CN111576993A - Air-drop system for emergency treatment negative pressure tent - Google Patents

Abstract

The invention relates to the technical field of emergency rescue material airdrop, in particular to an airdrop system for an emergency rescue negative-pressure tent, which comprises a plurality of rescue subsystems corresponding to the negative-pressure tent one by one and an airdrop subsystem for throwing the rescue subsystems, wherein the airdrop subsystem sends an airdrop starting signal and an airdrop type to the rescue subsystems when throwing; the treatment subsystem comprises a communication module, a control module and a prompt module, the communication module is used for receiving an air-drop starting signal and an air-drop type and sending the air-drop starting signal and the air-drop type to the control module, the control module sends prompt information to the prompt module according to the starting signal and the air-drop type, and the prompt module is used for prompting the installation position of the negative pressure tent according to the prompt information. By prompting the installation position of the negative pressure tent, the invention can avoid repeated disassembly and assembly caused by position errors of a plurality of negative pressure tents in the installation process, and improve the speed of assembling the negative pressure tents into the mobile hospital.

Description

Air-drop system for emergency treatment negative pressure tent

Technical Field

The invention relates to the technical field of emergency rescue goods and materials air-drop, in particular to an air-drop system for an emergency rescue negative-pressure tent.

Background

When an emergency occurs in a region or a city, emergency assistance or emergency treatment needs to be performed in other or peripheral regions, for example, the emergency assistance or emergency treatment of building damage, road interruption and casualties caused by earthquakes, debris flows, floods and other causes of geological disasters. In response to the development of rescue and treatment activities such as delivery of first aid and emergency treatment materials and the restriction of road interruption, the delivery of materials based on air drop is not limited by regions, and thus the use is wide.

The important material of present emergency treatment is including the negative pressure tent that constitutes the mobile hospital, according to the difference of emergency treatment environment, can use the negative pressure tent of a plurality of different sizes to constitute the mobile hospital of different scales and different grade type, like air transportation surgical hospital, light-duty air transportation surgical hospital and core air transportation surgical hospital. After the negative-pressure tent is airdropped to the ground, the negative-pressure tent is built into a mobile hospital by staff, so that a good medical treatment environment is provided. However, the negative pressure tent after the air transportation is put in is carried out after being folded and packed, the positions of the negative pressure tents in different types of mobile hospitals are not unique, and especially when the number of the negative pressure tents is large, the installation positions and the sequence of the negative pressure tents are fuzzy, so that the negative pressure tents can be repeatedly disassembled and assembled due to the error installation positions, and even cannot be installed.

Disclosure of Invention

The invention aims to provide an air-drop system for an emergency negative-pressure tent, which aims to solve the problem of installation of the negative-pressure tent after the negative-pressure tent is dropped.

The airdrop system for the negative-pressure emergency treatment tent comprises a plurality of treatment subsystems corresponding to the negative-pressure tent one by one and an airdrop subsystem for throwing the treatment subsystems, wherein the airdrop subsystem sends an airdrop starting signal and an airdrop type to the treatment subsystems during throwing;

the treatment subsystem comprises a communication module, a control module and a prompt module, the communication module is used for receiving an air-drop starting signal and an air-drop type and sending the air-drop starting signal and the air-drop type to the control module, the control module sends prompt information to the prompt module according to the starting signal and the air-drop type, and the prompt module is used for prompting the installation position of the negative pressure tent according to the prompt information.

The beneficial effect of this scheme is:

when the negative-pressure tent for emergency treatment is airdropped, the folded and packaged negative-pressure tent is used as a treatment subsystem to be airdropped, and when the negative-pressure tent is airdropped, a starting signal and an airdrop type are sent to the treatment subsystem through the airdrop subsystem, and the airdrop type can be determined according to the mobile hospital type which can be formed by the airdrop negative-pressure tent.

After the airdrop, receive start signal and airdrop type by the communication module on the rescue subsystem and send to control module, control module sends tip information to the tip module according to start signal, then the mounted position of negative pressure tent is indicateed by tip module, because the negative pressure tent need support through supporting the gas column when the installation, then the negative pressure tent after will supporting feeds through and forms and removes the hospital, need remove or tear down the support after the support to the negative pressure tent after the installation mistake after, the operation is complicated, the mounted position of suggestion negative pressure tent, can avoid the position mistake of a plurality of negative pressure tents in the installation and lead to the dismouting repeatedly, improve the speed that the negative pressure tent assembles into and removes the hospital.

