CN110101969B - Emergency treatment equipment and method for detecting mobile pre-starting - Google Patents

Abstract

The invention belongs to the technical field of emergency equipment, and discloses emergency equipment and a method for detecting mobile pre-starting, which are characterized in that: including the defibrillator, the defibrillator includes power module, main control unit, removal detecting element and defibrillation unit, power module includes power module, main control unit includes the treater, removal detecting element includes magnetism knot and magnetic sheet, the invention has set up magnetism knot, magnetic sheet, wire picture peg and wire socket, the defibrillator is taken out the back, magnetism knot breaks away from the draw-in groove, magnetic sheet and wire picture peg reset under insulating spring's resilience to guarantee that wire picture peg and wire socket form the block, thereby form between messenger power module and the treater and be connected, can effectively realize automatic start-up operation after being taken out with guaranteeing this defibrillator, therefore effectively avoided the on-the-spot problem that needs to wait for the start-up of first aid, effectively saved first aid time.

Description

Emergency treatment equipment and method for detecting mobile pre-starting

Technical Field

The invention belongs to the technical field of emergency equipment, and particularly relates to emergency equipment and a method for detecting mobile pre-starting.

Background

First-aid equipment in a broad sense, all equipment capable of saving life in a short time is first-aid equipment, and the market generally refers to the first-aid equipment which belongs to a narrow category and is mainly necessary conventional medical equipment for rescuing patients in hospitals, such as cardiac defibrillators;

the existing first-aid equipment is mostly stored in a designated place when not in use, when in use, the equipment is taken out of the place and then is taken to an accident position for starting up and rescue, but as is known, the rescue is a matter of many minutes and seconds, and the equipment needs to spend a certain time when being started up on site, so that the problem of delay of the first-aid operation occurs, therefore, irreparable consequences are easy to generate in the process of first-aid, in addition, in order to realize the quick taking-out of the first-aid equipment, the storage place is mostly an open place, and the existing first-aid equipment can not effectively judge whether the taken-out equipment is used for the first-aid operation or stolen when being taken out, so the problem of equipment loss exists inevitably.

Disclosure of Invention

The invention aims to provide first-aid equipment and a method for detecting mobile pre-starting up, which aim to solve the problems that the prior first-aid equipment needs to be started up on site when in use, so that the first-aid operation is delayed, and the anti-theft of the first-aid equipment cannot be effectively realized.

In order to achieve the purpose, the invention provides the following technical scheme: the emergency equipment for detecting the mobile pre-starting comprises a defibrillator, wherein the defibrillator comprises a power module, a main control unit, a mobile detection unit and a defibrillation unit; the main control unit comprises a processor; after the mobile detection unit detects that the defibrillator generates a mobile signal, the mobile detection unit sends the mobile signal to the main control unit, and the main control unit controls the defibrillation unit to start; the defibrillator is further provided with a positioning module, and the positioning module is electrically connected with the processor and the power supply module.

Preferably, the removal is listened the unit and is included magnetic buckle and magnetic plate, the defibrillator still includes time switch, timing module and wireless signal transceiver, time switch, timing module and wireless signal transceiver with treater, power module electric connection, the bottom of defibrillator is provided with the installation base, the position department that installation base top is located defibrillator one side installs adjustable fender, one side outer wall and the magnetic buckle of adjustable fender are connected, the draw-in groove has been seted up on one side outer wall of defibrillator, the magnetic plate is located the inside of draw-in groove, and the inside bottom embedding of defibrillator has wire socket and wire picture peg, the wire picture peg is located one side of wire socket, and wire picture peg and defibrillator inner wall sliding connection, the wire picture peg is connected with wire socket block, and the welding has insulating connecting rod between wire picture peg and the magnetic plate, the cover is equipped with insulating spring on the insulating connecting rod. Preferably, the defibrillator is internally provided with a control switch, the control switch is internally and anticlockwise sequentially provided with a mobile sensor, a single chip microcomputer and a relay, the mobile sensor is electrically connected with the single chip microcomputer, and the single chip microcomputer and the relay are electrically connected with a power module.

