CN109731248B - Emergency safety bin - Google Patents

Abstract

The invention provides an emergency safety bin which comprises a polygonal top cover, a polygonal shell and a polygonal base, wherein two ends of the polygonal shell are correspondingly connected with the polygonal top cover and the polygonal base respectively; the polygonal top cover comprises at least one polyhedral bulge, the polyhedral bulge is arranged in the middle of the polygonal top cover and is far away from the polygonal top cover, and the tail end of each edge of the polyhedral bulge is fixedly connected with the edge and/or the angle of the polygonal top cover and the polyhedral bulge; the polygonal top cover, the polygonal base and the polygonal shell are all made of steel structures, and the polygonal top cover and the polygonal shell are sequentially provided with a fireproof layer, a heat insulation layer, a secondary anti-collision layer and a sealing layer from outside to inside; the edge of the polygonal base extends to the outside of the polygonal shell. The emergency safety cabin is used for meeting emergency situations, can quickly respond to dangerous situations, and avoids life safety hazards.

Description

Emergency safety bin

Technical Field

The invention relates to the technical field of escape first-aid, in particular to an emergency safety cabin.

Background

With the steady development of social economy, high-rise buildings are more and more, urban population is also more and more dense, and once disasters such as fire, toxic gas, earthquake or danger of entering a room occur, the life safety of people is endangered. When people meet the dangers, people can mostly choose to escape from the dangerous site, but the victims cannot leave the dangerous site in time due to various limitations (guard rails, doors and windows and the like), and even the alarm cannot be given, so that the sudden danger brings great physical and psychological damage.

Therefore, the construction of fire-fighting emergency facilities in the building is more and more emphasized by people, the traditional fire-fighting emergency measures are all that a fire-fighting emergency channel is arranged, and once dangerous situations occur, residents can escape from the building through the fire-fighting emergency channel. However, this escape method relies heavily on the opening of the fire emergency passageway, and if the dangerous situation has spread to the fire emergency passageway or the fire emergency passageway is blocked, the resident will have no place to escape. Therefore, it is important to provide a faster, more convenient and safer escape method.

Disclosure of Invention

The invention aims to provide an emergency safety bin to solve the technical problem that the emergency in the prior art cannot quickly respond to a dangerous case to cause life safety danger.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides an emergency safety bin which comprises a polygonal top cover, a polygonal shell corresponding to the polygonal top cover and a polygonal base corresponding to the polygonal shell, wherein: two ends of the polygonal shell are correspondingly connected with the polygonal top cover and the polygonal base respectively;

the polygonal top cover comprises at least one polyhedral bulge, the polyhedral bulge is arranged in the middle of the polygonal top cover and is far away from the polygonal top cover, and the tail end of each edge of the polyhedral bulge is fixedly connected with the edge and/or the angle of the polygonal top cover and the polyhedral bulge; the polygonal top cover, the polygonal base and the polygonal shell are all made of steel structures, and a fireproof layer, a heat insulation layer, a secondary anti-collision layer and a sealing layer are sequentially arranged on the polygonal top cover and the polygonal shell from outside to inside; the edge of the polygonal base extends towards the outer side of the polygonal shell; and a safety door is arranged on the outer surface of the polygonal shell.

Preferably, still include cylindrical inner shell and with the circular top cap that cylindrical inner shell corresponds, cylindrical inner shell set up in the inside of polygon shell, the outer wall of cylindrical inner shell with the inner wall fixed connection of polygon shell.

Preferably, circular top cap includes that an octahedron is protruding and eight hexahedrons are protruding, eight hexahedron protruding evenly distributed in the octahedron is protruding all around and with the terminal fixed connection of eight bellied limits of octahedron, six bellied limits of hexahedron respectively with the octahedron is protruding hexahedron protruding and columniform limit fixed connection.

Preferably, the octahedron protrusion is arranged at the central position of the circular top cover and is upwards away from the circular top cover, and the hexahedron protrusion is uniformly distributed around the octahedron protrusion and is also upwards away from the circular top cover.

Preferably, an access passage is arranged between the safety door and the cylindrical inner shell, and the access passage is communicated with the outside and the cylindrical inner shell.

Preferably, the inner wall of the cylindrical inner shell symmetry extends outwards to form a storage cabinet, and the storage cabinet is arranged in the middle of the cylindrical inner shell and is integrated with the cylindrical inner shell.

