KR101222684B1 - Inhaler for emergency rescue - Google Patents

Abstract

The present invention relates to an emergency rescue respirator capable of providing oxygen or air to an emergency patient having difficulty breathing in an emergency situation, the emergency rescue respirator according to the present invention, any one of oxygen, air, or a mixture of oxygen and air Pipe-shaped storage case for storing the as a filler; A filler discharge part coupled to one end of the storage case; Filler filling portion coupled to the other end of the storage case; And a mask part directly connected to the filler discharge part and closely attached to the periphery of the respirator so that the filler discharged from the filler discharge part is injected through the respirator of the human body. Only while the filler inside the storage case is ejected to the outside of the storage case.

Description

Inhaler for emergency rescue

The present invention relates to an emergency rescue respirator, and more particularly, to an emergency rescue respirator that can be provided in a compact and easy to carry and can provide oxygen or air to emergency patients who have difficulty breathing in an emergency situation.

In general, a person may suffer from severe hypoxia if the patient continues to have an apnea for 4 to 5 minutes or longer, or a hypoventilation due to paralysis of the respiratory center due to taking a large amount of sleeping pills. In addition, since severe hypoxia causes irreversible brain damage, it is of utmost importance to provide oxygen quickly to patients with respiratory arrest or severe hypoventilation.

In addition, most of the casualties caused by accidents such as fires are due to toxic gas, not by fire. According to statistics, more than 60% of the deaths due to fire were asphyxiated by gas and smoke, and only about 20% were killed by burns. Therefore, it is possible to prevent oxygen hypoxia in body tissues by supplying oxygen to a person exposed to oxygen deficiency or toxic gas suffocation due to a fire or the like.

In addition, immediate supply of oxygen to soldiers who fall during training in the army will help to recover quickly to a normal physical condition and prevent loss of medical power.

Accordingly, a variety of emergency rescue respirators have been developed for the above purposes, but most of them are bulky and can be stored in a specific place, and are inconvenient to carry. In addition, there is a problem in that it is not refilled so that it is required to be discarded by one use or to replace the container itself.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and an object of the present invention is to provide an emergency rescue respirator that is compactly designed to be portable and can be used at any time in case of emergency.

In addition, an object of the present invention is to provide an emergency rescue respirator that can easily adjust the injection amount of the filler.

In addition, an object of the present invention is to provide an emergency rescue respirator that can be charged and used semi-permanently.

It is also an object of the present invention to provide an emergency rescue respirator in which the inner surface of the storage case storing the filler is not corroded.

It is also an object of the present invention to provide an emergency rescue respirator capable of easily injecting oxygen or air to a patient who is unable to breathe on his own.

Emergency rescue respirator according to a preferred embodiment of the present invention to achieve the above object, a pipe-shaped storage case for storing any one of oxygen, air, or a mixture of oxygen and air as a filler; A filler discharge part coupled to one end of the storage case; Filler filling portion coupled to the other end of the storage case; And a mask part directly connected to the filler discharge part and closely attached to the periphery of the respirator so that the filler discharged from the filler discharge part is injected through the respirator of the human body. Only while the filler inside the storage case is ejected to the outside of the storage case.

Preferably, at least one of the storage case and the filler discharge part is provided with a pressure gauge for measuring the pressure inside the storage case.

Preferably, the filler contains a phytoncide component.

Preferably, the inner surface of the storage case is lacquered.

Preferably, when the external button is pressed, the filler inside the storage case is discharged to the outside of the storage case at a predetermined pressure.

Preferably, the discharge pressure of the filler is 4kgf / cm ² ~ 10kgf / cm ² .

Preferably, by pressing the external button in a state in which the mask part is in close contact with the respirator, the internal pressure of the mask part is increased, and thus the filler may be supplied to the lung of an unconscious patient.

The present invention has the following effects.

First, since it is made to be compact and easy to carry, it can always be used in case of emergency.

Second, since the injection amount of the filler is constant, the injection amount of the filler can be easily adjusted.

