KR102099217B1 - Respiratory rescue equipment with a pleasant environment at the interior space for the sickest patients and babies - Google Patents

Abstract

The present invention relates to a respiratory rescue equipment with a pleasant environment in an inner space for serious patients and infants, which is able to allow serious patients and infants to comfortably breath when dealing with an emergency. The respiratory rescue equipment comprises: an accommodation unit including a sealable opening unit and an accommodation space arranged inside; a purification unit arranged inside the accommodation unit and including a carbon filter which removes carbon dioxide and moisture mixed in the air discharged by breathing, and a discharge hole which discharges the air removed by the carbon filter; a flow generation unit causing an air flow towards the discharge hole of the purification unit and driven by a switch arranged on the outside of the accommodation unit; and an oxygen supply unit comprising an oxygen storage container which supplies oxygen to an oxygen supply pipe extended to the accommodation space, and a pressure-reducing means which reduces the pressure of oxygen discharged from the oxygen storage container.

Description

Respiratory rescue equipment for severe patients and infants with a comfortable environment in the interior space {RESPIRATORY RESCUE EQUIPMENT WITH A PLEASANT ENVIRONMENT AT THE INTERIOR SPACE FOR THE SICKEST PATIENTS AND BABIES}

The present invention relates to a respiratory and rescue equipment for severe patients and infants in which a comfortable environment is created in the interior space, and more specifically, an interior accommodation space is provided, and a means for supplying oxygen to the interior accommodation space is provided. The entire body of a person with a small physique, such as a newborn baby or an infant, can be safely transported in the event of a fire, and an opening sized to accommodate an adult head can be formed on the side of the inner storage space, so that the head of a serious patient when transporting a serious patient Is to be accommodated in the interior accommodation space to supply oxygen smoothly, and by adding an oxygen tank and a device capable of purifying carbon dioxide generated during a user's breathing process, a more comfortable and sufficient supply of oxygen can be made. Respiratory rescue equipment for severely ill patients and infants with a pleasant environment in the interior space .

According to the Fire Statistical Yearbook provided by the Ministry of Public Safety and Security, the number of fires has increased to over 3,500 in the last five years, and as of 2017, a high rate of 44,178 fires has occurred, and the number of fires in the future is expected to reach 50,000. Doing. These fires are causing significant damage to people as well as property, of which more than 60% of deaths are caused by suffocation.

In order to prevent such suffocation, public facilities such as companies and schools provide education on how to evacuate fires. In addition, tools to prevent suffocation, such as gas masks, are provided in each facility as a means to prevent suffocation in the event of a fire. Is provided.

Prior art related to this is Korean Patent Registration No. 10-0896414, 'Anti-gas Mask for Evacuation of Fire', and the prior art is a primary breathing means and oxygen, which allows the mask to breathe purified air through an air purification filter. It is related to anti-gas masks that are supplied and have secondary breathing means to enable rebreathing, respectively, and selectively use primary and secondary breathing means according to the on-site environment where the fire occurred. , It is a technology that has the effect of re-breathing by purifying carbon dioxide with a filter.

However, the prior art is a cleansing cylinder type gas mask, and is manufactured to fit an adult's face size. When a newborn baby or an infant wears a cleansing cylinder type gas mask like the above-mentioned prior art, the size does not match, thereby creating a gap between the face and the gas mask. There is a fatal problem that can inhale.

In addition, in order to use the gas mask of the prior art, in which carbon dioxide is purified through a filter and can be re-breathed as a secondary breathing means, the inhalation force of a normal adult is required, but inhalation of newborns, infants, and severe patients is weak. It is difficult to completely inhale the purified air due to breathing resistance, and as a result, the amount of oxygen absorbed into the body is reduced, thereby causing a danger to life.

In addition, due to the characteristics of the refining cylinder type gas mask, carbon dioxide generated in the breathing process must be discharged with exhalation. In the case of newborns, infants, and severely ill patients who have low exhalation, they may not properly discharge carbon dioxide when wearing the refining cylinder type gas mask, which may cause breathing difficulties There is a problem.

