CN212067534U - Airborne track launching high-rise building emergency rescue bomb - Google Patents

Abstract

The utility model belongs to the technical field of aviation emergency rescue equipment, in particular to an airborne track-launched high-rise building emergency rescue bomb, which comprises a power module; a load module removably coupled with the power module; a burst dispersion module removably located in the load module. The utility model provides an airborne track transmission high-rise building emergency rescue bullet, it can be on-the-spot to the conflagration type, assembles assorted emergency rescue bullet rapidly and carries out the pertinence and deal with.

Description

Airborne track launching high-rise building emergency rescue bomb

Technical Field

The utility model belongs to the technical field of aviation emergency rescue equipment, concretely relates to machine carries track transmission high-rise building emergency rescue bullet.

Background

Emergency rescue refers to the practice and planning of taking precautions, preparations, responses and recovery against sudden, damaging emergencies. The emergency rescue method is divided into emergency rescue in the fields of health emergency, traffic emergency, fire emergency, earthquake emergency, factory and mine emergency, family emergency and the like. With the development of aviation technology and unmanned aerial vehicle technology, aviation emergency rescue is rapidly developed. Aviation emergency rescue refers to a mode of implementing rescue by adopting aviation technical means and equipment. Compared with other conventional emergency rescue modes, the aviation emergency rescue has the characteristics of high response speed, strong maneuverability, wide rescue range, good rescue effect and high technological content, and is the most timely and effective means for organizing rescue and rescuing lives. Most of the existing aviation emergency rescue modes need manual implementation in the field during event handling, and more casualties are caused by secondary disasters. Secondly, the delivery of rescue goods and lifesaving equipment can not be accurately delivered. Therefore, the airborne emergency rescue equipment is vigorously developed to reduce secondary damage and improve rescue efficiency.

Fire extinguishing bomb in the prior art adopts aerial platform to carry, detonates the bomb body after loading fire extinguishing agent and breaking the window, releases the fire extinguishing agent to reach the effect of putting out a fire. Delivery of rescue goods and life-saving equipment is not involved, and fire fighting is only one of emergency rescue. The fire extinguishing bomb focuses on breaking windows of high-rise buildings to extinguish fire, and other outdoor fires or outdoor emergency rescue are not elaborated. Secondly, the fire extinguishing bomb structure is an integral assembly structure, and the electronic components, the rocket engine and the internal blasting device are connected in a curing mode, so that potential safety hazards are brought to subsequent storage, transportation and use.

According to another controllable guidance fire extinguishing bomb, fire extinguishing system and fire extinguishing method in the prior art, temperatures in different directions are obtained through a four-quadrant seeker, and the fire extinguishing bomb is guided to break a window to extinguish fire according to temperature difference. The fire extinguishing bomb is mainly applied to high-rise building window breaking and fire extinguishing, and the problem that life safety of trapped personnel in a fire scene is threatened after a window breaking cone breaks a window is not considered. Secondly, the fire extinguishing bomb structure is an integral assembly structure, and electronic components, a rocket engine and an internal detonating cord are connected in a curing mode, so that potential safety hazards are brought to subsequent storage, transportation and use.

The prior art is only suitable for fire extinguishment by window breaking of high-rise buildings, and the window breaking cone at the front end of the projectile body after the window breaking threatens the life safety of the trapped personnel in a fire scene. Electronic components of the fire extinguishing bomb, the rocket engine and the internal blasting device are integrally connected in a curing way, so that potential safety hazards are brought in storage, transportation and use. Secondly, the internal structure of the existing fire extinguishing bomb is one-time solidification assembly, so that the actual requirements of different application scenes cannot be met, and particularly, different fire extinguishing agents are assembled to extinguish fire aiming at different fires, so that inconvenience is brought to actual combat application of fire rescue.

In order to solve the problem, the utility model provides an airborne track launches high-rise building emergency rescue bullet.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical defect who exists among the prior art and not enough, provide an airborne track transmission high-rise building emergency rescue bullet, it can be on-the-spot to the conflagration type, assembles assorted emergency rescue bullet rapidly and carries out the pertinence and deal with.

