KR20060113051A - Artificial resuscitative apparatus - Google Patents

Abstract

An artificial resuscitation equipment is provided to supply an oxygen to an emergent patient having difficulty in breathing by achieving the easy carrying property and the usability in case of emergency, and to allow the semi-permanent characteristic through the re-chargeability. The artificial resuscitation equipment comprises: a cylindrical case(10), storing an oxygen of a high pressure; an oxygen discharging device(50), connected to one end of the cylindrical case(10); an oxygen charging device(90), connected to the other end of the cylindrical case(10); and an oxygen mask, to which the oxygen, discharged from the oxygen discharging device(50), is supplied through a connection hose. The oxygen discharging device(50) includes: a discharging stopper(20); a pushing member, longitudinally slid in a going and returning manner; a cylinder(30), having a cylinder hole; a flow-rate control pin(35); a first elastic member(36); a screw member(37); and a nozzle member(40).

Description

Artificial resuscitative apparatus

The following drawings attached to this specification are illustrative of preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to

1 is a view showing an artificial resuscitator according to a preferred embodiment of the present invention.

Figure 2 is an exploded perspective view showing an oxygen cylinder according to a preferred embodiment of the present invention.

3 is a cross-sectional view showing an artificial resuscitator according to a preferred embodiment of the present invention.

4 is a view showing a structure in which the discharge portion of the oxygen cylinder in accordance with a preferred embodiment of the present invention is sealed.

5 is a view showing a structure in which the discharge portion of the oxygen cylinder according to a preferred embodiment of the present invention is opened.

6 is a view showing a sealed structure of the charging portion of the oxygen cylinder according to a preferred embodiment of the present invention.

7 is a view showing a structure in which the charging portion of the oxygen cylinder according to an embodiment of the present invention is opened.

<Explanation of symbols for the main parts of the drawings>

Cylindrical case: 10 outlet stopper: 20

Button: 25 Cylinder: 30

Flow control pin: 35 First elastic member: 36

Thread member: 37 Nozzle member: 40

Oxygen outlet: 50 filling stopper: 60

Filling Bolt: 70 Filling Nut: 71

Second elastic member: 80 O-ring: 95

Pressure gauge: 97 Oxygen filling part: 90

Oxygen Tank: 100 Oxygen Mask: 200

Hose: 300 Artificial Resuscitation: 400

The present invention relates to an artificial resuscitation, and more particularly, to an artificial resuscitation capable of providing oxygen to an emergency patient having difficulty breathing in an emergency by being made compact and easy to carry at any time.

If a person continues to be apnea for more than 4 to 5 minutes or suffers from hypoventilation due to paralysis of the respiratory center due to taking a large amount of hypnotic drugs, and falls into severe hypoxia, irreversible brain damage will be inevitable, so breathing stops or severe low Rapidly providing oxygen to a patient in ventilation is of paramount importance.

In addition, most of the personnel accidents that occur when an accident such as fire is caused by toxic gas, not by fire. Statistics show that over 60% of deaths from fire are asphyxiation by gas and smoke, and only about 20% are burned. Therefore, it is possible to prevent tissue hypoxia and to save lives by supplying oxygen with equipment that can supply oxygen to patients during evacuation time so that people exposed to oxygen deficiency or toxic gas choking due to fire can escape from danger. The oxygen supply equipment is very useful in an emergency.

Accordingly, various artificial resuscitators have been developed for the above purpose, but most of them are bulky and can be stored in a specific place, which is inconvenient to carry. In addition, there was a problem in that it is not refilled to be disposed of in single use or to replace the container itself.

The present invention has been devised to solve the above problems, it is possible to provide oxygen to emergency patients who are difficult to breathe in an emergency situation by being made compact so that it can be used at any time in case of emergency, can be charged semi-permanent The purpose is to provide an artificial resuscitator usable as.