KR 10-0896414 B1

The present invention has been devised to solve the above problems, and the object of the present invention is that a newborn, an infant, a disabled person, or a patient with a weak breathing ability can cope with emergency situations while breathing comfortably under conditions similar to the atmospheric environment. The aim is to provide respiratory and rescue equipment for severely ill patients and infants with a pleasant environment in the space.

Another object of the present invention is to further configure a device capable of purifying water and carbon dioxide generated during a user's breathing process along with an oxygen tank, and purifying and discharging water and carbon dioxide to provide a more comfortable and sufficient supply of oxygen. The aim is to provide respiratory and rescue equipment for severely ill patients and infants with a pleasant environment in the interior space.

According to a feature for achieving the above object, the present invention relates to a respirator for severe patients and infants with a pleasant environment in the interior space, a receptacle having a sealable opening and an accommodation space provided therein; A purification unit disposed inside the accommodating portion and having a carbon filter for removing carbon dioxide and moisture mixed in air discharged by breathing and a discharge hole for discharging air removed by the carbon filter; A flow generating unit that causes air flow to the discharge hole of the purification unit and is driven by a switch provided outside the receiving unit; It includes; an oxygen storage unit for supplying oxygen to the oxygen supply pipe extending to the receiving space, and an oxygen supply unit consisting of a decompression means for depressurizing the pressure of oxygen discharged from the oxygen storage container.

At this time, the opening is made of a first opening having a structure in which three surfaces are opened by the detachable means at the upper end of the receiving part, and the opening is formed by a second opening in which three surfaces are opened by the detachable means at the side of the receiving part. , It is disposed inward than the second opening, it is composed of a contact portion having elasticity that can be in close contact with the circumference of the neck while allowing the human head to pass therein.

In addition, the flow generating unit further includes an operation fan driven according to the on / off of the switch, and a battery supplying power to the operation fan.

In addition, the decompression means, the first groove portion to which the inlet of the oxygen storage container is inserted and coupled to one side, and a longitudinal through hole connected to the other side while being coaxially arranged with the first groove, and vertically aligned with the longitudinal hole A body having a transverse hole communicating therewith, and a second groove portion and a third groove portion formed to be secured so that an oxygen supply pipe and a pressure gauge are respectively mounted at one end and the other end of the transverse hole; A support portion mounted at an entrance of the longitudinal through hole at one side of the body and having a through hole formed centrally; One end is slidably configured in the interior of the longitudinal hole, the other end is extended to the other side of the body connecting rod exposed; The rear end is mounted on the connecting rod, and the front end is arranged to be able to move forward and backward when it passes through the through hole of the support portion. One end is supported by the support and the other end is supported by the connecting rod is contracted in accordance with the advance of the connecting rod coil spring to exert a restoring force to return to the original position; includes.

At this time, the other end of the connecting rod is equipped with a handle portion having a relatively expanded area relative to the connecting rod to reduce the pressure per unit area for hitting, between the first groove and the support and the other side of the body Silicone packing is mounted on one side of the longitudinal hole.

According to the respiratory and rescue equipment for severe patients and infants in which a comfortable environment is created in the interior space of the present invention, people with small heights, such as newborns and infants, are allowed to receive the entire body in an interior accommodation space provided with an oxygen supply device, or interior accommodation An opening is formed so that a body part of adolescents or adults can be inserted on a side of the space, and when a serious patient who is adolescent or adult is transported in a fire scene, a body part in which a respiration action of a severe patient is made is accommodated in the opening, so that the newborn or infant And it has the advantage of being able to provide continuous and smooth oxygen supply to the severe patient under the same conditions as breathing in the atmospheric environment.

In addition, according to the present invention, there is an effect that can protect the body from hot heat or sharp obstacles by receiving and transporting the newborn and the infant in the internal storage space.

In addition, according to the present invention, in addition to an oxygen supply device, a device capable of purifying water and carbon dioxide generated during a user's breathing process is additionally configured to purify and discharge water and carbon dioxide, thereby providing a more comfortable and sufficient supply of oxygen. There is an advantage.