The utility model also aims at providing an airborne track launching high-rise building emergency rescue bullet, it still regards as the delivery device of rescue goods and materials and lifesaving equipment, also can the wide application in disaster scene such as earthquake rescue, flood fighting and speedily carrying out rescue work.

The utility model discloses it is still another purpose to provide an airborne track launches high-rise building emergency rescue bullet, and it especially has solved potential safety hazard and limitation that trigger fuse and broken window awl brought to high-rise building conflagration.

An object of the present invention is to solve at least the above-mentioned problems and/or disadvantages of the prior art and to provide at least the advantages which will be described later.

In order to realize according to the utility model discloses a these purposes and other advantages, the utility model provides an airborne track transmission high-rise building emergency rescue bullet, include:

a power module;

a load module removably coupled with the power module;

a burst dispersion module removably located in the load module.

The utility model mainly provides an emergency rescue bullet of function, structural module ization design, the connection position between every part is dismantled conveniently, and the equipment is simple, behind emergency rescue personnel judgement conflagration type at the conflagration scene, but the pertinence is dealt with to fast assembly assorted emergency rescue bullet. The fire disaster recovery device is not only suitable for various fires such as high-rise building fires, dangerous chemical substance fires, forest fires and the like, but also can be widely applied to disaster sites such as earthquake rescue, flood fighting and emergency rescue and the like as a delivery device for rescue goods and life saving equipment. Especially, aiming at high-rise building fire, the potential safety hazard and limitation caused by triggering fuses and window breaking cones are solved.

Preferably, the load module comprises a load assembly and a mounting assembly, the mounting assembly is arranged on the upper end face of the load assembly, and the load assembly is detachably connected with the power module;

the mounting assembly is used for mounting the airborne track-launched high-rise building emergency rescue bomb on the track, so that the postures of the bombs are in the same direction.

The utility model discloses a projectile priming system power part and load module assemble with standard interface modularization, and the demand can be dealt with fast to the components of a whole that can function independently warehousing and transportation can satisfy multiple scene, guarantees product safety in utilization.

Preferably, the mounting assembly comprises an inner hanger, a front sliding block and a rear sliding block, the inner hanger is arranged on the upper end face of the load assembly, and the front sliding block and the rear sliding block are respectively connected with the inner hanger; the front sliding block and the rear sliding block are used for mounting the airborne track launching high-rise building emergency rescue bomb on the track and simultaneously leaving the track.

The front and rear sliding blocks are separated from the track simultaneously, so that the gravity center of the projectile body cannot be shifted, and the launching precision is improved.

Preferably, the load assembly comprises a shell, four front wings and two mounting frames, the mounting frames are sleeved at the tail end of the shell, slots are formed in the mounting frames, and the front wings are inserted into the first slots;

and the number of the slots on each mounting frame is equal to that of the front wings.

Preferably, the connector further comprises a first butt ring, a second butt ring, a front end cover, a rear end cover and a partition plate, wherein the first butt ring and the second butt ring are respectively arranged on the front end surface and the rear end surface of the shell and embedded into the shell, the front end cover is screwed with the first butt ring through threads, the rear end cover is screwed with the second butt ring through threads, the partition plate is arranged inside the shell, and the partition plate is screwed with the second butt ring through threads;

the power module is screwed with the rear end cover through threads.

Preferably, the blasting powder dispersion module further comprises a blasting powder mounting cover, two blocking cover bodies and a mounting terminal, wherein the blasting powder mounting cover is screwed with the isolation plate through threads, the two blocking cover bodies are screwed with the isolation plate through threads, the mounting terminal is arranged on the front end cover, one end of the blasting dispersion module penetrates through the blasting powder mounting cover and is inserted into the shell, and the other end of the blasting dispersion module is limited by the mounting terminal.