Artificial resuscitator according to the present invention to achieve the above object, a cylindrical case for storing high pressure oxygen, oxygen discharge portion is coupled to one end of the case, oxygen charging portion is coupled to the other end of the case, and the connection hose An oxygen mask is supplied through the oxygen discharged from the oxygen discharge portion through, the oxygen discharge portion, the upper through hole and the lower through hole is formed through the partition therein, the partition wall discharge hole for discharging the oxygen A discharge stopper having a discharge member inserted into the upper through hole to selectively reciprocally slide in the longitudinal direction by applying pressure in the partition wall direction to discharge the oxygen, and a cylinder hole inserted into the lower through hole to discharge the oxygen A cylinder having a, to be inserted into the cylinder hole to control the discharge flow rate of the oxygen Is installed on one end of the flow rate control pin, the flow control pin is screwed to the first elastic member, the lower through hole to elastically bias the flow control pin toward the pressing member so that the flow rate control of the flow control pin, A screw member having a threaded hole for inserting the first elastic member and discharging the oxygen, and a nozzle member coupled to one side of the case and having a nozzle hole for discharging the oxygen to the outside; The charging unit includes a charging stopper having a charging hole for charging oxygen in the case, a charging bolt inserted into the charging hole and reciprocally sliding in a longitudinal direction, and screwed to the charging bolt to fix the charging bolt and store the stored oxygen. The filling nut to prevent the outside from going out, and the filling nut And a second elastic member for elastically biasing the filling bolt to closely contact the filling stopper.

Preferably, the cylinder, threaded portion, and filling nut fit an O-ring on the outer surface to maintain airtightness.

More preferably, the artificial resuscitator further includes a pressure gauge installed at one side of the discharge stopper to display the oxygen pressure inside the case.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to 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.

1 to 3 is a view showing the configuration of the artificial resuscitator according to a preferred embodiment of the present invention. Referring to the drawings, the artificial resuscitator 400 of the present invention connects an oxygen cylinder 100 for storing oxygen, an oxygen mask 200 for breathing oxygen, and an oxygen cylinder 100 and an oxygen mask 200. And a hose 300.

The oxygen cylinder 100 includes a cylindrical case 10, an oxygen discharge unit 50 for discharging oxygen in the case, and an oxygen charging unit 90 for charging oxygen.

The case is a cylindrical sealed container for storing gas oxygen compressed at high pressure. The amount of oxygen in the case can be used for about 5 minutes and is enough to evacuate to a safe area in case of fire or other danger. Here, since oxygen stored in the case is used for medical purposes, it is preferable to laser coat the inside of the case for sanitary treatment.

The oxygen discharge unit 50 is a discharge stopper 20 coupled to one end of the case, a pressing member 26 inserted into the discharge stopper 20 to reciprocally slide, and a cylinder 30 installed inside the discharge stopper 20. , A flow control pin 35 for controlling the flow rate while reciprocating sliding in the cylinder 30, a first elastic member 36 for elastically biasing the flow control pin, and a screw member to which the first elastic member 36 is fitted and fixed 37, a nozzle member 40 through which oxygen inside the case is discharged to the outside.

The discharge plug 20 is screwed to one end of the case to seal one end of the case as a whole. The discharge stopper 20 has a through hole formed therein for selectively discharging oxygen in the case. 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 24 has a discharge hole 21 through which the oxygen inside the case exits 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 plug 20 is formed with holes on one side so that the nozzle member 40 and the pressure gauge 97 are coupled to each other. 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. When the pressing member 26 is pressed downward, oxygen inside the 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 high pressure oxygen in the case 100. 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 a cylinder hole 31 for discharging oxygen in the case 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 control pin 35 is fitted to the cylinder ball, the cylinder hole 31 is blocked so that oxygen in the case is not discharged. On the contrary, in the state where the flow rate control pin 35 is pressed by the pressing member 26 and lowered to the lower portion, a gap is formed in the cylinder hole 31 so that the high pressure oxygen in the case 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, the flow control pin 35 is elastically biased so that the lower portion of the flow control pin 35 can block the cylinder 30 ball so that oxygen in the case is not discharged.

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

The nozzle member 40 is screwed to one side of the case and has a nozzle hole 41 for discharging oxygen to the outside.

The oxygen charging unit 90 is a charging stopper 60 having a charging hole 61 to charge oxygen in the case, a charging bolt 70 fitted into the charging hole 61, and a charging bolt 70 in the case. And a second elastic member 80 installed between the filling nut 70 and the filling bolt 70, which is screwed with the filling nut 70, and positioned between the filling bolt 70 and the filling stopper 60.

