with the circulation pipe (41), the air bag (5) is communicated to the circulation pipe (41), the upper end of the air bag (5) is also communicated with the circulation pipe (41), the shell (301) wrapping the air bag (5) is connected to the circulation pipe (41), the connecting pipe (6) is clamped to the circulation pipe (41) on one side, the side, which the circulation pipe (41) is communicated with the connecting pipe (6) is a large opening, one side, the circulation pipe (41) is communicated with the small opening, the shell (301), an alarm control box (7) is fixedly installed on the shell, and an alarm detection mechanism (7) and a detection mechanism (9), install airflow sensor (7) that can respond to the air current on shell (301), airflow sensor (7) are gone up in the one end of response wears into connecting pipe (6), install siren (8) that can warn people on shell (301), be fixed with record screen (9) that are used for the record data on shell (301), record screen (9) link to each other with control box (4) electrical property, airflow sensor (7) and siren (8) all link to each other with control box (4) electrical property, be equipped with detection mechanism (10) that can inspect breathing machine exhalation gas frequency on shell (301).

2. The respiration medicine respiration stabilization detection device according to claim 1, wherein the detection mechanism (10) comprises a sliding block (100), an extrusion spring (101), a connecting rod (102), a counter (103) and a sliding block (104), four sliding blocks (100) are slidably arranged on two opposite sides of the shell (301), the extrusion spring (101) is connected between the sliding block (100) and the shell (301), the connecting rod (102) is rotatably arranged on the sliding block (100), the counter (103) is rotatably arranged between the two connecting rods (102) on the same side, the sliding block (104) is glued on one side of the air bag (5) close to the counter (103), the sliding block (104) is in contact with the close counter (103), and the counter (103) is electrically connected with the control box (4).

3. The respiration stabilization detection device for the respiratory medicine according to claim 2, further comprising a barometer (13), wherein the barometer (13) capable of detecting the flowing pressure of the gas is fixed on the gas transmission pipe (3).

4. The breath stabilization detection device for the respiratory medicine as claimed in claim 3, further comprising a lamp ring (16), wherein the lamp ring (16) for illumination is fixed on the barometer (13).

5. The respiratory medicine respiratory stability detection device according to claim 4, characterized by further comprising a clamping mechanism (11), wherein the clamping mechanism (11) comprises a guide shaft (110), a sliding plate (111) and a connecting spring (112), the guide shaft (110) is fixed on one side of the shell (301) away from the recording screen (9), the sliding plate (111) capable of improving the stability of the connecting pipe (6) is slidably arranged on the guide shaft (110), the connecting spring (112) is connected between the sliding plate (111) and the guide shaft (110), and the sliding plate (111) is clamped with the connecting pipe (6).

6. The respiratory medicine respiratory stability detection device according to claim 5, further comprising an exhaust mechanism (12), wherein the exhaust mechanism (12) comprises a vital capacity detector (120) and a curved display screen (122), the vital capacity detector (120) capable of detecting the amount of gas exhaled by a patient is fixed on one side of the face mask (1) which is not attached to a human face, air outlets (121) are uniformly formed in one side, away from the face mask (1), of the vital capacity detector (120) along the circumferential direction, the curved display screen (122) is fixed on the upper side of the outer portion of the face mask (1), and the vital capacity detector (120) and the curved display screen (122) are electrically connected with the control box (4).

7. The respiratory internal medicine respiratory stability detection device according to claim 6, further comprising a filtering mechanism (14), wherein the filtering mechanism (14) comprises silica gel blocks (140) and filter cotton (141), at least two silica gel blocks (140) are fixed on one side of the face mask (1) opposite to the vital capacity detector (120), the filter cotton (141) capable of preventing secretions from splashing on the face mask (1) is clamped between the silica gel blocks (140), and the filter cotton (141) is tightly attached to the face mask (1).

8. The respiratory internal medicine respiratory stability detection device according to claim 7, further comprising a tightening mechanism (15), wherein the tightening mechanism (15) comprises a magic tape (150) and a breathable silica gel (151), the magic tape (150) is connected to the position, close to the upper part of the tension rope (2), on the face mask (1), and the breathable silica gel (151) for protection is glued to one side, close to the filter cotton (141), of the face mask (1).

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