KR200465483Y1 - Goods for disaster preparation - Google Patents

Abstract

The present invention relates to a disaster response article that can be used for breathing difficulties, suffocation prevention, safe evacuation, etc. in an emergency such as a fire or toxic gas is released.
In the present invention, the appearance of the disaster response article has an elliptical ball shape such as a rugby ball, so that when it is discharged from the disaster response supplies storage device, it is distributed in an irregular direction to prevent the user's compaction in an emergency situation. Make it easy to grab at a close distance without moving a long distance.
In addition, the shell forming the appearance of the disaster response article has an elasticity to be implemented to bounce when hit the object to be moved and distributed to a farther distance.
In addition, in the present invention, when implemented in the form of a portable oxygen respirator, the face is provided in close contact with the face portion of the human body, the inside of the face contact portion of the nose insertion space where the nose of the human body and the mouth position where the mouth of the human body is located By forming a space to be separated from each other to prevent the inhalation of carbon dioxide discharged from the user's mouth again, to prevent the toxic gas from entering through the nose or mouth, and to enable rapid use even in emergency situations.

Description

Distributed disaster response supplies for emergencies {GOODS FOR DISASTER PREPARATION}

The present invention relates to a disaster response article that can be used for breathing difficulties, suffocation prevention, safe evacuation, etc. in an emergency such as a fire or toxic gas is released.

Subway stations and large public facilities are equipped with disaster preparedness to minimize human injury in the event of a disaster such as fire or toxic gas leakage.

Representative of such disaster response article is a portable oxygen respirator.

As an example of the oxygen respirator, generally, the oxygen respirator is mainly used for smoothly supplying oxygen in a situation where it is difficult to supply smooth oxygen.

Such oxygen respirators may be used in hospitals, used for underwater activities such as scuba diving, or used to prevent asphyxiation at fire sites.

Most of the conventional oxygen respirator has been implemented in the form having a large-capacity oxygen storage tank and the oxygen intake body to be in close contact with the human body or to water in the mouth so as to receive the oxygen of the oxygen storage tank.

However, portable fire respirators have been devised because fire escape sites and toxic gas leak sites require rapid evacuation and smooth supply of oxygen to minimize the risk of asphyxiation.

In particular, it is known that the main cause of human injury at the site of fire is not as a fire, but asphyxiation due to toxic gas or smoke, and gas masks have difficulty in wearing and have problems with safety. The importance of the respiratory system is being emphasized more.

The portable oxygen respirator was implemented in a form having an oxygen charging space in which oxygen is charged at a high pressure higher than atmospheric pressure and an oxygen intake unit capable of sucking the charged oxygen.

Korean Utility Model Model No. 0318438, Korean Patent Registration No. 0794801, and Korean Patent Application No. 10-2008-0100372 are presented for a portable oxygen respirator.

Various types of disaster countermeasures have been developed for minimizing human injury in disaster situations, such as portable oxygen respirators, and storage devices for disaster countermeasures, which have disaster countermeasures in place where disasters can occur, have been developed. There are significant difficulties in use in disaster situations and unrealistic problems.

Specifically, the conventional disaster response supplies storage device is a form that is simply to store the disaster response supplies, the disaster response supplies are portable, but only a form that is stored in the disaster response supplies storage device disaster response supplies in the event of a disaster Those who wanted to use it had to move to the place where the disaster response supplies storage device was located and take out the storage device after opening or closing or destroying it.

It was hard to expect the effect because it did not take into account the reality that most users do not act reasonably in the event of a disaster.

In other words, in the event of a disaster, it is very difficult to identify the location of the disaster response storage device, and even if it is located, it is not easy to approach for use for various reasons, such as the dispatch of people due to a large number of people. Even if the user approaches the place where the disaster response supplies storage device is located, it is difficult to take out the disaster response supplies from the disaster response supplies storage device, and even if it is taken out, it cannot be escaped by the crowds that are pushed out, but rather isolated or crushed. As a result, it was difficult to expect the effect.

On the other hand, the conventional portable oxygen respirator that can be used in a disaster situation, such as carbon dioxide discharged through the user's nose or mouth is structured to be sucked back into the human body, or toxic gas can be sucked through the mouth or nose, etc. Due to the structure, there was a problem that the effect for preventing asphyxiation did not meet expectations.