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

The charging bolt 70 is fitted into the charging hole 61 in the inner direction from the outside of the case, and can slide up and down. Since the charging bolt 70 has a smaller diameter than the charging hole 61, a gap is formed between the charging hole 61 and the outer surface of the charging bolt 70 so as to charge oxygen.

The filling nut 71 is screwed with the filling bolt 70 in the case serves 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 charging bolt 70 and positioned between the charging bolt 70 and the charging stopper 60 to elastically bias the charging bolt 70. When the charging bolt 70 is elastically biased, the filling nut 71 screwed with the filling bolt 70 closes the filling hole 61 to prevent oxygen in the case 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 is dropped from the filling stopper 60, thereby filling the filling nut 71 and the filling stopper 60. There is a gap to fill the oxygen between the).

The oxygen mask 200 is used in close contact with the mouth of a gastrointestinal or patient to supply oxygen, and the inside of the oxygen mask 200 has a structure in which oxygen of the oxygen cylinder 100 and normal air in the air are mixed. The percentage of oxygen entering the oxygen mask 200 varies depending on the type of oxygen mask 200 used depending on the situation.

The hose 300 connects the oxygen discharge unit 50 and the oxygen mask 200 of the oxygen cylinder 100 so that the oxygen discharged from the oxygen discharge unit 50 of the oxygen cylinder 100 moves to the oxygen mask 200. .

This will be described the operation of the artificial resuscitator according to a preferred embodiment of the present invention having the configuration as described above.

First, a process of discharging oxygen from the oxygen tank of the artificial resuscitator, as shown in FIGS. 4 and 5, pressurizes the button 25 protruding outward from one side of the oxygen cylinder 100 to the inside of the oxygen cylinder 100. 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, after the high-pressure oxygen inside the case escapes into this gap, it moves 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 open the hose 300. The ride is discharged into the mask.

Meanwhile, the used oxygen cylinder 100 may be recharged and used again. As shown in FIGS. 6 and 7, oxygen charging the charging bolt 70 inserted into the charging hole 61 of the charging stopper 60 is performed. By using an apparatus (not shown) to push up the oxygen cylinder 100 inwardly, a gap is formed between the filling nut 71 coupled to the filling bolt 70 and the inside of the case. At this time, the oxygen filling device is filled with high-pressure oxygen into the gap.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

According to the artificial resuscitator of the present invention, the size is relatively small compared to the oxygen tank of the general artificial resuscitator and is easy to carry in case of emergency distress. In addition, the artificial resuscitator of the present invention is provided with a charging unit can be used semi-permanently by charging when the oxygen falls.

Claims (3)

A cylindrical case for storing high pressure oxygen; An oxygen outlet coupled to one end of the case; An oxygen charging unit coupled to the other end of the case; And And an oxygen mask to which oxygen discharged from the oxygen discharge unit is supplied through a connection hose. The oxygen discharge unit, An upper through hole and a lower through hole are formed therebetween, and the partition includes: a discharge stopper having a discharge hole for discharging the oxygen; A pressing member inserted into the upper through hole to selectively reciprocate in the longitudinal direction by selectively applying pressure in the partition wall direction to discharge the oxygen; A cylinder having a cylinder hole inserted into the lower through hole and discharging the oxygen; A flow rate control pin inserted in the cylinder hole to control a flow rate of the oxygen discharge; A first elastic member installed at one end of the flow control pin so as to elastically bias the flow control pin toward the pressing member to control the flow rate of the flow control pin; A screw member screwed to the lower through hole, the screw member having a threaded hole for fitting the first elastic member and discharging the oxygen; And A nozzle member coupled to one side of the case and having a nozzle hole for discharging the oxygen to the outside; The oxygen charging unit, A filling stopper having a filling hole for filling oxygen in the case; A charging bolt inserted into the charging hole and capable of reciprocating in a longitudinal direction; A filling nut screwed to the filling bolt to fix the filling bolt and to prevent the stored oxygen from going out; And And a second elastic member fitted to the filling bolt to elastically bias the filling bolt to closely adhere the filling nut to the filling stopper. The method of claim 1, And the cylinder, the threaded portion, and the filling nut are fitted with an O-ring on the outer surface to maintain airtightness. The method according to claim 1 or 2, And a pressure gauge installed at one side of the discharge stopper to display the oxygen pressure inside the case.

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