1 is a perspective view showing a respiratory and rescue equipment for severe patients and infants according to the present invention,
Figure 2 is a perspective view showing that the second opening of the respiratory and rescue equipment for severe patients and infants according to the present invention,
3 is a perspective view showing a purification unit and a flow generation unit according to the present invention,
Figure 4 is an exploded perspective view showing an exploded state of the purification unit and the flow generation unit according to the present invention,
5 is a perspective view showing an oxygen supply unit according to the present invention,
Figure 6 is a longitudinal cross-sectional view showing the assembled state of the pressure reducing means according to the present invention in cross section,
Figure 7 is a longitudinal cross-sectional view showing an exploded state of the pressure reducing means according to the invention in cross section,
Figure 8 is an enlarged view showing an enlarged mounting state of the pressure reducing bolt according to the present invention,
Figure 9 is an embodiment showing a state carried out by receiving an infant according to the present invention,
10 is an exemplary view showing a state in which an adult is accommodated according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the respiratory and rescue equipment for severe patients and infants with a comfortable environment in the interior space according to the present invention.

1 is a perspective view showing a respiratory and rescue equipment for severe patients and infants according to the present invention, Figure 2 is a perspective view showing a second opening of the respiratory and rescue equipment for severe patients and infants according to the present invention , FIG. 3 is a perspective view showing a purification unit and a flow generation unit according to the present invention, FIG. 4 is an exploded perspective view showing an purification state and a flow generation unit according to the present invention, and FIG. 5 is an oxygen supply according to the present invention Fig. 6 is a longitudinal sectional view showing the assembled state of the decompression means according to the invention in cross section, and Fig. 7 is a longitudinal sectional view showing the exploded state of the decompression means according to the present invention in cross section, Fig. 8 Is an enlarged view showing an enlarged state of the pressure reducing bolt according to the present invention, FIG. 9 is an embodiment showing a state in which an infant is accommodated according to the present invention, and FIG. 10 is an adult according to the present invention. It is subjected to conditions as the embodiment shown Fig.

As shown, the present invention relates to a respiratory and rescue equipment for severe patients and infants in which a pleasant environment is created in the interior space, largely a receiving unit 10, a purification unit 20, a flow generation unit 30 and an oxygen supply unit ( 40).

First, the receiving portion 10 is accommodated in order to safely protect and transport the newborn or infant (hereinafter referred to as an 'infant' in the event of a fire, the infant includes both newborn and infant in the present invention) from exposure to toxic gases. Space, and the receiving part 10 is made of a transparent material to continuously observe the state of the infant being transported, and the receiving part 10 is damaged during transport due to heat and sharp obstacles caused by fire. It is preferably made of a material that can be prevented.

And as shown in Figures 1 to 2, the upper surface of the receiving portion 10 is formed with a first opening 11a to receive and open and close the infant, wherein the infant is quickly and smoothly To be accommodated, the first opening 11a is formed in a structure in which three sides are opened by a detachable means.

As the detachable means, a means such as a zipper or a Velcro may be used, and any means capable of preventing the entry and exit of toxic gases may be used.

In addition, the accommodating unit 10 includes adults, disabled, adolescents and children (hereinafter referred to as 'severe patients') belonging to the life-risk group including severely ill patients, and includes both severely ill patients, adults with disabilities and people with disabilities in the present invention. ) Is also configured to be used. That is, by forming a second opening (11b) of a size capable of receiving a part of the body of the severe patient, in particular, the head portion of the respiratory action is formed on the side of the receiving portion 10, the head of the severe patient is accommodated Oxygen may be supplied by being accommodated in the portion 10.

At this time, if only the second opening 11b is formed to accommodate the head of the severe patient, the toxic gas is free to enter and the severe patient can still be exposed directly to the toxic gas. The contact portion 12 disposed inside the opening 11b is additionally configured.

Since the contact portion 12 is stretchable and free to stretch and shrink, it is stretched to the maximum size to accommodate the patient's head, and then reduced to the size of the neck around the neck by using the shrinking property. (12) is completely in contact with the neck, preventing the entry of toxic gases.