Third, it is possible to charge the oxygen or air has a semi-permanent life.

Fourth, the inner surface of the storage case for storing the filler is an environmentally friendly anti-corrosion coating, the filler can be kept clean.

Fifth, the magnetic inhalation can be induced by injecting oxygen or air to the patient unable to breathe by magnetic force.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given above, serve to further the understanding of the technical idea of the invention, And should not be construed as interpretation.
1 is a view showing an emergency rescue respirator according to a preferred embodiment of the present invention.
Figure 2 is an exploded perspective view of the emergency rescue respirator of the present invention.
3 is a longitudinal sectional view of an exploded state of the emergency rescue respirator of the present invention.
4 is a view showing a state in which the filler filling part of the present invention is sealed.
5 is a view showing a state in which the filler filling part of the present invention is opened.
6 is a view showing a state that the filler is not ejected from the inside of the emergency rescue respirator of the present invention.
7 is a view showing a state that the filler is ejected from the inside of the emergency rescue respirator of the present invention.

Hereinafter, an emergency rescue respirator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

In the drawings, the size of each component or a specific portion constituting the components is exaggerated, omitted, or schematically illustrated for convenience and clarity of description. Therefore, the size of each component does not entirely reflect the actual size. In the following description, it is to be understood that the detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view showing an emergency rescue respirator 400 according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view of the emergency rescue respirator 400 of the present invention, Figure 3 is an emergency rescue respirator 400 of the present invention Is a longitudinal cross-sectional view of the disassembled state.

Referring to the drawings, the emergency rescue respirator 400 of the present invention includes a filler reservoir (100) for storing the filler, the mask unit 200 for injecting the filler into the respirator of the human body.

The filler reservoir 100 includes a storage case 10, a filler discharge part 50 for discharging the filler in the storage case, and a filler filler 90 for filling the filler.

The storage case 10 is an airtight container for storing any one of oxygen, air, or a mixture of oxygen and air, compressed at high pressure, as a filler. The oxygen in the filler here can be adjusted at a rate of 30% to 100%. In some cases, the filler may contain phytoncide as well as oxygen and air. Phytoncide is a substance that plants exhale or secrete to resist pathogens, pests, and fungi. Its main components are terpenes, phenol compounds, alkaloids, and glycosides. Phytoncide has a variety of effects such as cardiopulmonary function enhancement, sedative action, bactericidal action, so that it can be supplied to the human body with higher quality fillers. On the other hand, the filler is filled in the storage case 10 at a high pressure of 200 kgf / cm ² ~ 300 kgf / cm ² .

The storage case 10 is preferably formed in a circular pipe shape so that a part of the inner surface thereof is not subjected to concentrated pressure from the filled filler. However, if the thickness and rigidity of the storage case 10 is reinforced, the storage case 10 may take the shape of a hexahedron or other polyhedron with an empty interior.

The filling material in the storage case 10 is about 5 minutes usable and is sufficient to evacuate to a safe area in case of a dangerous situation such as a fire. Here, the filling material stored in the storage case 10 should be kept in a clean state, so that the inner surface of the storage case 10 is preferably coated with an anti-corrosion coating. Conventional anti-corrosion coating is achieved by coating a metal that is not easily oxidized by oxygen inside the storage case 10.

When coating in this manner, corrosion inside the storage case 10 may be prevented, but toxic substances such as formaldehyde used during the coating process of the metal may be discharged from the metal coating film for a long time. Due to this, there is a problem in that the toxic substance is mixed into the filler in the storage case 10, and the patient having difficulty breathing inhales the toxic substance together with the filler.

In order to fundamentally prevent this problem, the present invention employs lacquer coating as an anti-corrosion coating. After the lacquer is applied to the inner surface of the storage case 10 and the heat is applied to the storage case 10 for about 1 hour at a temperature of about 60 ℃ the lacquer is completely cured. Lacquer is a natural substance and does not emit toxic substances. The characteristic of lacquer which causes skin allergy is solved by heat curing process. In addition, since the toxic waste is not generated during the lacquer coating process, the anti-corrosive coating process itself is also advantageous in that it is eco-friendly.