Preferably, still include air filtration clean system, air filtration clean system installs in the cylindrical inner shell, air purification clean system sets up to remove PM 2.5's filter, the filter that removes PM2.5 is including making the electrified anion generator of particulate matter in the air to and the honeycomb-like HAF high flow static filter media of flute of electret, anion generator and the high flow static filter media of HAF set up in same air convection space, anion generator set up the upwind or the leeward position at the high flow static filter media of HAF.

Preferably, the air separation system further comprises an oxygen supply system, wherein the oxygen supply system is arranged in the cylindrical inner shell and comprises an air oxygen pipeline for connecting the air separation plant and an air oxygen user end; a liquid oxygen tank; an air vaporizer in communication with an outlet of the liquid oxygen tank; and the oxygen supply pipeline is connected with the air vaporizer and the oxygen supply pipeline.

Preferably, a food shelf-life indicator is also included, the food shelf-life indicator being mounted in the cylindrical inner shell.

Preferably, the emergency call-for-help system further comprises a communication terminal and an emergency call-for-help service system, wherein the communication terminal at least comprises a call-for-help service request key, the call-for-help service request key is dialed to send a call-for-help service request to the service system through a communication network, and the call-for-help service request key is installed in the cylindrical inner shell; the service system is used for receiving the distress service request and sending rescue information to the rescue unit.

The emergency safety bin provided by the embodiment of the invention has the following technical effects:

the emergency mounting bin comprises a polygonal top cover, a polygonal shell and a polygonal base, wherein the polygonal top cover and the polygonal base are correspondingly and fixedly connected to the upper end and the lower end of the polygonal shell, and are made of steel structures; when a heavy object is pressed to the emergency safety bin, the polyhedral bulge on the polygonal top cover can disperse gravity to the edge, the emergency safety bin is arranged into a polyhedral structure and can play a role in dispersing, the edge of the polygonal base extends to the outer side of the polygonal shell, when the heavy object is pressed downwards, the edge of the polygonal base is firstly damaged to achieve the function of dispersing, and the aims of anti-seismic protection are achieved by integrating the mechanisms; in addition, the purposes of heat preservation, heat insulation and fire prevention are achieved by sequentially arranging the fireproof layer, the heat insulation layer, the secondary anti-collision layer and the sealing layer on the polygonal top cover and the polygonal shell from outside to inside, the emergency safety bin can quickly respond to dangerous situations when emergency occurs, and life safety is prevented from being endangered.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic perspective view of an emergency safety cabin according to an embodiment of the present invention;

FIG. 2 is a front view of an emergency safety cabin of one embodiment of the present invention;

fig. 3 is a schematic perspective view of an emergency safety cabin of one embodiment of the present invention with the polygonal top cover removed;

FIG. 4 is a top plan view of the emergency safety bin with the polygonal top cover removed in accordance with one embodiment of the present invention;

FIG. 5 is a top view of a polygonal top cover of one embodiment of the invention;

FIG. 6 is a bottom view of a polygonal top cover of one embodiment of the invention;

fig. 7 is a schematic diagram of an air purification and filtration system for an emergency safety cabin according to an embodiment of the invention.

In the figure:

100. a hexagonal top cover; 101. the tetrahedron is raised; 102. a circular top cover; 1021. an octahedron bulge; 1022. a hexahedral bulge; 200. a hexagonal housing; 201. a safety door; 202. a cylindrical inner shell; 203. a storage cabinet; 204. an access channel; 205. a negative ion generator; 206. HAF high flow static filter material; 300. a hexagonal base.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "height", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "side", etc., indicate orientations or positional relationships based on those shown in fig. 1, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1 is a schematic perspective view of an emergency safety cabin according to an embodiment of the present invention, fig. 2 is a front view of the emergency safety cabin according to an embodiment of the present invention, fig. 3 is a schematic perspective view of the emergency safety cabin according to an embodiment of the present invention with a polygonal top cover removed, fig. 4 is a top view of the emergency safety cabin according to an embodiment of the present invention with a polygonal top cover removed, fig. 5 is a top view of the polygonal top cover according to an embodiment of the present invention, fig. 6 is a bottom view of the polygonal top cover according to an embodiment of the present invention,

the emergency safety bin comprises a polygonal top cover, a polygonal shell corresponding to the polygonal top cover and a polygonal base corresponding to the polygonal shell, wherein multiple deformations refer to a triangle or more than a triangle, and compared with a cylindrical shape, the polygonal shape can play a role in dispersing force.