Preferably, the power module comprises a first mounting frame, a second mounting frame, four rear wings and a rocket engine, the first mounting frame and the second mounting frame are respectively sleeved on the rocket engine, second slots are formed in the first mounting frame and the second mounting frame, and the rear wings are inserted into the second slots;

the front wing and the rear wing correspond to each other and are on the same horizontal plane.

Preferably, the blasting dispersion module comprises a blasting powder column and a blasting powder mounting pipe, the blasting powder mounting pipe is arranged in the load module, the blasting powder column is detachably inserted into the blasting powder mounting pipe, and the blasting powder column is located on a central axis of the load module.

The explosive column can be stored and transported by a special explosion-proof box body alone, so that the use safety of initiating explosive devices is ensured, potential safety hazards are avoided, and the national regulations are met.

Preferably, the system further comprises a control plate, the control plate is arranged in the load module and connected with the burst dispersion module, and the control plate is connected with the power module.

The utility model discloses a control panel adopts electron time delay fuse blasting dispersion fire extinguishing agent, replaces the trigger fuse of current fire extinguishing bomb, avoids triggering the fuse and produces dumb bomb easily and must rely on the striking to trigger the application environment limitation problem that brings.

Preferably, the housing is a degradable paper material.

The paper material adopted has small hardness and low strength, and can not cause secondary damage to human bodies after blasting.

The beneficial effects of the utility model

1. The utility model provides an airborne track launches high-rise building emergency rescue bullet, it provides a function, the emergency rescue bullet of structure modular design, and it is convenient to dismantle at the connection position between every part, and the equipment is simple.

2. The utility model provides an emergent rescue bullet of machine-carried track transmission high-rise building, it not only is applicable to multiple type conflagration such as high-rise building conflagration, dangerization article conflagration, forest fire, can also regard as the device of delivering of rescue goods and materials and lifesaving equipment also can the wide application at disaster scene such as earthquake rescue, flood fighting speedily carry out rescue work.

3. The utility model provides an emergent rescue bullet of machine-carried track transmission high-rise building, it especially has solved potential safety hazard and limitation that trigger fuse and broken window awl brought to high-rise building conflagration.

4. The utility model provides an emergent rescue bullet of machine-carried track launching high-rise building, it uses degradable environmental protection material in the material selection, and safety and environmental protection can not the human body cause the secondary injury after the blasting.

Drawings

FIG. 1 is a front view of the high-rise building emergency rescue bomb launched by the airborne track of the utility model;

fig. 2 is a schematic three-dimensional structure diagram of the airborne track launching high-rise building emergency rescue bomb of the utility model;

FIG. 3 is a schematic structural view of the airborne track of the present invention for launching the connection between the emergency rescue bomb and the track of the high-rise building;

the system comprises a power module 1, a load module 2, a blasting dispersion module 3, a load module 4, a load module 5, a mounting module 6, an inner hanging piece 7, a front sliding block 8, a rear sliding block 9, a rail 10, a shell 11, a front wing 12, a mounting frame 13, a first slot 14, a first butt ring 15, a second butt ring 16, a front end cover 17, a rear end cover 18, a partition plate 18, a blasting powder mounting cover 19, a blocking cover 20, a mounting terminal 21, a first mounting frame 22, a second mounting frame 23, a rear wing 24, a rocket motor 25, a second slot 26, a blasting powder column 27, a blasting powder mounting pipe 28 and a control board 29.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

For the disposable solidification assembly of current fire extinguishing bomb inner structure in order to solve, can't satisfy the actual demand of different application scenes, especially will assemble different fire extinguishing agent to different conflagrations and implement to put out a fire, for fire rescue's actual combat application brings inconvenient technical problem, as shown in figure 1, the utility model provides an airborne track transmission high-rise building emergency rescue bullet, include: a power module 1;

a load module 2 detachably connected to the power module;

a burst dispersion module 3 removably located in the load module.

Specifically, the power module and the load module are assembled quickly in a threaded screwing mode, the dispersion blasting module and the load module are assembled quickly in a threaded screwing mode, and of course, other detachable modes can be selected for connection, such as a buckle and the like.