In addition, the complexity of use has made it difficult to use quickly in an emergency situation.

In addition, there is a considerable amount of smoke in the fire, such as the presence of a portable oxygen respirator in the presence of such a situation was difficult to find the effect of emergency provision was not met.

The present invention is intended to solve the above problems, and more specifically, when it is discharged in the form of pouring down from the storage device for disaster response supplies in an emergency disaster situation, it is distributed in an irregular direction so that the user can easily grasp and use it in an emergency situation. The purpose is to provide disaster relief supplies.

Another object is to provide a disaster response article that can be easily found and used in a space where smoke exists.

In addition, disaster response supplies are in the form of portable oxygen respirators, preventing the inhalation of carbon dioxide emitted from the user again, preventing toxic gases and fumes from entering the nose or mouth, and enabling rapid use even in emergency situations. There is also a purpose to provide.

In the present invention, the appearance of the disaster response article has an elliptical ball shape such as a rugby ball, so that when it is discharged from the disaster response supplies storage device, it is distributed in an irregular direction to prevent the user's compaction in an emergency situation. Make it easy to grab at a close distance without moving a long distance.

In addition, the shell forming the appearance of the disaster response article has an elasticity to be implemented to bounce when hit the object to be moved and distributed to a farther distance.

In addition, in the present invention, when implemented in the form of a portable oxygen respirator, the face is provided in close contact with the face portion of the human body, the inside of the face contact portion of the nose insertion space where the nose of the human body and the mouth position where the mouth of the human body is located By forming a space to be separated from each other to prevent the inhalation of carbon dioxide discharged from the user's mouth again, to prevent the toxic gas from entering through the nose or mouth, and to enable rapid use even in emergency situations.

In addition, the air in the mouth position space is discharged to the outside of the mouth position space and a check valve for preventing the outside air from entering the mouth position space to further inhale the carbon dioxide and the like discharged from the user's mouth and toxic gas The back is more surely prevented from being inhaled by the user.

The disaster response article of the present invention has an oval ball shape, such as a rugby ball, so that it can be distributed in an irregular direction when discharged from a disaster response device storage device. It can be easily grasped and used at a close distance without moving the distance, and has a feature that can prevent the user from dense.

In addition, when the envelope forming the appearance of the disaster response article has elasticity, when the disaster response article hits an object such as a building floor, it jumps and is distributed to a farther distance and is distributed.

In addition, the disaster response article of the present invention is in the form of a portable oxygen respirator provided with a face close contact with the face portion of the human body, the inside of the face contact portion is inserted into the nose of the human nose and the mouth of the mouth is located When the location space is formed, and the nose insertion space and the mouth location space is separated, the carbon dioxide discharged from the user's mouth is prevented from being sucked again, and the toxic gas is prevented from entering through the nose or the mouth. It can be used quickly even in dangerous situations.

In addition, if a check valve is provided to prevent the air from the inlet space from exiting the inlet space and prevent the outside air from entering the inlet space, the user may not breathe in case of a mistake or emergency Even if a mistake is made on how to spit out and inhale, the carbon dioxide emitted from the user's mouth is prevented from being sucked back to the user and toxic gas is certainly prevented from being sucked into the user.

In the present invention, the lamp is supplied with power to emit light; A battery for supplying power to the lamp; And a switch that supplies or cuts power to the lamp to the lamp but supplies a power of the battery to the lamp when an impact greater than the set value is applied while the power is not supplied. It is a feature that can quickly find and use disaster response supplies.

1 is a schematic cross-sectional view of a portable oxygen respirator of the present invention
Figure 2 is a schematic diagram showing the appearance of the portable oxygen respirator of the present invention
3 is an exploded perspective view of a portable oxygen respirator of the present invention
Figure 4 is a cross-sectional view for explaining a portable oxygen respirator of the present invention having a breath discharge tube
Figure 5 is a schematic diagram showing the use state of the portable oxygen respirator of the present invention having a fixed band
Figure 6 is a schematic cross-sectional view of another type of portable oxygen respirator of the present invention having a structure in which the nose insertion space and the mouth position space is in communication
7 is an image of a state where the disaster response supplies of the present invention stored in the disaster response supplies storage device are dispersed and discharged
Figure 8 is a schematic perspective view for explaining a disaster response supplies storage device is stored disaster response supplies of the present invention
Figure 9 is a schematic cross-sectional view for explaining a disaster response supplies storage device is stored disaster response supplies of the present invention
10 is a schematic view for explaining the article discharging means having a spring and the opening and closing unit in the disaster response article storage device is stored disaster response article of the present invention

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

However, the accompanying drawings are only illustrative examples for explaining the technical idea of the present invention in more detail, and therefore the technical idea of the present invention is not limited to the form of the attached drawings.