Further, the prompt module comprises a position display, a prompter and a scanner, the position display carries position information, the position information of the position display scanned by the scanner is sent to the control module, a unique equipment number is added when the scanner sends the position information, the control module judges whether the equipment number is successfully matched with the position information, the control module sends a prompt signal to the prompter when the equipment number is successfully matched with the position information, and the prompter prompts that the matching is successful according to the prompt signal.

The beneficial effects are that: when the negative pressure tent is installed, the scanner on the prompt module scans position information between the two negative pressure tents, the scanned position information is matched with the equipment number of the scanner by the control module, the matching is successful, the two negative pressure tents are installed adjacently, and at the moment, the prompt signal is sent to prompt the installation, so that the accuracy of the installation position of the negative pressure tent is improved.

Furthermore, the rescue subsystem further comprises a controlled locking piece for locking the binding negative-pressure tent bandage, the controlled locking piece is in signal connection with the control module, and the control module controls the controlled locking piece to be opened when the equipment number is successfully matched with the position information.

The beneficial effects are that: after the installation positions of the two negative-pressure tents are correct, the control module controls the controlled locking piece to open the negative-pressure tent to be unfolded for installation, and inconvenience in carrying the scattered negative-pressure tents is avoided.

Further, the control module sends the position relation to a position display when the equipment number is successfully matched with the position information, and the position display displays the position relation of the two negative pressure tents.

The beneficial effects are that: after the matching is successful, the position relation of the two negative pressure tents is displayed, and the device is more direct and convenient and rapid to install.

Further, the treatment subsystem further comprises a detection module, the detection module is used for sending a floor signal to the control module when detecting that the negative pressure tent is located on the ground, the control module sends induction information to the communication module according to the floor signal, the communication module sends out the induction signal according to the induction information and receives the induction signal of the adjacent treatment subsystem, the control module obtains the induction signal of the adjacent treatment subsystem from the communication module, and the control module sends an early warning signal to the prompt module when not obtaining the induction signal of the adjacent treatment subsystem.

The beneficial effects are that: after detecting negative pressure tent and falling to the ground, send out the sensing signal through communication module, let mutual response carry out between a plurality of negative pressure tents, carry out the early warning when given signal is not sensed to arbitrary negative pressure tent, avoid omitting arbitrary negative pressure tent and not knowing, moreover, when having lacked a negative pressure tent between two negative pressure tents, two negative pressure tents can both be indicateed, in time confirm the position of lacking the negative pressure tent, in order to carry out the position reservation before finding this negative pressure tent who omits.

Further, the detection module detects temperature signals of environment personnel and sends the temperature signals to the control module, and the control module sends light early warning to the prompt module when not acquiring the induction signals of the adjacent treatment subsystem and not receiving the temperature signals.

The beneficial effects are that: when negative pressure tent causes the position skew of falling to the ground because of input or environmental reason, when negative pressure tent is located the position of over-range promptly, if outside staff's field of vision scope, the convenient negative pressure tent outside the distance scope of light early warning is in time discovered.

Further, when the control module does not acquire the induction signal of the adjacent treatment subsystem and receives the temperature signal, light early warning and sound early warning are sent to the prompt module.

The beneficial effects are that: when any negative pressure tent is carried to an area outside a preset place by workers and the distance from the workers is small, double warning of sound and light is carried out to prompt that the carrying is wrong.

Further, when the control module receives the temperature signal of the detection module before receiving the floor signal, the control module sends a danger prompt signal to the prompt module.

The beneficial effects are that: before the negative pressure tent of air-drop fell to the ground promptly, detected that there is the personnel below the negative pressure tent to stand, carries out dangerous suggestion this moment to can in time remind personnel whereabouts object, prevent that the personnel of air-drop negative pressure tent below from being pounded to arrive.