The utility model mainly provides an emergency rescue bullet of function, structural module ization design, the connection position between every part is dismantled conveniently, and the equipment is simple, behind emergency rescue personnel judgement conflagration type at the conflagration scene, but the pertinence is dealt with to fast assembly assorted emergency rescue bullet. The fire disaster recovery device is not only suitable for various fires such as high-rise building fires, dangerous chemical substance fires, forest fires and the like, but also can be widely applied to disaster sites such as earthquake rescue, flood fighting and emergency rescue and the like as a delivery device for rescue goods and life saving equipment. Especially, aiming at high-rise building fire, the potential safety hazard and limitation caused by triggering fuses and window breaking cones are solved.

Furthermore, the utility model discloses well initiating explosive device part includes rocket engine and blasting dispersion module. The storage and transportation safety of the initiating explosive device is considered, and the rapid use of the fire fighter on site is also considered. Therefore, on the structural design, the quick assembly is carried out by adopting a thread screwing mode. When the device is used on site, a fireman takes out the central blasting explosive column from the special explosion-proof box and inserts the central blasting explosive column into the projectile load cabin, and the rocket engine part and the projectile load cabin are connected in a screwing mode, so that the assembly work of the emergency rescue projectile can be completed within 15-30 seconds, and the device is simple and easy to operate. Meanwhile, in the structural design scheme, the initiating explosive device can be stored and transported by adopting a special explosion-proof box body alone, so that the use safety of the initiating explosive device is ensured, potential safety hazards are avoided, and the national regulations are met.

Specifically, as shown in fig. 2, the load module 2 includes a load assembly 4 and a mount assembly 5, the mount assembly 5 is disposed on an upper end surface of the load assembly 4, and the load assembly 4 is detachably connected to the power module 1; the mounting assembly is used for mounting the airborne track-launched high-rise building emergency rescue bomb on the track, so that the postures of the bombs are in the same direction.

The load module can be pre-loaded with different loads or fire extinguishing agents (such as drugs, respirators, ropes, dry powder fire extinguishing agents, water-based fire extinguishing agents and the like). The outward appearance is according to colour, sign difference, and the fire fighter loads different load cabins according to different types of conflagration during practical application, and the field assembly is used conveniently. And the lifesaving equipment can be loaded and delivered to trapped people, so that more actual combat emergency requirements are met.

Specifically, as shown in fig. 2, the mounting assembly includes an inner hanger, a front slider and a rear slider, the inner hanger is disposed on the upper end surface of the load assembly, and the front slider and the rear slider are respectively connected to the inner hanger; the front sliding block and the rear sliding block are used for mounting the airborne track launching high-rise building emergency rescue bomb on the track and simultaneously leaving the track 9.

The rear slider 8 is connected with an internal hanging piece inside the shell 10 through four screw holes on the shell 10 by four screws, and the front slider is connected with the internal hanging piece by the same method. The front sliding block and the rear sliding block are used for mounting the emergency rescue bomb on the track, so that the posture of the bomb body is kept in the same direction, and the stable launching state of the emergency rescue bomb is ensured.

As shown in fig. 3, the utility model provides a transmission track 9 adopts interior knot to detain the carry mode with outer, and the transmission track includes that interior knot track and outer knot track promptly, the outer slide rail that detains is located the both sides of interior knot slide rail, preceding slider carry on detaining the stress surface in, and back slider carries on detaining the stress surface outward. The distance of detaining the stress surface according to preceding slider outside will launching the track end, shorten the track length of detaining the stress surface outward, the distance of detaining the transmission slide rail outward promptly is shorter than detaining the transmission slide rail in, in the front the slider through detain the stress surface reach the track when terminal, the orbital end of detaining the stress surface is also reachd simultaneously to the back slider, preceding slider breaks away from the track simultaneously, can not cause the centrobaric skew of projectile, the launching precision has been improved, the stability of projectile body launching gesture keeps, the factor of front and back slider derailment asynchronization has been avoided, do not influence the trajectory, the hit rate of emergency rescue bullet has been improved.

