CN211068547U - Intracardiac branch of academic or vocational study first aid device - Google Patents

Abstract

The utility model belongs to the technical field of medical devices, and discloses a first-aid device for cardiology department, which is provided with an inflatable bag; an air supply pipe is cemented at the upper end of the inflatable bag, the other end of the air supply pipe is connected with a breathing mask shell through a connector, a ventilation inner pipe is cemented in the breathing mask shell, and an inlet pipe is cemented at the lower end of the ventilation inner pipe; an air inlet is cemented at the bottom of the inflatable bag, an air suction pipe is sleeved outside the air inlet, a sputum aspirator is sleeved at the other end of the air suction pipe, the lower end of the sputum aspirator is connected with a liquid collecting bottle through threads, and a liquid sucking pipe is sleeved at the other end of the sputum aspirator. The utility model adopts the design of emergency gas transmission, and can quickly and conveniently carry out emergency operation which is equal to artificial respiration on a patient by extruding the inflatable bag by hands; the inlet pipe is arranged, so that the mouth of a patient can be kept open in an auxiliary way, and the implementation of emergency measures is facilitated; the other end of the inflatable bag is sleeved with the air suction pipe and can be connected with the sputum aspirator, and the sputum in the trachea of the patient can be sucked out through the pipette, so that the patient is prevented from suffocating.

Description

Intracardiac branch of academic or vocational study first aid device

Technical Field

The utility model belongs to the technical field of medical device, especially, relate to a intracardiac branch of academic or vocational study first aid device.

Background

The cardiology department, i.e. the cardiovascular department, is a clinical department set by major internal medicine departments of all levels of hospitals for diagnosis and treatment of cardiovascular diseases, and the treated diseases include angina pectoris, hypertension, sudden death, arrhythmia, heart failure, premature beat, arrhythmia, myocardial infarction, cardiomyopathy, myocarditis, acute myocardial infarction and other cardiovascular diseases. Patients suffering from this type of illness sometimes experience apneic events due to the illness, and sufferers who experience an apneic event are extremely dangerous because they are unable to breathe, and are likely to suffer a series of dangerous consequences resulting from inadequate brain oxygen supply. The traditional treatment method for treating the patient suffering from the intracardiac asphyxia is characterized in that artificial respiration is generally adopted due to lack of an emergency device, and the concentration of inhaled oxygen is not high, so that the optimal treatment time of the patient is possibly delayed. Simultaneously the intracardiac branch of academic or vocational study suffocation patient's processing mode is treated to the tradition, can not influence patient's breathing to the inside siltation sputum suction of patient.

In summary, the problems of the prior art are as follows:

(1) the traditional treatment method for treating the patient suffering from the intracardiac asphyxia is characterized in that artificial respiration is generally adopted due to lack of an emergency device, and the concentration of inhaled oxygen is not high, so that the optimal treatment time of the patient is possibly delayed.

(2) The intracardiac branch of academic or vocational study patient's processing mode of stifling is treated to the tradition, can not influence patient's breathing to the inside siltation sputum suction of patient.

SUMMERY OF THE UTILITY MODEL

To the problem that prior art exists, the utility model provides a intracardiac branch of academic or vocational study first aid device.

The utility model is realized in such a way that the emergency device for the cardiology department is provided with the inflatable bag which is connected with the pressure gauge through a thread, the left end of the inflatable bag is provided with an air inlet, and the air inlet is embedded with a one-way valve;

the pressure gauge is connected with the threaded connector through the air supply pipe, and the threaded connector is connected with the connector through the air supply pipe;

a breathing mask shell is arranged at the lower end of the connecting port, a ventilation inner pipe is dissolved in the breathing mask shell, and the ventilation inner pipe is connected with the connecting port;

wherein, the inflatable bag is provided with anti-skid lines.

When the patient is not easy to carry out artificial respiration, the patient who is suffocated due to the cardiology disease is flatly placed, then the shell of the breathing mask is placed at the mouth and nose, the inlet pipe is inserted into the mouth, then the inflatable bag is pressed, the air inlet inhales air, and the first-aid operation of air delivery is carried out on the patient; the air outlet pressure of the air supply pipe can be detected and displayed through the pressure gauge, the pressing pressure degree can be conveniently adjusted, and the injury to a patient caused by over-strong force can be prevented; wherein, the inflatable bag is provided with anti-slip lines to prevent the hands from sliding.

Furthermore, a nasal cavity vent is arranged at the upper end of the shell of the breathing mask, supporting plates are welded on two sides of the shell of the breathing mask in a welding mode, and a soft cushion is clamped at the end part of each supporting plate;

the supporting plates are welded on the two sides of the shell of the breathing mask, so that the supporting plates can support the mouth when sputum is sucked or breathing is assisted; and the pressure sore is prevented from appearing by arranging the cushion at the end part of the supporting plate.