Furthermore, the prompting module further comprises a controlled switch and an expansion component, the controlled switch is connected with the control module through signals, the control module controls the controlled switch to be opened to enable the expansion component to expand when sending danger prompting signals, and the expansion component is located in a gap for binding a negative-pressure tent binding band.

The beneficial effects are that: when a person stands below the airdrop negative-pressure tent, the expansion part is controlled to be opened and expanded, and the expansion part buffers the impact force of the negative-pressure tent.

Furthermore, the expansion part comprises a plurality of air storage air bags and an air storage air bag, the controlled switch is positioned on the air storage air bag and clamps the air storage air bag into two chambers, sodium bicarbonate is stored in one chamber of the air storage air bag, the air storage air bag is communicated with the chamber for storing the sodium bicarbonate, acetic acid is stored in the other chamber of the air storage air bag, and the controlled switch is in signal connection with the control module.

The beneficial effects are that: when the expansion component is opened, the control module controls the controlled switch to be opened, sodium bicarbonate in the storage air bag and acetic acid are chemically reacted to generate carbon dioxide to expand the storage air bag, and the impact force between the partial air-drop negative pressure tent and the ground is buffered.

Drawings

FIG. 1 is a schematic block diagram of a rescue subsystem in an embodiment of the air-drop system for an emergency rescue negative pressure tent;

FIG. 2 is a top view of a light air-transport surgical hospital according to an embodiment of the air-drop system for negative pressure tent for emergency treatment;

FIG. 3 is a top view of the aerial delivery system for an emergency treatment negative pressure tent in a surgical hospital according to an embodiment of the present invention;

FIG. 4 is a top view of a core surgery hospital according to an embodiment of the air-drop system for an emergency treatment negative pressure tent;

fig. 5 is a longitudinal sectional view illustrating a controlled locking member in an embodiment of the air-drop system for an emergency treatment negative pressure tent according to the present invention;

FIG. 6 is a schematic block diagram of the rescue subsystem in the second embodiment of the air-drop system for an emergency rescue negative pressure tent;

fig. 7 is a schematic structural view of the folded and packaged negative pressure tent in the fourth embodiment of the air-drop system for an emergency treatment negative pressure tent.

Detailed Description

The following is a more detailed description of the present invention by way of specific embodiments.

Reference numerals in the drawings of the specification include: the device comprises an electromagnet 1, an iron nail 2, a slot 3, a permanent magnet 4, a bandage 5, a storage air bag 6, a storage air bag 7, an air pipe 8 and a controlled locking piece 9.

Example one

An air-drop system for an emergency treatment negative pressure tent, as shown in fig. 1: the system comprises a plurality of treatment subsystems corresponding to the negative pressure tents one to one and an air-drop subsystem for dropping the treatment subsystems, wherein the air-drop subsystem sends an air-drop starting signal and an air-drop type to the treatment subsystems when dropping, and the air-drop subsystem uses the existing whole set of equipment for safely dropping articles from the airplane to the ground.

Types of airdrops include air-freight surgical hospitals, light air-freight surgical hospitals, and core air-freight surgical hospitals. As shown in fig. 2, the lightweight airborne surgery hospital includes three general purpose tents as aisles, a first function tent as a tool room, a second function tent as an emergency room, a third function tent as an operating room and a ray room, a fourth function tent as a registry and a laboratory, a fifth function tent as a ward and a sixth function tent as an intensive care unit, and the various negative pressure tents of different functions perform the location arrangement of predetermined functions, which may affect the convenience and rationality of medical use in emergency treatment when the respective negative pressure tents are different in location. As shown in fig. 3, the air freight surgery hospital includes four general purpose tents as aisles, two first function tents as tool rooms, one second function tent as an emergency room, two third function tents as an operating room, one fourth function tent as a registry and a laboratory, two fifth function tents as a ward, one sixth function tent as an intensive care unit, one seventh function tent as a ray room, and one eighth function tent as a sterilization room. As shown in fig. 4, the core air-freight surgery hospital includes a general tent as an aisle, a first function tent as a laboratory and an intensive care unit, a second function tent as an operating room and a ray room, and a third function tent as an emergency room.