Example 1:

the emergency safety cabin of the embodiment refers to a hexagonal top cover 100, a hexagonal housing 200 and a hexagonal base 300, as shown in fig. 1 to 6, wherein two opposite sides of a hexagon are longer than the other four sides, the remaining four sides are the same in length, the hexagonal top cover 100 is installed at the upper end of the hexagonal housing 200 and is connected with the hexagonal top cover 100 in a snap-fit manner, and the size and the shape of the outer contour of the hexagonal top cover 100 and the outer contour of the hexagonal housing 200 are the same. The lower extreme fixed mounting of hexagon shell 200 is on hexagon base 300, and the outer contour shape of hexagon base 300 is the same with the outer contour shape of hexagon shell 200, but the size of hexagon base 300 is greater than the size of hexagon shell 200, and hexagon base 300 extends to the outside of hexagon shell 200 promptly, and when the heavy object pounded downwards to emergent safe storehouse, the edge of base was destroyed to the marginal heavy object that drops at hexagon base 300, has consumed a part of component to reach the mesh of protecting emergent safe storehouse.

The hexagonal top cover 100 further includes at least one polyhedral bulge, the polyhedral bulge of this embodiment refers to the tetrahedral bulge 101, wherein the hexagonal top cover 100 includes two tetrahedral bulges 101, two tetrahedral bulges 101 are disposed at the middle position of the hexagonal top cover 100 and extend to the direction far away from the hexagonal top cover 100, two tetrahedral bulges 101 differ by a certain distance, two tetrahedral bulges 101 share one edge, the end of the remaining three edges is fixedly connected with the corner of the hexagonal top cover 100, the tetrahedral bulge 101 of this embodiment is also when the heavy object pounds to, the heavy object contacts the tetrahedral bulge 101 at first, then the tetrahedral bulge 101 disperses the impact force, that is, the tetrahedral bulge 101 plays the role of dispersing force.

In order to further enhance the anti-seismic effect of the emergency safety cabin, the hexagonal top cover 100, the hexagonal base 300 and the hexagonal shell 200 of the embodiment are all made of steel structures, and specifically, the fire-proof layers are sequentially arranged from outside to inside, and the fire-proof and hardness-enhanced hexagonal safety cabin has the characteristics of fire resistance and high hardness, for example, the fire-proof and hardness-enhanced hexagonal safety cabin can be made of fire-proof glass fiber reinforced plastics, the heat-insulating layer is adjacent to the protective layer and can be made of heat-insulating materials, the heat-insulating layer can be made of perlite, the secondary anti-collision layer is adjacent to the heat-insulating.

In addition, as an emergency safety bin, a safety door 201 is further arranged on one side surface of the hexagonal shell 200, and a person escaping from the emergency safety bin enters or exits the emergency safety bin through the safety door 201.

Through starting from the structure and the composition of the emergency safety bin, the emergency safety bin with the novel structure is designed, and when an emergency occurs, a person escaping from the emergency safety bin can temporarily avoid the emergency safety bin, and the life is prevented from being endangered due to the special structure and the composition of the emergency safety bin.

As an optional implementation manner of this embodiment, in order to further make the protection level of the emergency safety cabin higher, the emergency safety cabin further comprises a cylindrical inner shell 202 and a circular top cover 102 corresponding to the cylindrical inner shell 202, a cavity is formed inside the cylindrical inner shell 202, the chamber can accommodate the escaper, the cross-sectional shape and size of the cylindrical inner shell 202 are the same as those of the circular top cover 102, the circular top cover 102 covers the cylindrical inner shell 202, the cylindrical inner shell 202 is installed inside the hexagonal outer shell 200, the outer wall of the cylindrical inner shell 202 is fixedly connected with the inner wall of the polygonal outer shell, specifically, as shown in fig. 3, a connecting part is arranged between the outer wall of the cylindrical inner shell 202 and the inner wall of the hexagonal outer shell 200, the connecting part is a steel structure, two ends of the steel structure are welded on the inner walls of the cylindrical inner shell 202 and the polygonal outer shell, thereby fixedly connecting the cylindrical inner shell 202 and the hexagonal outer shell 200 together.