In addition, in order to solve a portion in which the space of the accommodating portion 10 is narrowed due to the adhering portion 12 disposed inside the second opening 11b, the corner portion and the adhering portion ( 12) a zipper is further configured inside the receiving part 10 at a position where it is formed, so that it can be configured to be detachable if necessary.

Next, the purification unit 20 and the flow generation unit 30 to remove the carbon dioxide and moisture generated by the user's breath inside the receiving portion 10, and discharge the air from which the carbon dioxide and moisture is removed by a forced circulation method ) Is provided, and the oxygen supply unit 40 for supplying oxygen is further provided.

First, as illustrated in FIGS. 3 to 4, the purification unit 20 and the flow generation unit 30 are assembled to serve as a single device. A carbon filter 21 that removes carbon dioxide and moisture emitted by the user's breath is mounted, and on one side, a suction hole 22 for inhaling carbon dioxide and moisture generated by the user's breath, and the carbon filter on the other side ( It consists of a discharge hole 23 through which the air filtered by 21) is discharged.

At this time, in order to inhale the user's breath into the purification unit 20, a device is required to circulate forcibly to discharge the purified air, and as the device, the flow generation unit 30 is used. A communication hole is formed in one upper surface of the flow generating part 30 to communicate with the discharge hole 23 of the purification part 20, and an air discharge hole 34 through which purified air is discharged is further formed on the side surface. have.

In addition, an operation fan 32 for forced circulation is further mounted in the flow generation unit 30, and a battery through an electric wire to the outside of the flow generation unit 30 to operate the operation fan 32 ( 33) and the switch 31 are further configured. The flow generating unit 30 rotates the operation fan 32 to induce air containing carbon dioxide and moisture into the purification unit 20, and discharges the purified air through the air discharge hole 34 It plays a role.

In the accommodating portion 10, the purifying portion 20 and the flow generating portion 30 are provided to provide purified air and an oxygen supply portion 40 that continuously supplies oxygen for smooth breathing of the user. It is additionally configured.

The oxygen supply unit 40 is largely composed of three components: an oxygen storage container 41, a decompression means 42, and an oxygen supply pipe 43. First, the oxygen storage container 41 is a device in which oxygen is stored. , At the entrance of the oxygen storage container 41, a membrane having a strength sufficient to generate a hole by external force is formed primarily by a sharp device, and secondly, the entrance of the oxygen storage container 41 is internally The receiving stopper is further formed and sealed.

The oxygen storage container 41 is accommodated and coupled to the decompression means 42 with the stopper removed, and the detailed configuration of the decompression means 42 is as follows.

The decompression means 42 is largely composed of a body 50, a support 60, a connecting rod 70, a striking needle 80 and a coil spring 90, as shown in Figures 5 to 8, first , On one side of the body 50, the first groove portion 51, which is a receiving portion 10 for receiving the oxygen storage container 41, is formed as described above, and the inner surface of the first groove portion 51 is formed. In the screw thread is formed to be coupled to the oxygen storage container 41 in a screwed manner.

And inside the body 50 is formed on the same axis as the first groove portion 51, and connected to the first groove portion 51, the longitudinal hole 52 formed in communication with the other side of the body 50 In the center of the body 50 with respect to the longitudinal direction, a transverse hole 53 communicating with the longitudinal hole 52 in the vertical direction is further formed.

At this time, the longitudinal hole 52 is not completely communicated with the other side of the body 50, but is communicated from the other side of the body 50 to a distance intended by the designer.

In addition, the transverse hole 53 is communicated with the longitudinal hole 52, is symmetrical with respect to the longitudinal hole 52, is formed at both ends of the longitudinal hole 52, the decompression bolt (B) to be described below In order to be coupled, a thread is formed on the inner surface of the transverse hole 53.

In addition, a second groove 55 having a thread is formed to mount the pressure gauge 54 and the oxygen supply pipe 43 together with the longitudinal through hole 52 and the transverse through hole 53 in a threaded manner, and A third groove 56 is formed in communication with the transverse hole 53 formed at both ends based on the longitudinal hole 52, and is arranged on the same axis as the longitudinal hole 52 to form the longitudinal hole 52 ) And the body (50) is communicated to the other side of the connecting rod (70) so that a portion of the rod (52a) is further formed to be exposed outside the body (50).