The rescue subsystem comprises a communication module, a control module and a prompt module, the communication module is in signal connection with the control module, the communication module can use an existing E72-2G4M02S2B type Bluetooth module, the communication distance is 250 meters, a communication module of a type or type suitable for requirements can be selected according to actual requirements, and the communication module is used for receiving an air-drop starting signal and an air-drop type and sending the signals to the control module; the control module sends prompt information to the prompt module according to the starting signal and the air drop type, the control module can use an existing C8051F120 type single chip microcomputer, and the prompt module is used for prompting the installation position of the negative pressure tent according to the prompt information.

The prompt module comprises a position display, a prompter and a scanner, the position display is in signal connection with the control module, the position display can use an existing small display screen, the position display carries position information, and the position display can carry the position information through displaying a preset bar code. The scanner is in signal connection with the control module, the scanner can shoot a bar code by using an existing camera to scan position information, the position information scanned by the scanner on the position display is sent to the control module, the position information can be represented by a number string of 10001, and a unique equipment number is added when the scanner sends the position information, for example, the equipment number is 001. The control module determines whether the device number and the position information are successfully matched, and if the two negative pressure tents in one air drop type need to be directly communicated, the matching is successful, that is, the position information 10003 of the tent a and the device number 005 of the tent scanner B are preset pairing objects. The control module sends a prompt signal to the prompter when the equipment number is successfully matched with the position information, and the prompter prompts that the matching is successful according to the prompt signal, for example, the prompter can send out dropping sound through the existing buzzer to prompt.

The rescue subsystem further comprises a controlled locking piece 9 for locking the binding negative-pressure tent binding belt 5, the binding belt 5 after the negative-pressure tent is folded and packaged is bound according to actual needs, and the controlled locking piece 9 is arranged between two joints after the binding belt 5 is bound. Controlled latch fitting 9 can be realized with current magnetism absorption principle, as the structure shown in fig. 5, controlled latch fitting 9 includes permanent magnet 4 and electro-magnet 1, and the both ends of bandage 5 overlap between permanent magnet 4 and electro-magnet 1, and welded iron nail 2 on electro-magnet 1 runs through bandage 5 and inserts in slot 3 in permanent magnet 4, controls controlled latch fitting 9 and opens the time control electro-magnet 1 outage promptly. Controlled latch fitting 9 signal connection control module, 1 signal connection control module of electro-magnet promptly, 1 can be with current miniature electro-magnet 1 can, control module controls controlled latch fitting 9 and opens when equipment serial number and positional information match successfully. When the equipment number and the position information are successfully matched, the position display displays the position relationship of the two negative-pressure tents, for example, the adjacent position relationship between the general tent positioned in the middle of the air transportation surgical hospital and the second function tent, the general tent positioned on any side is adjacent to the first function tent, and the first function tent and the second function tent are positioned on the same side.

The specific implementation process is as follows:

before the negative pressure tent of emergency treatment carries out the air-drop, folding packing a negative pressure tent, also can be in the same place two negative pressure tent folding packing, if to light-duty air transportation surgery hospital, fold packing three general tent together, fold packing a first tent together. The folded and packaged negative pressure tent is used as a treatment subsystem for air-drop, and when the negative pressure tent is air-dropped, a starting signal and an air-drop type are sent to the treatment subsystem through the air-drop subsystem, and the air-drop type can be determined according to the type of a mobile hospital which can be formed by the air-drop negative pressure tent.

After the air drop is finished, the communication module on the treatment subsystem receives the starting signal and the air drop type and sends the starting signal and the air drop type to the control module, the scanner on the prompt module scans the position information between the two negative pressure tents, the control module matches the scanned position information with the equipment number of the scanner, if the matching is successful, the two negative pressure tents are installed adjacently, and after the matching is successful, a prompt signal is sent to prompt that the installation can be carried out, the control module controls the controlled locking piece 9 to be opened for unfolding the negative pressure tent for installation, the packed negative pressure tent is prevented from being opened randomly, the control module sends prompt information to the prompt module according to the starting signal, then the prompt module prompts the installation position of the negative pressure tent, just open the controlled part after two negative pressure tent's mounted position are correct, avoid carrying the inconvenient of negative pressure tent after will scattering.