In order to further disperse the downward impact force of the weight, as shown in fig. 5 and 6, the circular top cover 102 includes an octahedral protrusion 1021 and eight hexahedral protrusions 1022, the eight hexahedral protrusions 1022 are uniformly distributed around the octahedral protrusion 1021 and are fixedly connected with the ends of eight sides of the octahedral protrusion 1021, six sides of the hexahedral protrusions 1022 are respectively fixedly connected with the octahedral protrusion 1021, the hexahedral protrusion 1022 and the cylindrical sides, and the circular top cover 102 is provided with the octahedral protrusion 1021 and the hexahedral protrusion 1022, so that the purpose of dispersing the impact force of the weight can be achieved, that is, the protrusions are firstly contacted with the weight, impact the protrusions, and the impact is dispersed by the protrusions.

Specifically, as shown in fig. 5 and 6, the octahedral protrusion 1021 is disposed at the center of the circular top cover 102 and is upwardly away from the circular top cover 102, i.e., is in a raised state, and the hexahedral protrusion 1022 is uniformly distributed around the octahedral protrusion 1021, is also upwardly away from the circular top cover 102, and is also in an upwardly raised state.

As shown in FIG. 4, the symmetrical inner walls of the cylindrical inner shell 202 extend outwards to form a storage cabinet 203, the storage cabinet 203 is disposed in the middle of the cylindrical inner shell 202 and integrated with the cylindrical inner shell 202, and the storage cabinet 203 can store food, water and gas masks, and provide nutrition supplement for a certain time in a warehouse when danger occurs.

As shown in fig. 4, in order to enable the escaper to reach the chamber formed by the cylindrical inner shell 202, and achieve the best refuge effect, an access channel 204 is arranged between the safety door 201 and the cylindrical inner shell 202, the access channel 204 communicates the outside with the cylindrical inner shell 202, and the escaper enters the chamber of the cylindrical inner shell 202 through the access channel 204 from the accident occurrence area, so as to achieve the best refuge effect.

Example 2:

on the basis of embodiment 1, in order to further enable the emergency safety cabin to achieve a more intelligent effect, the emergency safety cabin can further set the following functions in a better and advanced equipment model, wherein the functions comprise an air filtering and purifying system, an emergency oxygen system, an emergency help system and a sanitary system.

Specifically, the air filtering and purifying system is installed in the cylindrical inner shell 202, the air filtering and purifying system can filter PM2.5 and higher level filters, as shown in fig. 7, the filter for removing PM2.5 includes an anion generator 205 for charging particulate matters in the air, and a corrugated honeycomb-shaped HAF high-flow electrostatic filter 206 with electrets, the anion generator 205 and the HAF high-flow electrostatic filter 206 are arranged in the same air convection space, the anion generator 205 is arranged above and below the HAF high-flow electrostatic filter 206 and has multiple air outlets and air inlets, and in order to prevent the individual air inlets from being blocked in emergency, the specific positions in different models of equipment are different (based on the object).

Specifically, the oxygen emergency system comprises two parts, namely, food and water needed by the living body are provided and are also placed in the cylindrical inner shell 202; and secondly, after air pollution occurs outside, an oxygen supply system in the cabin can release a certain amount of oxygen (the oxygen amount can be configured according to the requirements of customers) to maintain the oxygen supply in the cabin, and the oxygen supply system comprises an air oxygen pipeline for connecting the air separation device and an air oxygen user side, a liquid oxygen tank and other equipment, an air vaporizer communicated with an outlet of the liquid oxygen tank, and an oxygen supply pipeline for connecting the air vaporizer and the air oxygen pipeline.

Specifically, the sanitation system, i.e., the food and water shelf life prompter, is installed in the cylindrical inner shell 202, and the food and water shelf life prompter includes a food information generating terminal and a food information scanning terminal, the food and water information generating terminal: inputting food information, storing the food information according to food classification, and generating a two-dimensional code containing the food information according to the food information; the food information comprises food classification, food name, production date of the food, and shelf life of different food classifications; food information scanning end: scanning the two-dimensional code of the food to obtain food information, calculating the remaining time of the food in the quality guarantee period according to the production date of the food in the food information, the food classification and the quality guarantee period of the food classification, if the remaining time is lower than a set value, reminding that the quality guarantee period is about to expire, and otherwise, displaying the food information.