The present invention relates to a disaster response article that can be used for breathing difficulties, suffocation prevention, safe evacuation, etc. in an emergency such as a fire or toxic gas is released.

However, the present invention has an object of providing a disaster response supplies that can be easily grasped and used by the user in an emergency situation by distributing the disaster response supplies stored in the event of a disaster.

To this end, in the present invention, as shown in FIG. 1, the external appearance of the disaster response article has an oval ball shape.

This structure results in irregular sliding and rolling and moving away in an irregular direction when the disaster response article is moved toward the floor, slipped on the floor, or rolled from a point above the floor of the building.

This results in the fact that the disaster response supplies of the present invention are dispersed and placed in various directions, such as when the disaster response supplies stored in the event of a disaster situation are poured out at a high point while a plurality of disaster response supplies are provided. (See Figure 7)

In this case, it is possible to easily catch and use the disaster response supplies in the emergency fire situation or toxic gas leakage situation without the user dense problem in the near distance without moving a long distance.

The present invention has an elastic structure having the elasticity of the outer shell forming the outer shape (in the case of Figure 2 in the case of the oxygen-filled body and 10 and the cover of the cover shown in the reference numeral 20 may be referred to as the outer shell) Disaster response measures can also be implemented to bounce off objects.

That is, when a disaster situation occurs, the disaster response article of the present invention falls from a high place to a low place, and at this time, the disaster response article of the present invention collides with the floor of the building and bounces plumply, further away by elastic and irregular bounds. And to make it more wide and evenly distributed.

If the envelope forming the appearance of the disaster response article is implemented with a material having elasticity such as urethane, the disaster response article may be dispersed while venting through the impact hitting the object.

In this case, it is preferable to implement a thick outer shell (part of forming the outer shape of the oxygen-filling body 10 and the cover 20) as shown in Figure 6 so as to have excellent elastic force (see Figure 6).

Even if the disaster response supplies are located in the place where the fire has occurred, it is difficult to identify the location of the disaster response supplies when there is a difficulty in securing visibility due to the presence of a considerable amount of smoke in the fire occurrence place.

This results in a failure to fully function at the place where the fire occurs and the effect of preventing human accidents is less than expected.

In order to solve this problem, the light is emitted from the disaster response supplies to devise a structure that can easily find the location.

Specifically, it is provided with a lamp 71 for emitting power by receiving power to the disaster response article of the present invention.

Moreover, the battery 72 which supplies power to the said lamp 71 is provided.

In addition, when the power supply of the battery 72 is supplied to or cut off from the lamp 71, but a shock is applied to the lamp 71 when the shock is greater than the set value while the power is not supplied, the switch 73 supplies the power of the battery 72 to the lamp 71. ).

According to this configuration, in case of fire occurrence, the switch 73 is grounded when the disaster response article of the present invention is contained in a box or the like and hangs at a high place so that the switch 73 is grounded or impacted by pouring out of the box. ) While the power is supplied to the lamp 71 can be emitted.

Therefore, even in a space where smoke exists, the disaster response article of the present invention can be easily recognized and used through light.

The switch 73, which is grounded to supply power when subjected to an impact, is already well known and applied to various industrial fields, and may be modified and used in various forms, and thus a detailed description thereof will be omitted.

In the above structure, the lamp 71 may be implemented to continuously emit light or may be implemented to blink, but it is preferable to allow the lamp 71 to blink in consideration of being easily recognized by the user.

In addition, by applying a luminous paint or the like to the outside of the disaster response supplies or a luminous tape may be implemented so that the user can easily recognize the disaster response supplies in the dark.