The structure of the prior negative pressure tent is shown in the literature (application number is CN 200520129921.4). A negative pressure tent has great size, and the negative pressure tent of different functions can not fold together because of quality and the great possibility of volume and put in, can not learn the function and the mounted position of each input package from the outward appearance after putting in, and the installation is very inconvenient. And because the negative pressure tent need support the tarpaulin through the support gas post of integration when the installation, need form the tent after aerifing for supporting the gas post, and is bulky, then the negative pressure tent after will supporting is linked up and is formed and remove the hospital, need remove the negative pressure tent of great volume after the support gas post support after the installation mistake, or take out and remove after the folding negative pressure tent of air in the support gas post, the operation is complicated, the mounted position of suggestion negative pressure tent can avoid the position mistake of a plurality of negative pressure tents in the installation and lead to the dismouting repeatedly, improve the speed that the negative pressure tent assembles into and removes the hospital.

Example two

The difference from the first embodiment is that, as shown in fig. 6, the rescue subsystem further includes a detection module, the detection module is configured to send a landing signal to the control module when detecting that the negative-pressure tent is located on the ground, the detection module may use a pressure sensor of the existing ZZ110-012 model, and the detection module may be installed on the landing side of the packed negative-pressure tent, that is, the reverse side of the parachute of the airdrop negative-pressure tent. Control module sends induction information to communication module according to the signal of falling to the ground, communication module sends out induction signal and receives adjacent treatment subsystem's induction signal according to induction information, control module acquires adjacent treatment subsystem's induction signal from communication module, control module sends early warning signal to the prompt module when not acquiring adjacent treatment subsystem's induction signal, detection module detection environment personnel's temperature signal sends to control module, control module is when not acquiring adjacent treatment subsystem's induction signal and not receiving temperature signal, send the light early warning to the prompt module, the prompt module accessible carries out the light early warning to current LED lamp.

This embodiment is through detecting the negative pressure tent and falling to the ground the back, send out the sensing signal from communication module, let mutual response between a plurality of negative pressure tents, mutual response between the general tent of the distolateral of adjacent position relation to air transportation surgery hospital and first function tent, early warning when set signal is not sensed to arbitrary negative pressure tent, do not receive the signal of two third function tents to the general tent of the distolateral of other distolateral of adjacent position relation to air transportation surgery hospital promptly, avoid omitting arbitrary negative pressure tent and not know, and, when having lacked a negative pressure tent between two negative pressure tents, two negative pressure tents can both be indicateed, also can indicate to the third function tent of air transportation surgery hospital promptly, in time confirm the position of lacking the negative pressure tent, in order to carry out the position reservation before finding this negative pressure tent who misses.

When negative pressure tent causes the position skew of falling to the ground because of input or environmental reason, when negative pressure tent is located the position of over-range promptly, if outside staff's field of vision scope, the convenient negative pressure tent outside the distance scope of light early warning is in time discovered.

EXAMPLE III

The difference from the second embodiment is that the control module sends light early warning and sound early warning to the prompting module when the control module does not acquire the induction signal of the adjacent treatment subsystem and receives the temperature signal.

In this embodiment three, when arbitrary negative pressure tent is carried to the region outside the predetermined place by the staff, but apart from personnel's distance less, carry out the dual early warning simultaneously of sound and light, sound can be heard in order to let the negative pressure tent in time to be found.

Example four

The difference from the second embodiment is that, as shown in fig. 7, when the control module receives the temperature signal of the detection module before receiving the landing signal, the control module sends a danger prompt signal to the prompt module, the prompt module further includes a controlled switch and an expansion component, the controlled switch is connected to the control module through a signal, the controlled switch can be an existing electronic air valve, when the control module sends the danger prompt signal, the controlled switch is controlled to be opened to allow the expansion component to expand, and the expansion component is located in the gap between the binding negative-pressure tent straps 5.