Preferably, a charging socket is arranged on the outer wall of one side, adjacent to the clamping groove, of the defibrillator, a fixing groove is arranged on the outer wall of one side of the mounting base, two charging plugs are connected to the inner portion of the fixing groove in a clamped mode, a data line is connected between the two charging plugs, and the two charging plugs are connected with the charging socket and the external power socket in a clamped mode respectively.

Preferably, the inside of fixed slot installs the data line take-up reel, the data line take-up reel is located between two charging plugs, and the data line between two charging plugs all around the inside of locating the data line take-up reel.

Preferably, the defibrillator is adjacent to the charging socket and is provided with a mounting groove on one side outer wall, the internally mounted of mounting groove has the camera, camera and treater electric connection.

Preferably, transparent toughened glass is embedded into the mounting groove and is located at one end of the camera.

Preferably, the installation base is L type structure, and two spouts, two have been seted up to the top symmetry of installation base the spout has adjustable fender through slider sliding connection, and the inside position department that is located slider one side of two spouts all welds there is spacing spring.

Preferably, the bottom welding of installation base has a mounting plate, the position department that lies in the installation base both sides on the mounting plate has all seted up the mounting hole, and the mounting hole is mutually supported with the construction bolt.

The working method of the emergency equipment for detecting the mobile pre-starting comprises the following steps in sequence:

step S1: the installation base is fixed at the designated position in the storage place through the cooperation between the installation bottom plate and the bolt, then the defibrillator is installed on the top end of the installation base, the end of the movable baffle plate and the installation base are utilized to clamp and fix the defibrillator, then two charging plugs are pulled out from the fixing groove, one charging plug is inserted into the jack panel in the place, the other charging plug is inserted into the charging jack, and the defibrillator is connected with an external power supply.

Step S2: when the defibrillator needs to be used, a handle at the top end of the defibrillator is held, the defibrillator is pulled out of the mounting base, the clamping groove is separated from the magnetic buckle, the timing switch/control switch is triggered to be connected with the power supply module, the timing switch starts timing, the switch is closed to conduct the processor after timing is finished, and starting operation is achieved under the driving of the processor;

when the control switch is switched on, the motion sensor detects the motion state of the defibrillator and transmits a signal to the single chip microcomputer, and the single chip microcomputer controls the relay to be closed and switches on the processor.

And step S3: the defibrillator starts a positioning module, a timing module, a wireless signal transceiver and a camera after being started, the positioning module determines the moving position of the defibrillator, the camera and the wireless signal transceiver record and transmit the moving and using scenes of the defibrillator, the timing module starts self-locking countdown, and sends a 'self-locking or not' request instruction to a background monitoring center through the wireless signal transceiver when the self-locking countdown is finished.

And step S4: when the camera does not detect any emergency scene, the monitoring personnel of the background monitoring center outputs a 'yes' return instruction, and the wireless signal transceiver receives the instruction and cooperates with the processor to form self-locking of the overall system of the defibrillator.

Step S5: when the camera detects a corresponding emergency scene, the monitoring personnel in the background monitoring center outputs a no return instruction, and the defibrillator is continuously started for use.

Compared with the prior art, the invention has the following beneficial effects:

(1) The invention is provided with the magnetic buckle, the magnetic plate, the wire plug board and the wire socket, and the magnetic buckle and the magnetic plate have opposite magnetic poles, so that the magnetic buckle and the magnetic plate are mutually attracted when being clamped into the clamping groove, the wire plug board and the wire socket are driven to be separated, the defibrillator is ensured to be in a shutdown state when being stored, the magnetic buckle is separated from the clamping groove after the defibrillator is taken out, the magnetic plate and the wire plug board reset under the resilience of the insulating spring, and the wire plug board and the wire socket are ensured to be clamped, so that the power module and the processor are connected, the defibrillator can effectively realize automatic startup operation after being taken out, the problem that the start-up needs to be waited in an emergency site is effectively avoided, and the emergency time is effectively saved.