Disaster response article of the present invention can be implemented in the form of a portable oxygen respirator.

In this case, a large amount of oxygen is configured to include an oxygen filling body 10 having an oxygen filling space 11 filled with a pressure higher than atmospheric pressure, and the user is gradually supplied with sacred oxygen filled in the oxygen filling space 11. Inhalation is possible.

However, there is a need to prevent the user from inhaling the carbon dioxide emitted from the user again, there is a need to prevent the toxic gas, etc. flowing through the nose or mouth, it is necessary to enable the rapid use even in emergency situations. .

For this purpose, in the implementation of the oxygen-filled body 10 has a face contact portion 12 in close contact with the face of the human body, the nose insertion space into which the nose of the human body is inserted inside the face contact portion 12 ( 13) and the mouth position space (14) where the mouth of the human body is located is formed separately, so that the oxygen filled in the oxygen filling space 11 is to be supplied to the nose insertion space (13).

In addition, the cover 20 is coupled to the oxygen-filled body 10 to protect the face contact portion 12 and the nose insertion space 13.

Since the oxygen-filled body 10 has a face contact part 12 which is in close contact with the face part of the human body and a nose and a mouth are positioned inside the face, the smoke or toxic gas outside the face contact part 12 is a face contact part ( 12) Since it does not flow inside, the user is prevented from inhaling smoke or toxic gas.

In addition, since the nose insertion space 13 and the mouth position space 14 is separated, the user may not inhale the carbon dioxide spit out by themselves.

In other words, if you breathe in through the nose and breathe out through the mouth, the user may not inhale the carbon dioxide emitted by themselves.

The structure as described above is ready for use only by contacting the face in close contact with the face 12 after removing the cover 20 can be used quickly even in emergency situations.

The cover 20 is for preventing the phenomenon that the face contact portion 12 and the nose insertion space 13 and the like of the oxygen filled body 10 is contaminated or broken.

When only the cover 20 is removed, it is preferable to immediately expose the face contact portion 12 to the outside.

Since the above-described face contact part 12 is made of rubber or silicone having elasticity, the structure of the face contact part 12 is already well known through various types of oxygen respirators and masks including conventional portable oxygen respirators. Detailed description of this part is omitted.

However, it is difficult to reliably prevent the carbon dioxide emitted by the user from being sucked back to the user by the above-described structure alone.

For this reason, it is preferable that a check valve 30 is further provided to prevent the air of the inlet space 14 from being discharged to the outside of the inlet space 14 and prevent the outside air from entering the inlet space 14. .

That is, in the situation where there is no check valve 30 as described above, only breathe through your nose and breathe out through your mouth, but should not breathe through your mouth.

This is because when the user inhales his breath, the user inhales the carbon dioxide emitted by the user.

In particular, in order for the sputtered carbon dioxide and the like to be smoothly discharged to the outside of the mouth position space 14, the mouth position space 14 should be able to communicate with the outside. Because it can be inhaled.

However, even if you have a portable oxygen respirator of the present invention in the event of a fire or a toxic gas leak, even if you know exactly how to use it may be embarrassing and unable to use it completely, in terms of psychology, The incidence rate is very high.

Therefore, it is desirable to have the check valve 30 described above.

If the check valve 30 is provided, it is safe even if the nose insertion space 13 and the mouth position space 14 is to communicate as shown in FIG.

Of course, on the path through which the nose insertion space 13 and the mouth position space 14 are communicated, the gas spited by the user is not moved to the nose insertion space 13, and oxygen in the nose insertion space 13 is the mouth position. There is a need to further provide a check valve 35 to be moved to the space 14.

From a psychological point of view, when a disaster situation occurs, it may be embarrassing to breathe through your nose instead of inhaling your breath. Can be secured.

Separating the cover 20 coupled to the above-described oxygen-filling body 10 may be implemented so that oxygen is naturally supplied to the nose insertion space 13 without a separate operation, the user is provided with a separate supply control means 40 When operating the supply control means 40 may be implemented to supply oxygen.

The supply control means 40 for controlling whether or not oxygen filled in the oxygen filling space 11 is supplied to the nose insertion space 13 can be implemented in various forms.