The expansion component comprises a plurality of gas storage air bags 7 and a storage air bag 6, the gas storage air bags 7 are bonded on the folded negative-pressure tent, the controlled switch is positioned on the storage air bags and clamps the storage air bags 6 into two chambers, sodium bicarbonate is stored in one chamber of the storage air bags 6, the gas storage air bags 7 are communicated with the chambers for storing the sodium bicarbonate, acetic acid is stored in the other chamber of the storage air bags 6, the sodium bicarbonate is powdery, the sodium bicarbonate is wrapped by a permeable membrane, the sodium bicarbonate is prevented from entering the gas storage air bags 7, the storage air bags 6 are bonded on the folded negative-pressure tent, the gas storage air bags 7 and the storage air bags 6 are communicated through a gas pipe 8, and the controlled switch is in signal connection with the control module.

At present, a method for improving the accuracy of airdrop of goods and materials is to estimate a landing point of airdrop goods and materials before airdrop, and then a pilot drives an aircraft to a predetermined drop point to drop the goods and materials. Because of the influence of environment, can't carry out accurate prediction to the route of air-dropped goods and materials after putting, the air-dropped goods and materials is easily put into to ground in-process and is influenced by factors such as wind-force, and the actual position of falling to the ground of air-dropped goods and materials is difficult to confirm. Therefore, this embodiment cross detection module puts in whereabouts in-process measuring personnel body temperature at the negative pressure tent, when detecting that there is the personnel to stand in air-drop negative pressure tent below, the inflation part of control opens the inflation, and the inflation part cushions the impact force of negative pressure tent, and when the inflation part was opened, let the sodium bicarbonate in the storing gasbag 6 and the chemical reaction of acetic acid produce a large amount of carbon dioxide and make the inflation of gas storage gasbag 7, prevent to pound the impact force in the people too big.

EXAMPLE five

The difference with the second embodiment is that the system further comprises a docking subsystem positioned on the negative pressure tent, the docking subsystem comprises electromagnets positioned on the inlet and outlet of the negative pressure tent, the electromagnets are positioned below the connecting cloth of the two negative pressure tents connected with the zipper, the electromagnets on the inlet and outlet of the two negative pressure tents to be connected are the same, if the general tent of the core air transportation surgery hospital is the same as the electromagnets on the inlet and outlet of the first function tent, the electromagnets are the same, namely the size and shape of an iron core of the electromagnets, the number of turns of a coil and the distance between a wound coil and the iron core are the same, and the electromagnets of the two unconnected negative pressure tents are different, if the electromagnets on the inlet and outlet of the first function tent and the second function. The electromagnet signal on each negative pressure tent is connected with the control module of the rescue subsystem, and the control module can also use an SOC chip of Haisi. After the control modules of the two negative pressure tents to be connected acquire mutual induction signals, the control modules on each negative pressure tent control the electromagnets on the negative pressure tent to be electrified, so that the electromagnets on the negative pressure tents to be connected at the two entrances and exits are charged synchronously at the same frequency, and the electromagnets on the negative pressure tents to be connected at the two entrances and exits are adsorbed mutually. Adsorb through the electro-magnet of two same circular telegram conditions between two negative pressure tents that need connect, the adsorption affinity of two electro-magnets is equal, when two negative pressure tents that should not link together dock, two electro-magnet magnetic forces that can not link together negative pressure tents are different, there is the phenomenon that a magnetic force is greater than another magnetic force always, compare in the electro-magnet that two magnetic forces are equal and adsorb, magnetic force exists between the electro-magnet of difference and attracts to be less with power, let two negative pressure tents that should not link together can't the zonulae occludens together, with this two negative pressure tents that should link together of discernment, can also let two negative pressure tents connect inseparabler stability.

The butt joint subsystem further comprises an infrared sensing module, the infrared sensing module is in signal connection with the control module, the infrared sensing modules on the negative pressure tents needing to be connected at the two entrances and exits are respectively a paired infrared transmitting tube and an infrared receiving tube, the infrared transmitting tube and the infrared receiving tube on the two connected negative pressure tents are just right in position when the connecting zipper is closed, and the infrared sensing modules on the negative pressure tents which cannot be connected together are arranged in a staggered mode. When the control module arranged on the negative-pressure tent of the infrared receiving tube does not receive the electric signal of the infrared receiving tube, the control module on the negative-pressure tent controls the reverse direction of the electrifying current of the electromagnet on the negative-pressure tent, so that the polarities of the electromagnets of the two negative-pressure tents are the same, the generated repulsive force automatically falls off, the negative-pressure tents are convenient to disassemble, and the position of the infrared sensing module can also mark the negative-pressure tents which are connected together.