Specifically, as shown in fig. 2, the load assembly 4 includes a housing 10, four front wings 11 and two mounting brackets 12, the mounting brackets 12 are sleeved at the end position of the housing 10, the mounting brackets 12 are provided with first slots 13, and the front wings are inserted into the first slots;

the number of the first slots on each mounting frame is equal to that of the front wings.

The front wing is vertically inserted into the slot on the front wing mounting rack and is bonded by glue. The front wings are four pieces, and the slots of each piece corresponding to the two front wing mounting frames are vertically inserted in a one-to-one correspondence mode and are bonded by glue. The two front wing mounting racks are of circular ring structures, the diameter of each front wing mounting rack is slightly larger than that of the shell, and the front wing mounting racks are sleeved on the shell and are bonded by glue. The four integrated front wings are fixedly arranged at the tail end of the projectile loading cabin.

Specifically, the connecting structure further comprises a first butt ring 14, a second butt ring 15, a front end cover 16, a rear end cover 17 and a partition plate 18, wherein the first butt ring and the second butt ring are respectively arranged on the front end face and the rear end face of the shell, embedded into the shell and bonded by glue; the front end cover is screwed with the first butt ring through threads and is installed on the end face of the front end of the projectile load compartment, the rear end cover is screwed with the second butt ring through threads, the isolation plate is arranged in the shell, and the isolation plate is screwed with the second butt ring through threads;

the power module is screwed with the rear end cover through threads.

The blasting powder installation cover is screwed with the isolation plate through threads, the two blocking cover bodies are screwed with the isolation plate through threads, the installation terminal is arranged on the front end cover and used for restraining blasting powder columns, one end of the blasting dispersion module penetrates through the blasting powder installation cover and is inserted into the shell, and the other end of the blasting dispersion module is limited by the installation terminal.

The blasting explosive mounting cover is screwed with the isolation plate through threads, and the two blocking cover covers are screwed with the isolation plate through threads. The isolation plate is screwed with the second butt joint ring through threads, and the butt joint ring is embedded into the shell and is arranged at the tail end of the bullet load cabin. Wherein, the blasting powder post passes through blasting powder installation lid, gets into inside the casing, until reaching the installation terminal.

Specifically, as shown in fig. 2, the power module includes a first mounting bracket 22, a second mounting bracket 23, four rear wings 24 and a rocket engine 25, the first mounting bracket and the second mounting bracket are respectively sleeved on the rocket engine, a second slot 26 is provided on the first mounting bracket and the second mounting bracket, and the rear wings are inserted into the second slot.

The front wing and the rear wing correspond to each other and are on the same horizontal plane.

The rocket engine part, as shown in fig. 1, provides power for the launching of the emergency rescue bomb and is in threaded connection with the other end face of the bomb load cabin. As shown in fig. 2, the two rear wing mounts are looped around the rocket engine, distributed in a front-to-back manner according to the design position, and bonded by glue. The four slots on the rear wing mounting rack and the slots on the two front wing mounting racks keep the same direction. The four rear wings are respectively vertically inserted into the slots on the two rear wing mounting frames and are bonded by glue. The four rear wings and the four front wings are each directionally maintained in a horizontal plane. The rocket engine is screwed with the rear end cover through threads.

The utility model discloses well rocket engine part is independent module, and warehousing and transportation alone takes out the part in the special bin of initiating explosive device when using, connects soon through the screw thread and can accomplish the butt joint with projectile load cabin and fix, provides power for the fire extinguishing bomb transmission.

Specifically, as shown in fig. 2, the dispersion blasting module includes a blasting powder column 27 and a blasting powder installation tube 28, the blasting powder installation tube 28 is disposed in the loading module 2, the blasting powder column 27 is detachably inserted into the blasting powder installation tube 28, and the blasting powder column 27 is located on the central axis of the loading module 2.