Specifically, the emergency help-seeking system comprises a communication terminal and an emergency help-seeking service system, a GSM communication module and other communication equipment are arranged in a cabin, a call-for-help service request key can send a call-for-help service request to the service system through a communication network, and the call-for-help service request key is arranged in the cylindrical inner shell 202; the service system is used for receiving the distress service request, sending rescue information to a rescue unit, and realizing video call with the existing advanced 4G/5G communication network in order to relieve the psychological pressure of the trapped people, thereby greatly enhancing the psychological desire for survival of the trapped people and improving the success probability of rescue.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. The utility model provides an emergent safe storehouse which characterized in that, includes the polygon top cap, with the polygon shell that the polygon top cap corresponds, and with the polygon base that the polygon shell corresponds, wherein:

two ends of the polygonal shell are correspondingly connected with the polygonal top cover and the polygonal base respectively;

the polygonal top cover comprises at least one polyhedral bulge, the polyhedral bulge is arranged in the middle of the polygonal top cover and is far away from the polygonal top cover, and the tail end of each edge of the polyhedral bulge is fixedly connected with the edge and/or the angle of the polygonal top cover and the polyhedral bulge;

the polygonal top cover, the polygonal base and the polygonal shell are all made of steel structures, and a fireproof layer, a heat insulation layer, a secondary anti-collision layer and a sealing layer are sequentially arranged on the polygonal top cover and the polygonal shell from outside to inside;

the edge of the polygonal base extends towards the outer side of the polygonal shell;

a safety door is arranged on the outer surface of the polygonal shell;

the outer wall of the cylindrical inner shell is fixedly connected with the inner wall of the polygonal outer shell;

the round top cover comprises an octahedral bulge and eight hexahedral bulges, the eight hexahedral bulges are uniformly distributed on the periphery of the octahedral bulge and are fixedly connected with the tail ends of eight edges of the octahedral bulge, and six edges of the hexahedral bulge are fixedly connected with the octahedral bulge, the hexahedral bulge and the cylindrical edge respectively;

the octahedron protruding set up in the central point of circular top cap puts and upwards keeps away from circular top cap, hexahedron protruding evenly distributed in the protruding all around of octahedron, and upwards keep away from also circular top cap.

2. The emergency safety cabin according to claim 1, wherein an access passage is provided between the safety door and the cylindrical inner casing, and the access passage communicates with the outside and the cylindrical inner casing.

3. The emergency safety cabin according to claim 1, wherein the symmetrical inner walls of the cylindrical inner shell extend outwards to form a storage cabinet, and the storage cabinet is disposed in the middle of the cylindrical inner shell and is integrated with the cylindrical inner shell.

4. The emergency safety cabin according to claim 1, further comprising an air filtering and purifying system installed in the cylindrical inner casing, wherein the air filtering and purifying system is configured as a filter for removing PM2.5, the filter for removing PM2.5 comprises an anion generator for charging particulate matters in air, and a corrugated honeycomb-shaped HAF high-flow electrostatic filter material with electrets, the anion generator and the HAF high-flow electrostatic filter material are disposed in the same air convection space, and the anion generator is disposed at an upwind position or a downwind position of the HAF high-flow electrostatic filter material.

5. The emergency safety cabin according to claim 1, further comprising an oxygen supply system installed in the cylindrical inner shell, the oxygen supply system comprising an oxygen supply line for connecting an air separation plant and an oxygen user side; a liquid oxygen tank; an air vaporizer in communication with an outlet of the liquid oxygen tank; and the oxygen supply pipeline is connected with the air vaporizer and the oxygen supply pipeline.

6. The emergency safety bin of claim 1, further comprising a food shelf life indicator mounted in the cylindrical inner shell.

7. The emergency safety cabin according to claim 1, further comprising an emergency system, wherein the emergency system comprises a communication terminal and an emergency service system, the communication terminal comprises at least one emergency service request key, and the emergency service request key is dialed to send an emergency service request to the service system through a communication network, and the emergency service request key is installed in the cylindrical inner shell; the service system is used for receiving the distress service request and sending rescue information to the rescue unit.

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