According to the present invention, the filling material stored in the storage case 10 is kept in a state surrounded by lacquer coating, thereby maintaining a clean state for a long time.

The filler discharge part 50 is discharge plug 20 is coupled to one end of the storage case, the discharge plug cover 28 is coupled while covering the discharge plug 20 in the downward direction from the top of the discharge plug 20 , A press member 26 inserted into the discharge stopper 20 and reciprocally sliding, a spring connected to the upper protruding portion of the press member 26, and interposed between the spring and a lower surface of the discharge stopper cover 28. Flow rate while reciprocating sliding in the hinge 25, the outer button 27 screwed into the protrusion formed with a thread on the upper hinge 25, the cylinder 30 installed in the discharge stopper 20, the cylinder 30 Flow control pin 35 for controlling the control, the first elastic member 36 for elastically biasing the flow control pin, the screw member 37 to which the first elastic member 36 is fitted and fixed, the filling material inside the storage case is external It comprises a nozzle member 40 discharged to.

The discharge stopper 20 is screwed to one end of the storage case to seal one end of the storage case 10 as a whole. The discharge stopper 20 has a through hole formed therein to selectively discharge the filler in the storage case 10. The through hole is divided into the upper through hole 22 and the lower through hole 23 due to the partition wall 24 formed in the discharge plug 20. The partition wall 24 has a discharge hole 21 for filling the inside of the storage case into the upper through hole 22 through the lower through hole 23. In addition, the O-ring 95 is preferably fitted to the outer surface for the airtightness of the discharge plug 20. In addition, the discharge stopper 20 has holes formed at one side thereof so that the nozzle member 40 and the pressure gauge 97 are coupled to each other. Discharge stopper 20 is covered with a discharge stopper cover 28, a hole is formed in each side so that the nozzle member 40 and the pressure gauge 97 is also coupled to the discharge stopper cover 28. This point will be described later.

The pressing member 26 is inserted into the upper through hole 22 so as to slide up and down. As the pressing member 26 is pressed downward, the filler in the storage case is discharged through the discharge hole 21. The space between the pressing member 26 and the partition wall 24 serves as a pressure reducing chamber that lowers the pressure when discharging the high pressure filler in the storage case 100. And the filling material depressurized in this space is discharged to the discharge pressure of 4kgf / cm ² ~ 10kgf / cm ² through the nozzle hole (41).

 Preferably, the O-ring 95 is fitted to the outer surface of the pressing member 26 for the airtightness of the pressing member 26 for closing the upper through hole 22.

The cylinder 30 is installed in the lower through hole 23 and the cylinder hole 31 for discharging the filler in the storage case 10 is formed therein. In addition, the O-ring 95 is preferably fitted to the outer surface of the cylinder 30 for the airtightness of the cylinder 30 for sealing the lower through hole 23.

The flow control pin 35 is fitted to the cylinder 30 to control the flow rate by sliding up and down. The upper portion of the flow control pin 35 has a smaller diameter and the lower portion has a relatively larger diameter than the upper portion. In the state where the lower portion of the flow rate control pin 35 is fitted into the cylinder hole 31, the filler in the storage case 10 is not discharged because the cylinder hole 31 is blocked. On the contrary, in the state where the flow rate control pin 35 is pressed by the pressing member 26 and lowered downward, a gap is formed in the cylinder hole 31, so that the high-pressure filler in the storage case 10 is discharged.

For example, the first elastic member 36 is coupled to surround the flow control pin 35 to elastically bias the flow control pin 35. That is, in order to prevent the filling material in the storage case from being discharged, the flow control pin 35 is elastically biased so that the lower portion of the flow control pin 35 can block the cylinder hole 31.

The screw member 37 is screwed into the lower through hole 23 and a screw hole 38 for discharging oxygen in the storage case is formed. The screw hole 38 is fitted with a first elastic member 36 for elastically biasing the flow control pin 35.