The electromagnet and the connecting zipper are used for connecting the two negative-pressure tents, so that repeated connection caused by midway separation can be avoided for an environment with high sealing performance and high temperature requirements.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A air-drop system for emergent treatment negative pressure tent, including a plurality of treatment subsystems and the air-drop subsystem of putting in treatment subsystem with negative pressure tent one-to-one, its characterized in that: the air-drop subsystem sends an air-drop starting signal and an air-drop type to the treatment subsystem during dropping;

the treatment subsystem comprises a communication module, a control module and a prompt module, the communication module is used for receiving an air-drop starting signal and an air-drop type and sending the air-drop starting signal and the air-drop type to the control module, the control module sends prompt information to the prompt module according to the starting signal and the air-drop type, and the prompt module is used for prompting the installation position of the negative pressure tent according to the prompt information.

2. The aerial delivery system for an emergency relief negative pressure tent of claim 1, wherein: the prompting module comprises a position display, a prompter and a scanner, the position display carries position information, the position information of the position display scanned by the scanner is sent to the control module, a unique equipment number is added when the scanner sends the position information, the control module judges whether the equipment number is successfully matched with the position information, the control module sends a prompting signal to the prompter when the equipment number is successfully matched with the position information, and the prompter prompts the successful matching according to the prompting signal.

3. The aerial delivery system for an emergency relief negative pressure tent of claim 2, wherein: the rescue subsystem further comprises a controlled locking piece for locking the binding negative-pressure tent bandage, the controlled locking piece is in signal connection with the control module, and the control module controls the controlled locking piece to be opened when the equipment number is successfully matched with the position information.

4. The aerial delivery system for an emergency relief negative pressure tent of claim 3, wherein: and the control module sends the position relation to a position display when the equipment number is successfully matched with the position information, and the position display displays the position relation of the two negative pressure tents.

5. The aerial delivery system for an emergency relief negative pressure tent of claim 1, wherein: the treatment subsystem further comprises a detection module, the detection module is used for sending a floor signal to the control module when detecting that the negative-pressure tent is located on the ground, the control module sends induction information to the communication module according to the floor signal, the communication module sends out the induction signal according to the induction information and receives the induction signal of the adjacent treatment subsystem, the control module obtains the induction signal of the adjacent treatment subsystem from the communication module, and the control module sends an early warning signal to the prompt module when not obtaining the induction signal of the adjacent treatment subsystem.

6. The aerial delivery system for an emergency relief negative pressure tent of claim 5, wherein: the detection module detects temperature signals of environmental personnel and sends the temperature signals to the control module, and the control module sends light early warning to the prompt module when not acquiring the sensing signals of the adjacent treatment subsystem and not receiving the temperature signals.

7. The aerial delivery system for an emergency relief negative pressure tent of claim 6, wherein: and the control module sends light early warning and sound early warning to the prompt module when not acquiring the induction signal of the adjacent treatment subsystem and receiving the temperature signal.

8. The aerial delivery system for an emergency relief negative pressure tent of claim 6, wherein: when the control module receives the temperature signal of the detection module before receiving the floor signal, the control module sends a danger prompt signal to the prompt module.

9. The aerial delivery system for an emergency relief negative pressure tent of claim 7, wherein: the prompting module further comprises a controlled switch and an expansion component, the controlled switch is connected with the control module through signals, the control module controls the controlled switch to be opened to enable the expansion component to expand when sending danger prompting signals, and the expansion component is located in a gap for binding a negative pressure tent binding band.

10. The aerial delivery system for an emergency relief negative pressure tent of claim 9, wherein: the expansion component comprises a plurality of air storage air bags and an air storage air bag, the controlled switch is positioned on the air storage air bag and clamps the air storage air bag into two chambers, sodium bicarbonate is stored in one chamber of the air storage air bag, the air storage air bag is communicated with the chamber for storing the sodium bicarbonate, acetic acid is stored in the other chamber of the air storage air bag, and the controlled switch is in signal connection with the control module.

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