Further, the inflatable bag is connected with a liquid suction pipe through an air supply pipe, the liquid suction pipe is connected with a sputum aspirator through threads, and the sputum aspirator is connected with a ventilation inner pipe in the shell of the breathing mask through an air suction pipe;

the lower end of the sputum aspirator is connected with a liquid collecting bottle through threads, two liquid blocking plates which are arranged in a staggered mode are glued at the upper end of the inner side of the sputum aspirator, and two inclined plates are glued at the inner side of the upper end of the liquid collecting bottle;

when the sputum of the throat of a patient needs to be sucked, the suction tube is inserted into the throat of the patient, the suction tube sucks the sputum of the throat by pressing the inflatable bag, and the sputum is sucked into the sputum aspirator, is blocked by the liquid blocking plate and flows into the liquid collecting bottle at the lower end; the inclined plate can prevent sputum from overflowing when the liquid collecting bottle shakes, and the suction pipe is blocked.

Further, the connecting port is connected with an oxygen straight cylinder through threads, and the oxygen straight cylinder is connected with the blowing nozzle; the lower end of the blowing nozzle is clamped with a filter screen, and the upper end of the blowing nozzle is stuck with a rubber ring.

When needing to carry out first aid on a patient in the cardiology department, the oxygen straight cylinder is connected with the connecting port to carry out artificial respiration first aid on the patient; the rubber ring is arranged on the blowing nozzle, so that air leakage is avoided; by arranging the filter screen, the infection of bacteria generated by patients and medical staff is avoided.

Drawings

Fig. 1 is a schematic structural view of an emergency device for cardiology department provided by an embodiment of the present invention.

Fig. 2 is a schematic structural view of a sputum aspirator provided by an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a shell of a respiratory mask according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a blowing nozzle provided by the embodiment of the present invention.

In the figure: 1. a pressure gauge; 2. an air-filled bag; 3. an air supply pipe; 4. a connecting port; 5. a ventilation inner tube; 6. a respiratory mask shell; 7. an inlet tube; 8. a nasal vent; 9. an air inlet; 10. an air intake duct; 11. a sputum aspirator; 12. a liquid collecting bottle; 13. a liquid baffle; 14. a pipette; 15. an inclined plate; 16. a threaded connector; 17. a support plate; 18. a blowing nozzle; 19. an oxygen cylinder; 20. a filter screen; 21. a rubber ring.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

In order to solve the above technical problem, the technical solution of the present invention is described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

The inflatable bag 2 is connected with the pressure gauge 1 through threads, the left end of the inflatable bag 2 is provided with an air inlet 9, and the air inlet 9 is embedded with a one-way valve.

The pressure gauge 1 is connected with a threaded connector 16 through an air supply pipe 3, and the threaded connector 16 is connected with a connector 4 through the air supply pipe 3.

The lower end of the connecting port 4 is provided with a breathing mask shell 6, a ventilation inner tube 5 is dissolved in the breathing mask shell 6, and the ventilation inner tube 5 is connected with the connecting port 4.

Wherein, the inflatable bag 2 is provided with anti-skid lines.

When the patient is not easy to carry out artificial respiration, the patient who is suffocated due to the cardiology disease is flatly placed, then the shell 6 of the breathing mask is placed at the mouth and nose, the inlet pipe 7 is inserted into the mouth, then the inflatable bag 2 is pressed, the air inlet 9 is used for inhaling, and the first-aid operation of air delivery is carried out on the patient; the air outlet pressure of the air supply pipe 3 can be detected and displayed through the pressure gauge 1, the pressing pressure degree can be conveniently adjusted, and the injury to a patient caused by over-strong force can be prevented; wherein, the inflatable bag 2 is provided with anti-slip lines to prevent the hands from sliding.

Example 2

The upper end of the breathing mask shell 6 is provided with a nasal cavity vent 8, two sides of the breathing mask shell 6 are welded with a support plate 17, and the end part of the support plate 17 is clamped with a soft pad.

The supporting plates 17 are welded on the two sides of the shell 6 of the breathing mask, so that the supporting plates 17 play a role in supporting the mouth during sputum suction or assisted respiration; and by providing a cushion at the end of the support plate 17, pressure sores are prevented.

Example 3

The air bag 2 is connected with a pipette 14 through an air supply pipe 3, the pipette 14 is connected with a sputum aspirator 11 through threads, and the sputum aspirator 11 is connected with a ventilation inner pipe 5 in a breathing mask shell 6 through an air suction pipe 10.

The lower end of the sputum aspirator 11 is connected with a liquid collecting bottle 12 through a thread, two liquid baffle plates 13 which are arranged in a staggered mode are glued to the upper end of the inner side of the sputum aspirator 11, and two inclined plates 15 are glued to the inner side of the upper end of the liquid collecting bottle 12.