(2) The invention is provided with the timing switch and the control switch, the timing switch and the control switch are both connected between the power supply module and the processor, the timing switch or the control switch is started firstly after the wire plug board is connected with the wire socket, wherein the timing switch has a certain time delay function, and the control switch has a movement detection function by utilizing the movement sensor, so that a certain confirmation and time delay effect is formed on the premise of ensuring that the defibrillator can be started successfully in the movement process, thereby effectively avoiding the phenomenon of mistaken starting.

(3) The invention is provided with a positioning module, a camera, a timing module and a wireless signal transceiver, after the defibrillator is taken out, the positioning module and the camera are utilized to record the positioning position of the defibrillator and the scene pictures during movement and use respectively, and the positioning position and the scene pictures during movement and use are simultaneously transmitted to a background monitoring center in cooperation with the wireless signal transceiver so as to monitor the movement and use of the defibrillator.

(4) The defibrillator mounting device is provided with the mounting base, the movable baffle, the sliding groove, the sliding block and the limiting spring, the movable baffle can effectively move by utilizing the matching of the sliding groove and the sliding block, so that the defibrillator can be conveniently mounted, the movable baffle is mutually matched with the L-shaped mounting base to form a U-shaped groove, so that the stability of the defibrillator during mounting is ensured, in addition, the limiting spring is arranged on one side of the sliding block, and certain pressing force is provided by utilizing the elastic deformation of the limiting spring, so that the clamping effect of the defibrillator is further improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a front view of the flapper of the present invention;

FIG. 5 is a schematic view of the mounting base of the present invention;

fig. 6 is a schematic structural diagram of a first embodiment of a defibrillator of the present invention;

FIG. 7 is an enlarged view of the invention at A;

FIG. 8 is an enlarged view of the invention at B;

fig. 9 is a schematic diagram of a second embodiment of a defibrillator of the present invention;

FIG. 10 is a schematic diagram of a control switch according to the present invention;

FIG. 11 is a circuit block diagram of embodiment 1 of the present invention;

fig. 12 is a circuit block diagram of embodiment 2 of the present invention.