The nozzle member 40 is inserted into two holes in a state in which the centers of the holes formed on one side of the discharge stopper cover 28 and the holes formed on one side of the discharge stopper 20 are matched, and formed on one side of the discharge stopper 20. It is screwed into the hole. The nozzle member 40 has a nozzle hole 41 for discharging the filler to the outside.

The pressure gauge 97 is inserted into the two holes in a state in which the centers of the holes formed on the other side of the discharge stopper cover 28 and the holes formed on the other side of the discharge stopper 20 coincide with each other.

It is screwed with a hole formed on the other side of the discharge plug 20. Although the drawing shows that the nozzle member 40 and the pressure gauge 97 are formed opposite to each other, it is not necessary. In addition, the pressure measuring device 97 may be installed at any one of the storage case 10 or the filler discharge part 50.

The pressure measuring unit 97 communicates with the inside of the storage case 10 and the pressure measuring tube 96. Since the pressure inside the storage case 10 and the pressure on the conduit of the pressure measuring tube 96 are the same, the pressure measuring unit ( 97, a pressure equal to the pressure inside the storage case 10 is applied. As the pressure measuring device 97, various types of measuring devices, such as a gauge method or a digital method, may be adopted.

4 is a view showing a state in which the filler filling unit 90 of the present invention is closed, Figure 5 is a view showing a state in which the filler filling unit 90 of the present invention is opened.

4 and 5, the filler filling part 90 is inserted into the filling plug 60 and the filling hole 61 having the filling hole 61 to fill the filling material in the storage case 10. Filling bolt 70, the filling nut 71 is screwed with the filling bolt 70 in the storage case, the second installed in the filling bolt 70 is located between the filling bolt 70 and the filling plug 60 An elastic member 80 is included.

The filling stopper 60 is screwed to the other side of the storage case 10 to seal the other side of the storage case 10 as a whole, the filling hole 61 for filling the filler with a filler filling device (not shown) is formed It is. Preferably, the o-ring 95 is fitted to the outer surface of the filling stopper 60 for the airtightness of the filling stopper 60.

The filling bolt 70 is fitted into the filling hole 61 in the inner direction from the outside of the storage case 10, and can slide up and down. The filling bolt 70 has a smaller diameter than the filling hole 61, so that a gap is formed between the filling hole 61 and the outer surface of the filling bolt 70 so as to fill the filling material.

The filling nut 71 is screwed with the filling bolt 70 in the storage case to serve to seal the filling stopper 60. O-ring 95 is preferably fitted to the outer surface of the filling nut 71 for the airtightness of the filling nut 71 for sealing the filling plug 60.

The second elastic member 80 is inserted between the filling bolt 70 and positioned between the filling bolt 70 and the filling stopper 60 to elastically bias the filling bolt 70. When the filling bolt 70 is elastically biased, the filling nut 71 screwed with the filling bolt 70 seals the filling hole 61 to prevent the filling material in the storage case 10 from escaping to the outside. On the contrary, when the filling bolt 70 slides upward while overcoming the elastic force of the second elastic member 80, the filling nut 71 falls from the filling plug 60 so that the filling nut 71 and the filling stopper 60 are separated. There is a gap for filling the filler.

The mask part 200 is in close contact with the patient's respirator to supply the filler and is fitted to the nozzle member 40 of the filler discharge part 50. Since it is directly connected to the nozzle member 40, the risk of leakage on the line through which the filler material is discharged is significantly reduced. The contact portion around the nose may be formed to be somewhat concave in order to prevent the filler from leaking through the gap between the ball and the jaw during the process of injecting the filler into the human body by bringing the mask part 200 close to the nose and mouth of the patient. have. In addition, it is preferably formed of a flexible material, for example, may be formed of a silicon material.

Then, the operation of the emergency rescue respirator according to a preferred embodiment of the present invention having the configuration as described above will be described.

6 is a view showing a state in which the filler is not ejected from the inside of the emergency rescue ventilator of the present invention, Figure 7 is a view showing a state in which the filler is ejected from the inside of the emergency rescue ventilator of the present invention.