When the sputum of the throat of a patient needs to be sucked, the pipette 14 is inserted into the throat of the patient, the sputum of the throat is sucked out by the pipette 14 by pressing the inflatable bag 2, and the sputum is sucked into the sputum aspirator 11 and blocked by the liquid baffle plate 13 and flows into the liquid collecting bottle 12 at the lower end; the inclined plate 15 can prevent the sputum from overflowing when the liquid collecting bottle 12 shakes, and the air suction pipe 10 is blocked.

Example 4

The connecting port 4 is connected with an oxygen straight cylinder 19 through threads, and the oxygen straight cylinder 19 is connected with a blowing nozzle 18; the lower end of the blowing nozzle 18 is clamped with a filter screen 20, and the upper end of the blowing nozzle 18 is stuck with a rubber ring 21.

When needing to carry out first aid on a patient in the department of cardiology, the oxygen straight cylinder 19 is connected with the connecting port 4 to carry out artificial respiration first aid on the patient; the rubber ring 21 is arranged on the blowing nozzle 18, so that air leakage is avoided; by providing the filter screen 20, the infection of the patient and the medical staff with bacteria is avoided.

When the utility model is used, firstly, a patient suffocated due to the cardiology diseases is kept flat, then the shell 6 of the breathing mask is placed at the mouth and nose, and the inlet pipe 7 is inserted into the mouth; then the inflatable bag 2 is pressed, the air inlet 9 inhales air, and the first-aid operation of air transmission is carried out on the patient; the pressure of giving vent to anger of 3 pipes can be detected through manometer 1 and show, and the convenient adjustment is according to the pressure degree, prevents to exert oneself too violently, causes the injury to patient.

When sputum deposits on the throat of a patient and affects respiration, the liquid suction pipe 14 is inserted into the throat of the patient, the liquid suction pipe 14 sucks out the sputum on the throat by pressing the inflatable bag 2, the sputum is sucked into the sputum aspirator 11 and blocked by the liquid blocking plate 13, and the sputum flows into the liquid collecting bottle 12 at the lower end; the inclined plate 15 can prevent the sputum from overflowing when the liquid collecting bottle 12 shakes, and the air suction pipe 10 is blocked.

When needing to carry out artificial respiration first aid on a patient in the cardiology department, the oxygen straight cylinder 19 is connected with the connecting port 4 to carry out artificial respiration first aid on the patient; the rubber ring 21 is arranged on the blowing nozzle 18, so that air leakage is avoided; by providing the filter screen 20, the infection of the patient and the medical staff with bacteria is avoided.

This novel intracardiac branch of academic or vocational study first aid device application method is simple to portable collects breathe out assistor and sputum aspirator in an organic whole, and the people that can effectual help lack first aid knowledge carries out the first aid to the patient that leads to suffocation because of the intracardiac branch of academic or vocational study disease, suitable extensive popularization.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all the modifications and equivalents of the technical spirit of the present invention to any simple modifications of the above embodiments are within the scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a intracardiac branch of academic or vocational study first aid device which characterized in that, intracardiac branch of academic or vocational study first aid device is provided with:

an air-filled bag;

the inflatable bag is connected with the pressure gauge through threads, the left end of the inflatable bag is provided with an air inlet, and a one-way valve is embedded on the air inlet;

the pressure gauge is connected with the threaded connector through the air supply pipe, and the threaded connector is connected with the connector through the air supply pipe;

the lower end of the connecting port is provided with a breathing mask shell, a ventilation inner pipe is dissolved in the breathing mask shell, and the ventilation inner pipe is connected with the connecting port.

2. The emergency device for cardiology department of claim 1, wherein the upper end of the respiratory mask shell is provided with a nasal vent, support plates are welded to both sides of the respiratory mask shell, and a cushion is fastened to the end of the support plates.

3. The emergency device for cardiology department of claim 1, wherein the balloon is connected to a pipette through an air supply tube, the pipette is connected to a sputum aspirator through a screw thread, and the sputum aspirator is connected to a ventilation tube in a shell of a respiratory mask through an air suction tube;

the lower end of the sputum aspirator is connected with a liquid collecting bottle through threads, two liquid blocking plates which are arranged in a staggered mode are glued to the upper end of the inner side of the sputum aspirator, and two inclined plates are glued to the inner side of the upper end of the liquid collecting bottle.

4. The emergency device for cardiology department of claim 1, wherein the connection port is connected to an oxygen cylinder by a screw thread, the oxygen cylinder being connected to a mouthpiece; the lower end of the blowing nozzle is clamped with a filter screen, and the upper end of the blowing nozzle is stuck with a rubber ring.

5. The emergency device for cardiology department of claim 1, wherein the balloon has anti-slip lines.

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