The central blasting explosive column is a blasting dispersion module which is stored and transported separately, so that the use safety of initiating explosive devices is ensured, and the potential safety hazard is avoided. The binding is used in the field, and accords with the use regulation of relevant initiating explosive devices in China.

Specifically, the device further comprises a control plate 29, wherein the control plate 29 is arranged in the load module, the control plate 29 is connected with the burst dispersion module 3, and the control plate 29 is connected with the power module 1.

The control panel is fixed inside the rear end cover through four screws. The control panel is mainly in data communication with the loader and is used for setting time delay detonation time and sending a firing instruction to the central blasting charge.

The existing airborne fire extinguishing bomb adopts a trigger fuse to realize blasting dispersion of fire extinguishing agent. Therefore, the front end of the fire extinguishing bomb is provided with a window breaking cone or a collision trigger mechanism. The structure has limitations, the triggering delay detonation can be realized by breaking the window for the first time for fire extinguishing of the high-rise building, but the subsequent fire extinguishing bomb needs to impact the indoor wall to trigger the detonation after the window is broken. When aiming at dangerous chemical fire, the fire extinguishing bomb can be detonated only when the front end trigger mechanism of the fire extinguishing bomb collides with other objects, and once the front end trigger mechanism is not triggered by collision, a dummy bomb is easily caused, and new potential safety hazards are formed for subsequent rescue work. Moreover, the fire extinguishing bomb is triggered and exploded at the fire scene boundary by the triggering fuse detonation mode, the fire extinguishing agent cannot be well dispersed in the fire scene, the unit fire extinguishing efficiency is directly reduced, the electronic delay fuse can accurately control the emergency rescue bomb to detonate in the middle area of the fire scene through millisecond unit time delay, the fire extinguishing agent is dispersed fully, and the unit fire extinguishing efficiency is improved.

The utility model discloses a control panel (KA1) adopts electron time delay fuze blasting dispersion fire extinguishing agent, replaces the trigger fuze of current fire extinguishing bomb, avoids triggering the fuze and produces dumb bomb easily and must rely on the striking to trigger the application environment limitation problem that brings.

Specifically, the shell is made of degradable paper materials. The paper material adopted has small hardness and low strength, and can not cause secondary damage to human bodies after blasting.

The shell is a main structure part of the bullet load cabin and is made of degradable and environment-friendly materials, and the other end of the shell is bonded with the plugging cover through glue. The utility model discloses in the material selection to safety ring protects as following the purpose, uses degradable environmental protection material. The outer layer of the material is treated by a flame retardant process and does not burn when exposed to open fire. Secondly, the damp-proof process is used for processing, and the storage, transportation and use requirements are met.

In addition, the broken piece lightweight that explodes and flies off does not have the secondary damage, and is specific do the utility model discloses the casing and the fin part of emergency rescue bullet are paper material, and hardness is little, intensity is low, and prefabricated fracture groove, and the broken piece that explodes and fly off is bulky, can not cause the secondary damage to the human body. Compared with the existing fire extinguishing bomb which is made of metal materials with high hardness and high strength, especially the empennage part made of metal materials, the kinetic energy is large after blasting, and the killing power is easy to form.

The existing airborne fire extinguishing bomb is provided with a window breaking cone structure, and the cone structure of the window breaking cone has killing power when having certain kinetic energy. The utility model discloses do not design broken window awl structure at emergency rescue bullet front end, the purpose is avoided causing the secondary injury to stranded personnel. Second, not every bullet needs to have a window breaking function. When dangerous chemical fire emergency rescue is carried out, the window breaking function is not needed.

The utility model discloses in practical application, when the fire fighter need put out a fire, the selection loading has the load module of different fire extinguishing agents, inserts the dispersed module of blasting, then inserts power module again and can implement to put out a fire. When trapped people need to deliver rescue equipment, the load module loaded with the rescue equipment is selected or the load cabin is opened to assemble the needed rescue equipment on site, and then the power module is inserted to implement delivery rescue, so that the blasting dispersion module is not required to be inserted.