It may be implemented as in the form provided in the conventional portable oxygen respirator, or may be implemented in the form of a valve used in various industrial fields.

The accompanying drawings show a structure that can determine the supply of oxygen by rotating the handle (41a) located in the rear of the oxygen-filling body (10) to block or open the opening and closing portion (41b) of the valve.

As described above with reference to FIG. 3, the above-described mouth position space 14 may be embodied in a form in which a straw-type breath discharge tube 50 capable of watering the mouth is further provided.

That is, when the face contact part 12 is in close contact with the user's face, the user breathes through the breathing discharge pipe 50 in the mouth while inhaling the breath discharge tube 50 in the mouth. To spit out.

Also in this case, it is preferable to provide the check valve 30.

The larger the amount of oxygen filled in the oxygen filling space 11 described above, the longer the portable oxygen respirator of the present invention can be used.

However, the greater the amount of oxygen charged in the same space is forced to be filled with oxygen at a higher pressure of high pressure.

When the oxygen charged under high pressure is lowered to a level slightly higher than atmospheric pressure, the oxygen can be inhaled to allow the user to breathe smoothly.

To this end, the oxygen filling space 11 is located on the path where the oxygen filled in the nose insertion space 13 is supplied to the pressure lowering space 60 that lowers the pressure of the supplied oxygen, that is, to supply oxygen evenly and smoothly. A buffer space may be further provided.

As a way to lower the pressure, the supplied oxygen may be a wall of the object (pressure lowering space 60) of the pressure lowering space 60, or may be a dispersing protrusion 61 protruding as in the accompanying drawings. To disperse).

Air dispersed in the pressure lowering space 60 may be supplied to the nose insertion space 13 via a plurality of fine perforation holes 13a functioning as a diffusion membrane.

The portable oxygen respirator of the present invention can be implemented in a form that can be worn as shown in FIGS. 4 and 5 so that the portable oxygen respirator of the present invention can be used even if the user does not hold it continuously.

That is, the face contact portion 12 of the oxygen-filled body 10 is provided with a wearing means for maintaining a state in close contact with the face of the human body.

This wearing means may be implemented in the form of a fixing band 80 is fixed to the head of the human body in the state connected to the oxygen-filled body (10).

In the present invention, the cover 20 may be provided with a power supply means for supplying a lamp and power so that the cover 20 separated from the oxygen-filled body 10 can be used for the purpose of the fresh.

In this way, if the cover is to function as a flash, it is easy to secure the user's field of vision in a situation where the field of view is difficult due to mist or the like.

In the present invention, the oxygen charging body 10 may be further provided with an oxygen recharging means 90 to be able to recharge when the gas is exhausted.

The oxygen refill means 90 is provided with a check valve 91 for preventing the back flow of the gas to be filled.

In the present invention, it may be provided with a sensor for detecting the amount of oxygen charged and the means for displaying the amount of oxygen detected in the sensor so that the amount of oxygen filled in the oxygen filling space (11). )

Such display means may be in the form of having a screen for displaying in the form of a character or a picture, or may be implemented in the form of having a speaker for displaying the amount of oxygen detected by voice.

In the present invention, the cover 20 or the oxygen-filled body 10 may be implemented to receive radio waves transmitted from the situation room.

In this case, the oxygen-filled body 10 or the cover 20 is displayed to move away from or close to an evacuation site or an entrance, so that the disaster response device (oxygen respirator) of the present invention can be used in a dangerous situation such as a fire or toxic gas leakage. It may be possible to induce a smooth evacuation of the user.

Specifically, the cover 20 or the oxygen charging body 10 is provided with a flashing lamp and a controller for controlling the driving of the lamp is provided, the controller is the oxygen charging body 10 or the cover ( 20) may cause the lamp to flash when away from the evacuation site.

In addition, as the cover 20 or the oxygen-filled body 10 approaches the fire zone, it may be possible to induce the user to turn in the opposite direction as the lamp flashes rapidly.

In addition, when the cover 20 or the oxygen-filled body 10 is directed to an evacuation site or an entrance, the lamp may emit blue light, and when the cover 20 or the oxygen-filled body 10 is directed to the other direction, the lamp may emit red light.