First, a process of discharging the filler from the emergency rescue respirator, as shown in FIGS. 6 and 7, when the external button 27 is pressed, the hinge 25 and the spring connected thereto are moved downwards, and then the pressing member ( 26) is pressed downward. As the pressing member 26 is slid downward, the flow control pin 35 is moved downward while overcoming the elastic force of the first elastic member 36 so that a gap is formed in the discharge hole 21. At this time, the high-pressure filler inside the storage case is discharged into this gap and then moved to the space between the pressing member 26 and the partition wall 24, and exits the nozzle hole 41 of the nozzle member 40 to provide a mask portion 200. To be discharged.

Only while the outer button 27 is pressed, the filler inside the storage case 10 is ejected to the outside of the storage case 10, and the filler is discharged at a predetermined discharge pressure of 4 kgf / cm ² to 10 kgf / cm ² . 41) exit. When the mask unit 200 is in close contact with the patient's respirator and the external button 27 is pressed, the internal pressure of the mask unit 200 is gradually increased.

When the internal pressure of the mask unit 200 rises to 10 kgf / cm ² or more, the filler may be injected to the lungs through the respiratory system of the patient even if the patient is unconscious. When the mask unit 200 is in close contact with the patient's respirator and the external button 27 is pressed, the pressure of the mask unit 200 rises to 10 kgf / cm ² or more within a very short time, and the external button 27 is approximately 3 seconds long. Press) to inject the optimal volume of filler into the body. However, the time for pressing the external button 27 according to the age, sex, and lung capacity of each may be appropriately adjusted around 3 seconds.

On the other hand, the spent filler storage container 100 can be recharged and used again, as shown in Figure 4 and 5, the filler filling the filling bolt 70 inserted into the filling hole 61 of the filling stopper 60 By using a filling device (not shown) to push up the filling material storage container 100 inwards, a gap occurs between the filling nut 71 coupled to the filling bolt 70 and the inside of the storage case. At this time, the high-pressure filler is filled into the gap by the filler filling device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

10: storage case 20: discharge cap
22: upper through hole 23: lower through hole
24: bulkhead 25: the hinge
26: pressing member 27: external button
28: discharge cap cover 30: cylinder
31: cylinder hole 35: flow control pin
36: first elastic member 37: screw member
38: screw hole 40: nozzle member
41: nozzle hole 50: filling material discharge part
60: filling stopper 61: filling hole
70: filling bolt 71: filling nut
80: second elastic member 90: filler filling part
95: O-ring 97: pressure gauge
100: filling reservoir 200: mask portion
400: emergency rescue respirator

Claims (7)

A pipe-shaped storage case for storing any one of oxygen, air, or a mixture of oxygen and air as a filler;
A filler discharge part coupled to one end of the storage case;
Filler filling portion coupled to the other end of the storage case; And
And a mask part connected directly to the filler discharge part and being in close contact with the periphery of the respirator so that the filler discharged from the filler discharge part is injected through the human respirator.
The emergency rescue respirator, characterized in that the filling material in the storage case is ejected to the outside of the storage case only while pressing the external button installed in the filler discharge portion. The method of claim 1,
At least one of the storage case and the filler discharge portion emergency rescue respirator, characterized in that the pressure measuring device for measuring the pressure inside the storage case is installed. The method of claim 1,
The filler is an emergency rescue respirator, characterized in that it contains a phytoncide component. The method of claim 1,
Emergency inner respirator, characterized in that the inner surface of the storage case is lacquer coated. The method of claim 1,
Pressing the external button emergency rescue respirator, characterized in that the filling material is discharged to the outside of the storage case at a predetermined pressure. The method of claim 5,
Discharge pressure of the filler is an emergency rescue respirator, characterized in that 4kgf / cm ² ~ 10kgf / cm ² . The method of claim 5,
The emergency rescue respirator, characterized in that by pressing the external button in the mask portion in close contact with the respirator to increase the internal pressure of the mask portion, the filler can be supplied to the lungs of the unconscious patient.

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