In the figure: the automatic defibrillator comprises a defibrillator 1, a defibrillator 2, a mounting base plate 3, a charging jack 4, a data line take-up reel 5, a fixing groove 6, a charging plug 7, a movable baffle 8, a sliding groove 9, a clamping groove 10, a sliding block 11, a magnetic buckle 12, a limiting spring 13, a positioning module 14, a power module 15, a timing switch 16, a processor 17, a timing module 18, a wireless signal transceiver 19, transparent toughened glass 20, a mounting groove 21, a camera 22, a wire plugboard 23, a wire socket 24, an insulating spring 25, an insulating connecting rod 26, a magnetic plate 27, a control switch 28, a mobile sensor 29, a single chip microcomputer 30 and a relay 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-7, the present invention provides the following technical solutions: the emergency equipment for detecting the mobile pre-starting comprises a defibrillator 1, wherein the defibrillator 1 comprises a power module 15, a main control unit, a mobile detection unit and a defibrillation unit; the main control unit comprises a processor 17; after the mobile detection unit detects that the defibrillator 1 generates a mobile signal, the mobile detection unit sends the mobile signal to the main control unit, and the main control unit controls the defibrillation unit to be started; the defibrillator 1 is further provided with a positioning module 14, a timing switch 16, a timing module 18 and a wireless signal transceiver 19, the positioning module 14, the timing module 18 and the wireless signal transceiver 19 are all electrically connected with a processor 17, the processor 17 is electrically connected with the timing switch 16, the timing switch 16 is electrically connected with a power module 15, the processor 17 adopts a CPU, the positioning module 14 can adopt the technologies of GPS positioning, beidou satellite positioning, base station positioning, wifi positioning, bluetooth positioning and the like, the position of the defibrillator 1 is effectively positioned by utilizing the positioning module 14, so that the defibrillator 1 can be quickly found back even if the defibrillator 1 is stolen, the timing module 18 can be a timer, the power module 15 can be a built-in battery, the power module 15 and the processor 17 are fixed in the defibrillator 1 through bolts, the mobile detection unit comprises a magnetic buckle 12 and a magnetic plate 27, the bottom end of the defibrillator 1 is provided with the mounting base 2, the top end of the mounting base 2 is positioned at one side of the defibrillator 1 and is provided with the movable baffle plate 8, the outer wall of one side of the movable baffle plate 8 is connected with the magnetic buckle 12, the movable baffle plate 8 and the magnetic buckle 12 can be fixed in a welding mode, the bottom surface of the magnetic buckle 12 is of an inclined plane structure, the outer wall of one side of the defibrillator 1 is provided with the clamping groove 10, the magnetic plate 27 is positioned inside the clamping groove 10, the magnetic plate 27 is in sliding connection with the inner wall of the clamping groove 10, opposite magnetic poles are arranged between the magnetic plate 27 and the magnetic buckle 12, so that the magnetic plate 27 and the magnetic buckle 12 can be mutually attracted, the position of the magnetic plate 27 is effectively limited, the bottom end inside the defibrillator 1 is embedded with the lead socket 24 and the lead inserting plate 23, the lead inserting plate 23 is positioned at one side of the lead socket 24, and the lead inserting plate 23 is in sliding connection with the inner wall of the defibrillator 1, the wire inserting plate 23 is connected with the wire socket 24 in a clamping mode, an insulating connecting rod 26 is welded between the wire inserting plate 23 and the magnetic plate 27, and an insulating spring 25 is sleeved on the insulating connecting rod 26.

Example 2

Referring to fig. 1 to 9, the timing switch 16 in embodiment 1 is replaced with a control switch 28, other structures remain unchanged, the control switch 28 is installed inside the defibrillator 1, a motion sensor 29, a single chip microcomputer 30 and a relay 31 are installed inside the control switch 28 in sequence in a counterclockwise direction, the single chip microcomputer 30 is an AT89S51 single chip microcomputer, the motion sensor 29 is electrically connected to the single chip microcomputer 30, the single chip microcomputer 30 and the relay 31 are both electrically connected to the power module 15, the motion sensor 29 is a motion sensor, and can effectively detect whether the defibrillator 1 is in a continuous motion state, and if the defibrillator 1 is in the motion state, the relay 31 is started through the single chip microcomputer 30, so that the processor 17 is turned on.

Example 3

As shown in fig. 1-9, the same structure as embodiment 2 is adopted, wherein the mobile sensor 29 is a short-distance wireless distance measuring sensor, which can effectively detect the distance between the taken defibrillator 1 and the mounting base 2, and when the distance between the two exceeds the detectable distance, the relay 31 is started by the single chip 30, so as to achieve the conduction of the processor 17.

In the invention, preferably, a charging socket 4 is arranged on the outer wall of one side of the defibrillator 1 adjacent to the clamping groove 10, a fixing groove 6 is arranged on the outer wall of one side of the mounting base 2, two charging plugs 7 are connected to the inside of the fixing groove 6 in a clamping manner, a data line is connected between the two charging plugs 7, and the two charging plugs 7 are respectively connected with the charging socket 4 and an external power socket in a clamping manner.

In the invention, preferably, the data wire take-up reel 5 is installed inside the fixing groove 6, the data wire take-up reel 5 is located between the two charging plugs 7, the data wire between the two charging plugs 7 is wound inside the data wire take-up reel 5, and the take-up structure and principle of the data wire take-up reel 5 can refer to the chinese utility model with the patent number CN 208182369U.

In the present invention, preferably, an installation groove 21 is formed on an outer wall of the defibrillator 1 adjacent to the charging socket 4, a camera 22 is installed inside the installation groove 21, and the camera 22 is electrically connected to the processor 17.