According to the body 50 made of the above-described shape, hereinafter, all components constituting the pressure reducing means 42 coupled to the body 50 will be described in the order in which they are combined.

 First, the connecting rod 70 is formed on the same axis as the first cylinder 71 and the first cylinder 71 formed at the lower end in a size slidable within the longitudinal through hole 52, and the rod through hole 52a ) Is a shape that is further protruded to a diameter of a size that can pass through the second cylinder 72 formed on the upper end of the first cylinder 71. At this time, a screw line is formed at the end of the second cylinder 72 to be coupled to the handle portion 57 by a screwing method, and the striking needle 80 is coupled to the bottom surface of the first cylinder 71. For the needle coupling hole 73 is formed.

Before receiving the connecting rod 70 into the longitudinal hole 52, the second cylinder 72 of the connecting rod 70 is inserted into and coupled to the silicone packing 100 in which the through hole 100a is formed. The coupling rod 70 coupled with the silicon packing 100 and the striking needle 80 is coupled to accommodate the striking needle 80 to the needle coupling hole 73 formed on the bottom surface of the first cylinder 71. ) Is finally received into the longitudinal hole (52). At this time, the connecting rod 70 is accommodated and a part of the second cylinder 72 is exposed while passing through the through-hole 52a, and then comes out to the outside. At this time, the handle portion 57 is the second cylinder. Through the screw line formed in the (72) it is coupled by a screw coupling method.

Next, a coil spring 90 having a maximum diameter within a range that does not interfere with compression and relaxation is inserted in the longitudinal hole 52, wherein the striking needle 80 is inserted into the coil spring 90. Insert it in an acceptable way.

In addition, since the coil spring 90 has an elastic force that varies depending on the thickness and the number of windings, the connecting rod 70 is contracted as the force is applied and the connecting rod 70 is contracted as it moves forward so that the connecting rod 70 can return to its original position. It is desirable to be designed to the extent that it can exhibit resilient power.

After inserting the coil spring (90), the coil spring (90) acts as a support so that compression is possible, and at the same time, the striking needle (80) advancing together as the connecting rod (70) moves forward is straight without shaking. The support portion 60 to guide the movement is coupled.

At this time, the outer surface of the support portion 60 is formed with a screw thread to be coupled to the screw thread formed at the inlet of the longitudinal through hole 52, the penetration needle 61 is formed so that the hitting needle 80 can pass through It is done.

 After the support portion 60 is mounted, the oxygen storage container 41 is mounted. In this case, discharged from the oxygen storage container 41 through a fine gap between the support part 60 and the oxygen storage container 41 The oxygen to be leaked to the outside, to prevent this, the silicon through which the through hole (100a) is formed between the inlet of the first groove portion (51) and the longitudinal through hole (52) in which the oxygen storage container (41) is mounted By forming an additional packing groove 101 so that the packing 100 is mounted, the silicon packing 100 is mounted on the packing groove 101, and as the oxygen storage container 41 is gradually mounted, the silicon packing 100 ) Is more firmly mounted while compressing, and this mounting configuration prevents oxygen from leaking.

Next, the pressure reducing bolt (B), the pressure gauge (54) and the oxygen supply pipe (43) attached to each of the transverse hole (53), the second groove portion (55), and the third groove portion (56) will be described.

First, the pressure reducing bolt (B) is mounted on the transverse hole (53), and an allen groove (A) for mounting allen is formed on one surface of the pressure reducing bolt (B), and a driver groove for mounting with a screwdriver is provided. It may be formed. Mounting the decompression bolt (B) in the decompression means 42 is a core content of oxygen decompression, which is the reason, as illustrated in FIG. 8, the decompression bolt (B) mounted in the transverse hole (53) ) Is smaller than the size of the inner diameter and the diameter of the screw thread formed in the transverse hole 53, and separation occurs, and by flowing oxygen into the space, the oxygen storage container 41 By lowering the relatively high pressure of the oxygen emitted from it, the user is continuously supplied with oxygen for a long time.