By outputting the signal from the cover 20 or the oxygen-filled body 10, and receiving the output signal in the situation room or the like, it is possible to determine the location of the user who used the portable oxygen respirator of the present invention in the situation room. It is also possible to identify the location of a user who has not yet been evacuated or help rescue workers to respond quickly.

In Figure 1 attached, unlike in Figure 2, the appearance of the disaster response article is in the form of an oval ball, one of which is thinner and longer than the other.

This makes it easy to grip the disaster response supplies of the present invention in the form of an oval ball.

In other words, if you hold the elongated part can easily hold the disaster response supplies of the present invention with one hand.

In addition, the face contact portion 12 in the accompanying Figures 2 to 4 is formed with a diagonal line.

Since this structure can form a wider face contact portion 12 is very suitable in the present invention that the appearance is implemented in the form of an oval ball.

Disaster response supplies storage device for keeping the disaster response supplies of the present invention in the place where a disaster can occur, it is necessary to have a form that can discharge the disaster response supplies stored in the event of a disaster situation to the outside.

Hereinafter, such a disaster handling supplies storage device will be described in detail.

The disaster response article storage device has a housing 210, the housing 210 is implemented in the form having a product storage space 211 is stored disaster response article (100).

However, when a disaster situation occurs, it is necessary for a user to easily recognize and catch a disaster response article, so that a plurality of disaster response articles are stored in the article storage space 211 of the housing 210 and detected as a disaster situation. A plurality of disaster response supplies stored in the article storage space 211 is implemented to be discharged so as to be widely distributed in the space around the storage device (see Fig. 7).

Disaster response supplies storage device of the present invention for this purpose, has a disaster situation detection means 220 for detecting a disaster situation.

In addition, if it is detected that a disaster situation occurs by the disaster situation detection means 220, such as a fire sensor to discharge the disaster response supplies stored in the article storage space 211 to the outside to be distributed in a variety of directions It has a discharge means 230.

In other words, in the past, the user had to find and move to the place where the disaster response supplies storage device is located, and the disaster response supplies storage device of the present invention is automatically installed in the disaster response supplies storage device and near the storage device. It is to be distributed so as to be distributed in a wide distribution, and to facilitate the user to easily use the disaster response supplies scattered widely in many places.

If the disaster response supplies are located in various places, it is easy for users to recognize the location of the disaster response supplies, and many people can simultaneously catch and use the disaster response supplies without moving directly to the storage device. Discomfort that had to be taken out of the disaster response supplies directly from the storage device does not occur.

Disaster situation detection means 220 as described above can be implemented in various forms known in the art having a sensor that can detect various disaster conditions, such as a conventional fire detector, earthquake detector, toxic gas detector fire emergency bell ringing detector.

In addition, it may be implemented in a form having a wired or wireless signal receiver or a controller (such as a central processing unit of a computer or a controller of various electronic devices) capable of receiving a disaster situation signal from the outside.

The article discharging means 230, which is a component of the present invention, can be implemented in various forms.

As a specific example, the housing 210 has an article discharge port 212 through which the disaster response article is discharged, and the article discharging means 230 has an opening and closing unit 232 and an article storage space 211 for opening and closing the article storage space 211. When the c) is opened, the disaster response article stored in the article storage space 211 may be implemented to include a sliding portion 231 that slides down for discharge.

In other words, the stored disaster response article is to slide and move from a high place to a low place along the sliding part 231 to a far distance from the article discharge port 212 by the potential energy.

The article discharge port 212 may be implemented in the form of a plurality.

That is, the disaster response products are to be distributed in different directions as they roll in different directions.

The switch 232 in the above description may be implemented in various forms known in the art that can block or open a specific path such as a valve.

As another form of the article discharging means 230, it can be implemented so that the disaster response article is discharged by compressed air (not shown).

In the method of using compressed air, the source of compressed air may be a compressed air storage cylinder in which compressed air is stored, or may be in the form of a compressor that generates compressed air in real time.

In addition, the compressed air to be injected is injected in various directions, so that the stored disaster response article is discharged in various directions, thereby distributing the disaster response article in a dispersed manner.

Of course, in the structure using compressed air, the article discharge ports 212 through which the disaster response article is discharged may be formed in different directions.