To sum up, the utility model provides an airborne track launches high-rise building emergency rescue bullet, it guarantees the security that the bullet of putting out a fire to use through three link. Firstly, the fire extinguishing bomb is made of lightweight paper material, and no secondary damage is caused after blasting. Secondly, the initiating explosive device components are designed separately, the storage and transportation meet the regulations, and the field use and binding are safe. Finally, aiming at the fire of the high-rise building, the fire extinguishing bomb is not provided with a window breaking cone at the front end, and the window breaking function and the fire extinguishing function are designed differently, so that no secondary damage to trapped people is guaranteed.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (10)

1. The utility model provides an airborne track launches high-rise building emergency rescue bullet which characterized in that still includes:

a power module;

a load module removably coupled with the power module;

a burst dispersion module removably located in the load module.

2. The airborne rail-launched high-rise building emergency rescue projectile of claim 1, wherein the load module comprises a load assembly and a mount assembly, the mount assembly being disposed on an upper end surface of the load assembly, the load assembly being removably connected to the power module;

the mounting assembly is used for mounting the airborne track-launched high-rise building emergency rescue bomb on the track, so that the postures of the bombs are in the same direction.

3. The airborne rail-launched high-rise building emergency rescue bomb according to claim 2, wherein the mounting assembly comprises an inner hanger, a front slider and a rear slider, the inner hanger is arranged on the upper end face of the load assembly, and the front slider and the rear slider are respectively connected with the inner hanger; the front sliding block and the rear sliding block are used for mounting the airborne track launching high-rise building emergency rescue bomb on the track and simultaneously leaving the track.

4. The airborne rail launching high-rise building emergency rescue bomb according to claim 2, wherein the load assembly comprises a shell, four front wings and two mounting frames, the mounting frames are sleeved at the tail end positions of the shell, first slots are formed in the mounting frames, and the front wings are inserted into the first slots;

and the number of the slots on each mounting frame is equal to that of the front wings.

5. The airborne rail-launched high-rise building emergency rescue bomb according to claim 4, further comprising a first docking ring, a second docking ring, a front end cap, a rear end cap and a partition plate, wherein the first docking ring and the second docking ring are respectively disposed on the front end face and the rear end face of the housing and embedded inside the housing, the front end cap is screwed with the first docking ring through threads, the rear end cap is screwed with the second docking ring through threads, the partition plate is disposed inside the housing, and the partition plate is screwed with the second docking ring through threads;

the power module is screwed with the rear end cover through threads.

6. The airborne rail-launched high-rise building emergency rescue bomb according to claim 5, further comprising a blasting agent installation cover, two blocking covers and installation terminals, wherein the blasting agent installation cover is screwed with the isolation plate through threads, the two blocking covers are screwed with the isolation plate through threads, the installation terminals are arranged on the front end cover, one end of the blasting dispersion module penetrates through the blasting agent installation cover and is inserted into the shell, and the other end of the blasting dispersion module is limited by the installation terminals.

7. The airborne orbit launching high-rise building emergency rescue bomb according to claim 4, wherein the power module comprises a first mounting frame, a second mounting frame, four rear wings and a rocket engine, the first mounting frame and the second mounting frame are respectively sleeved on the rocket engine, second slots are formed in the first mounting frame and the second mounting frame, and the rear wings are inserted into the second slots;

the front wing and the rear wing correspond to each other and are on the same horizontal plane.

8. The airborne rail-launched high-rise building emergency rescue projectile of claim 1, wherein the dispersion blasting module comprises a column of blasting explosive and a column of blasting explosive mounting tube, the column of blasting explosive being disposed in the load module, the column of blasting explosive being removably inserted into the column of blasting explosive mounting tube, the column of blasting explosive being located on a central axis of the load module.

9. The airborne rail-launched high-rise building emergency rescue bomb of claim 1, further comprising a control board disposed in the load module, the control board being connected to the burst dispersion module, the control board being connected to the power module.

10. The airborne rail-launched high-rise building emergency rescue bomb according to any one of claims 4-7, wherein the housing is of degradable paper material.

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