At this time, the size of the spaced space is preferably designed to a size that can be discharged at 0.65ℓ / min so that a large amount of oxygen can be initially supplied to facilitate the initial breathing that the user initially breathes. .

In addition, by adjusting the size of the decompression bolt (B) in consideration of the oxygen pressure stored in the oxygen storage container 41 and the volume of the internal receiving space to be supplied with oxygen, the amount of oxygen discharged can be adjusted as necessary. have.

Next, the pressure gauge 54 and the oxygen supply pipe 43 are mounted in each of the second groove portion 55 and the third groove portion 56, and the pressure gauge 54 is oxygen discharged past the pressure reducing bolt B. It is used for the purpose of checking the pressure. At this time, the pressure gauge 54 is coupled to one of the second groove portion 55 and the third groove portion 56 in a screwed manner, and measures the pressure of oxygen by receiving oxygen discharged into the pressure reducing bolt (B). In order to make the inner receiving space of a larger diameter than the diameter of the longitudinal through hole 52 is formed.

Similarly, in the oxygen supply pipe 43, an inner receiving space having a diameter larger than the diameter of the longitudinal through hole 52 is formed, and the oxygen decompressed by the decompression bolt B along the receiving portion along the oxygen supply pipe 43 Since it is supplied to (10), it is preferable that the interior accommodation space is designed to be completely in communication.

In conclusion, the effects obtained according to the configuration of the present invention are as follows.

It has the advantage of controlling the amount of oxygen and the duration of discharge suitable for the user in a simple and innovative manner using the size adjustment of the vertical through hole 52 and the pressure reducing bolt B rather than the electric control method.

In addition, by using the purification unit 20 and the flow generation unit 30, the carbon dioxide and moisture generated in the receiving unit 10 by the user's breath to be accommodated into the purification unit 20 in a forced circulation method Since it is purified and supplied to the user in a manner that discharges the purified air again, there is an effect that can contribute to forming the inner space of the accommodating portion 10 in a pleasant environment together with the oxygen supplying portion 40.

In addition, as the most important effect in the present invention, when using the present invention, infants and patients who are unreasonable to use the gas mask currently provided in each facility can be safely transported. In other words, because infants are more fatal to toxic gases than adults, they also have weak breathing and are easily exposed to toxic gases due to gaps when wearing regular adult gas masks, so that infants can be accommodated in the receiving part 10 and completely removed from toxic gases. It is possible to supply sufficient oxygen by being blocked, and in the case of a patient, breathing is weaker than that of a healthy general person, so it is difficult to discharge carbon dioxide generated in the gas mask. , Since the patient's head is accommodated into the receiving portion 10 and is cut off from the external toxic gas by the contact portion 12, sufficient oxygen supply can be made, and thus there is an advantage of removing the above-mentioned risk factors.

Hereinafter, a procedure in which the present invention is used in the event of a fire will be described.

First, in the event of a fire, the oxygen filled in the oxygen storage container 41 by applying an external force to the handle portion 57 of the oxygen supply portion 40 formed outside the receiving portion 10 is the receiving portion 10 In order to flow therein, the purification unit 20 and the flow generation unit 30 provided inside the receiving unit 10 are operated by pressing the switch 31.

Next, in the case of an infant, the first opening 11a formed on the upper surface of the receiving portion 10 is opened to be accommodated in the receiving portion 10, and the first opening 11a is closed and transported again.

In addition, in the case of adolescents or adults who are severely ill, the second opening 11b formed on the side of the receiving portion 10 rather than the upper surface is opened, and the contact portion 12 formed inside the second opening 11b is opened. Expanded so that the head of the severe patient is accommodated, and when fully accommodated to the vicinity of the neck of the severe patient, the expanded contact portion 12 is reduced to be transported by being completely in close contact with the neck of the severe patient.

As described above, the rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various modifications and adaptations are possible within the scope of the rights described in the claims by those skilled in the art. It is obvious that you can do it.