As another form of the article discharging means 230, has a spring 233 for applying pressure to the disaster response article so that the disaster response article is under pressure, the disaster response under pressure when the article storage space 211 is opened There is a form having a switch 234 so that the article is pushed out of the housing 210 by the repulsive force and not pushed out of the housing 210 when the article storage space 211 is not opened.

The switch 234 at this time may also be implemented in various forms known in the art that can block or open a specific path, such as the form of a valve.

Vibration detection means 241, fire detection means 242, earthquake detection means 243 for detecting the vibration, fire, earthquake, respectively, in the place where the housing 210 is installed may be further provided (see Fig. 9). )

In addition, the nitrogen oxide concentration detection means for detecting the concentration of nitrogen oxide in the place where the housing 210 is installed and the carbon dioxide concentration detection means for detecting the concentration of carbon dioxide may be further provided.

By providing a variety of sensing means as described above it is possible to secure a variety of data, such as data related to the environment of the place where the disaster response supplies storage device of the present invention is located.

It may also detect disasters such as earthquakes.

In addition, the data sensed through the sensing means as described above can be transmitted to the situation room of the subway station or the situation room of public places (including a controller for transmission), where the disaster response supplies storage device of the present invention is located The environment can be seen from a distance.

In addition, such data may be used as data for analyzing information on which subway stations are in good or bad air.

It is also possible to map the air quality and environmental gas quality of the entire subway station in a particular city.

As the above-described sensing means such as vibration sensing means, temperature sensing means, humidity sensing means, nitrogen oxide concentration sensing means, carbon dioxide concentration sensing means and the like can be implemented in various forms known in the description of the specific structure of the various sensing means, etc. Is omitted.

The controller 250 may be further configured to control the driving of the article discharging means 230 by receiving a signal from the outside and to transmit information sensed by the disaster situation detecting means 220 to the outside.

The controller 250 may be implemented in the form of a controller provided in a central processing unit (CPU) of a computer or various electronic devices.

According to this configuration, the disaster response article storage device of the present invention can receive a signal from another disaster response article storage device to control the driving of the article discharge port (212).

That is, it can be driven to interlock between the disaster response supplies storage device.

In addition, it is also possible to control the driving of the article discharging means 230 provided in the disaster response supplies storage device of the present invention in the situation room, such as a subway station or a public place. This may result in the operation of the equipment storage device, or the operation of all the disaster response equipment storage devices installed in a specific area, for example, Seoul.)

In the structure having the controller 250 as described above, the controller 250 may be implemented to output the usage of the disaster response article discharged through the article discharging means 230 through the speaker when a disaster situation occurs.

The speaker in the above description may be a speaker provided in the disaster response article storage device of the present invention, or may be a speaker located in a space (place) where the disaster response article storage device of the present invention is installed.

In the present invention, the article discharging means 230 may be implemented to discharge all of the disaster response supplies stored in the article storage space 211 when a disaster situation occurs, it may be implemented to discharge only a part of the stored disaster response supplies.

In the implementation of discharging only a part of the stored disaster response article, it is possible to discharge only a predetermined amount.

For example, assuming that a total of 100 disaster response supplies are stored, 50 disaster response supplies can be discharged every time a disaster occurs.

For this configuration, the disaster response items to be stored can be packaged in a set number of units.

In addition, a set number of disaster response items may be located in each partitioned space.

The above-described disaster situation detection means 220 may be in the form based on the data by the disaster situation detection sensor (fire, etc.) built in the disaster response supplies storage device itself.

In addition, it may be a form based on the data by the signal actuated by the situation room staff to determine the need to discharge the disaster response article in the storage device.

In addition, it may be based on data when the emergency button embedded in the storage device is manually operated by a person who determines that there is a necessity for discharging disaster response supplies. (In this case, to prevent abnormal operation such as mischief, It is desirable that the system be judged to be a disaster only if the emergency button is allowed to operate.)

In addition, the disaster situation detection means 220 may be in the form based on the disaster situation information detected by the neighboring storage device in the structure in which the disaster response supplies storage device is driven in conjunction with each other.

Disaster-responsive goods storage device is equipped with a display device 255 such as DID to display how to use the disaster response supplies, how to use the storage device (emergency button press function) and discharge examples, or display the advertisement of goods It can be implemented to be in the form.

In the storage device for disaster response supplies, air quality sensor module, such as fine dust, yellow dust, oxygen, nitrogen, etc. together with a position recognition module that can recognize the location where the housing 210 is installed, NOx, SOx, COx, ozone, etc. Environmental gas detection sensor module, vibration and earthquake detection sensor module, fire detection sensor module, living environment detection sensor module, such as temperature, humidity, etc. can be built-in.

This enables the data to be collected and mapped to the housing position, reverse position, etc. by receiving data remotely without measuring air quality directly on the site.

In the disaster handling supplies storage device, the disaster situation detection means 220 is a disaster situation signal output by detecting the fire to the fire detection sensor, a disaster situation signal output by the operation of the emergency bell to inform that the disaster situation, another disaster response The disaster situation signal output from the article storage device, the disaster situation signal output from the situation room, the disaster situation signal by the operation of the emergency button provided in the housing can be implemented to detect the disaster situation by receiving any one. .

10. Oxygen filling body 11. Oxygen filling space
12. Face contact 13. Nose insertion space
13a. Perforation Hall 14. Entrance Location
20. Cover 30. Check Valve
40. Supply control means 41a. handle
41b. Opening and closing part 50. Breathing discharge pipe
60. Pressure Reducing Space 61. Dispersion Projection
70. Lamp 72. Battery
73. Switch 80. Fixed band
90. Oxygen refilling means 91. Check valve
Disaster Response 210. Housing
211. Storage for Supplies 212. Outlet for Supplies
220. Disaster situation detection means 230. Dispensing means
231. Sliding section 232. Switchgear
233. Spring 234. Switchgear
241. Vibration detection means 242. Fire detection means
243. Earthquake detection means 250. Controller
255. Display device

Claims (7)

In the disaster response article which can be used by the evacuator to move and breathe in order to facilitate the breathing in the event of a fire or poisonous gas leak,
It is an oval ball shape, and when it is poured down while it is being stored, it is dispersed and rolled on the ground or floor irregularly.
The method of claim 1,
Dispersion-type disaster response article that can be used in an emergency situation, characterized in that the outer shell forming the appearance is elastic, so that when the object hits the object, it will bounce.
3. The method according to claim 1 or 2,
A large amount of oxygen has an oxygen filling space (11) filled with a pressure higher than atmospheric pressure, has a face contact portion 12 in close contact with the face portion of the human body, the nose of the human body is inserted inside the face contact portion 12 The nose insertion space 13 is formed and the mouth position space 14 where the mouth of the human body is formed is divided, the oxygen filled in the oxygen filling space 11 is supplied to the nose insertion space 13 Filling body 10; And
An emergency situation, characterized in that implemented in the form of a portable oxygen respirator configured to include; cover 20, which is coupled to the oxygen-filling body 10 to protect the face contact portion 12 and the nose insertion space (13) Disaster Countermeasures available for use.
The method of claim 3,
It is characterized in that the check valve 30 is further provided to prevent the air of the inlet space 14 is discharged to the outside of the inlet space 14 and the outside air to enter the inlet space 14 Distributed disaster response supplies for emergency situations.
The method of claim 3,
Dispersed disaster response supplies that can be used in an emergency situation, characterized in that the supply control means for controlling the supply of oxygen filled in the oxygen filling space 11 to the nose insertion space 13 is further provided.
The method of claim 3,
The pressure reducing space (60) for lowering the pressure of the oxygen supplied to the oxygen filling space (11) is located on the path that is supplied to the nose insertion space (13), the pressure lowering space ( 60) is to lower the pressure as the supplied oxygen hits the object and dispersed,
The air dispersed in the pressure lowering space 60 is supplied to the nose insertion space (13) via a plurality of perforation holes (13a), distributed disaster response supplies that can be used in emergency situations.
3. The method according to claim 1 or 2,
A lamp 71 that receives power and emits light;
A battery 72 for supplying power to the lamp 71; And
Switch 73 that supplies or cuts power to the battery 72 to the lamp 71 but supplies power of the battery 72 to the lamp 71 when an impact greater than or equal to a predetermined value is applied while the power is not supplied. Dispersed disaster response supplies that can be used in emergency situations, characterized in that it is further provided.

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