10: receiving portion 11: opening 11a: the first opening
11b: second opening 12: close contact
20: purification unit 21: carbon filter 22: suction hole
23: vent hole
30: flow generating unit 31: switch 32: operating fan
33: battery 34: air exhaust hole
40: oxygen supply unit 41: oxygen storage container 42: decompression means
43: oxygen supply pipe
50: body 51: first groove 52: longitudinal hole
53: transverse hole 54: pressure gauge
55: second groove 56: third groove
57: handle portion 52a: through-hole
60: support 61: acupuncture
70: connecting rod 71: first cylinder 72: second cylinder
73: needle bonding hole
80: hitting needle
90: coil spring
100: silicone packing 101: packing groove 100a: through hole
B: Pressure reducing bolt A: Allen Home

Claims (7)

A receiving portion 10 having an opening 11 that can be closed and having a receiving space therein;
A carbon filter 21 disposed inside the accommodating portion 10 to remove carbon dioxide and moisture mixed in air discharged by breathing and an exhaust hole discharging air removed by the carbon filter 21 ( 22) the purification unit 20 is formed;
A flow generating unit 30 that induces air flow to the discharge hole 22 of the purification unit 20 and is driven by a switch 31 provided outside the receiving unit 10;
An oxygen supply unit (40) comprising an oxygen storage container (41) for supplying oxygen to the oxygen supply pipe (43) extending into the accommodation space, and a decompression means (42) for reducing the pressure of oxygen discharged from the oxygen storage container; Including,
The opening 11 has a first opening 11a having a structure in which three surfaces are opened by the detachable means at the upper end of the receiving part, and three surfaces at the side of the receiving part 10 are opened by the detachable means. Characterized in that it consists of two openings (11b) and an elastic contact portion (12) that is disposed inward than the second opening (11b) so that a human head can pass through and adhere to the neck area. Breathing and rescue equipment for severely ill patients and infants with a pleasant environment in the interior space. delete delete According to claim 1,
The flow generator 30 is characterized in that it further comprises an operation fan 32 driven according to the on / off of the switch 31 and a battery 33 supplying power to the operation fan 32. Breathing and rescue equipment for severely ill patients and infants with a pleasant environment in the interior space. According to claim 1,
The decompression means 42,
The first groove portion 51 to which the inlet of the oxygen storage container 41 is inserted and coupled to one side, and the longitudinal hole 52 connected to the other side while being coaxially arranged with the first groove portion 51, and the longitudinal barrel A second transverse hole (53) which is arranged in a vertical direction with the ball (52) and communicates with each other, and is formed to be secured so that the oxygen supply pipe (43) and the pressure gauge (54) are mounted at one end and the other end of the transverse hole (53). A body 50 having a groove portion 55 and a third groove portion 56;
A support portion 60 mounted at an entrance of the longitudinal through hole 52 at one side of the body and having a through hole 61 in the center;
One end is configured to be slidable inside the longitudinal through hole 52, the other end is extended to the other side of the body 50, the connecting rod 70 is exposed;
The rear end is mounted on the connecting rod 70 and the front end is arranged to be able to move back and forth when passing through the through hole 61 of the support part 60, thereby hitting the needle to open the inlet of the oxygen storage container 42 by a blow ( 80);
One end is supported by the support portion 60, the other end is supported by the connecting rod 70, contracted according to the advancement of the connecting rod 70, the coil spring to exert a restoring force so that the connecting rod 70 can return to its original position ( 90); breathing and rescue equipment for severe patients and infants with a comfortable environment in the interior space characterized in that it comprises a. The method of claim 5,
Pleasant to the interior space, characterized in that the other end of the connecting rod (70) is equipped with a handle portion (100) having a relatively expanded area relative to the connecting rod (70) in order to reduce the pressure per unit area for striking. Breathing and rescue equipment for severely ill patients and infants with an environment. The method of claim 5,
Silicone packing 110 between the first groove portion 44 and the support portion 60 and on the other side of the body 50 is mounted on one surface of the longitudinal hole 52 and the through hole 100a is formed centrally. Breathing and rescue equipment for severely ill patients and infants with a pleasant environment in the interior space characterized by including.

Images