In the present invention, preferably, the transparent tempered glass 20 is embedded in the mounting groove 21, and the transparent tempered glass 20 is located at one end of the camera 22, and the camera 22 is embedded in the mounting groove 21 by the arrangement of the transparent tempered glass 20, so that on one hand, the camera 22 can smoothly complete a video recording operation, and on the other hand, the defibrillator 1 is prevented from causing damage to the camera 22 when being moved or used.

In the invention, preferably, the mounting base 2 is of an L-shaped structure, two sliding grooves 9 are symmetrically formed in the top end of the mounting base 2, the two sliding grooves 9 are connected with movable baffles 8 in a sliding mode through sliding blocks 11, and limiting springs 13 are welded at positions, located on one sides of the sliding blocks 11, in the two sliding grooves 9.

In the invention, preferably, the bottom end of the mounting base 2 is welded with the mounting bottom plate 3, mounting holes are formed in the positions, located on two sides of the mounting base 2, of the mounting bottom plate 3, and the mounting holes are matched with mounting bolts.

The working method of the emergency equipment for detecting the mobile pre-starting comprises the following steps in sequence:

step S1: the installation base is fixed at the designated position in the storage place through the cooperation between the installation bottom plate and the bolt, then the defibrillator is installed on the top end of the installation base, the end of the movable baffle plate and the installation base are utilized to clamp and fix the defibrillator, then two charging plugs are pulled out from the fixing groove, one charging plug is inserted into the jack panel in the place, the other charging plug is inserted into the charging jack, and the defibrillator is connected with an external power supply.

Step S2: when the defibrillator needs to be used, a handle at the top end of the defibrillator is held, the defibrillator is pulled out of the mounting base, the clamping groove is separated from the magnetic buckle at the moment, the connection between the timing switch/control switch and the power supply module is triggered, the timing switch starts timing, the switch is closed to conduct the processor after the timing is finished, and the starting operation is realized under the driving of the processor;

when the control switch is switched on, the motion sensor detects the motion state of the defibrillator and transmits a signal to the single chip microcomputer, and the single chip microcomputer controls the relay to be switched on and switches on the processor.

And step S3: the defibrillator starts a positioning module, a timing module, a wireless signal transceiver and a camera after being started, the positioning module determines the moving position of the defibrillator, the camera and the wireless signal transceiver record and transmit the moving and using scenes of the defibrillator, the timing module starts self-locking countdown, and sends a self-locking or not request instruction to a background monitoring center through the wireless signal transceiver when the self-locking countdown is finished.

And step S4: when the camera does not detect any emergency scene, monitoring personnel in a background monitoring center outputs a 'yes' return instruction, and the wireless signal transceiver receives the instruction and is matched with the processor to form self-locking of the overall system of the defibrillator.

Step S5: when the camera detects a corresponding emergency scene, the monitoring personnel in the background monitoring center outputs a no return instruction, and the defibrillator is continuously started for use.

The working principle and the using process of the invention are as follows: when the defibrillator 1 needs to be used, a handle at the top end of the defibrillator 1 is held, the defibrillator 1 is lifted upwards, at the moment, the inclined planes at the bottom ends of the clamping groove 10 and the magnetic buckle 12 slide, so that the defibrillator 1 can be taken out smoothly, the magnetic buckle 12 is separated from the clamping groove 10, the separated magnetic plate 27 loses magnetic attraction force, moves towards the inside of the clamping groove 10 under the rebound of the insulating spring 25, and drives the lead inserting plate 23 to move synchronously through the insulating connecting rod 26, so that the lead inserting plate 23 is clamped with the lead socket 24, and at the moment, the timing switch 16 or the control switch 28 is in conductive connection with the power module 15;

the timing switch 16 starts timing after being conducted, the timing time is 1 minute, and the timing switch 16 is closed after the timing is finished, so that the power module 15 is conducted with the processor 17;

after the control switch 28 is turned on, the motion sensor 29 is started to detect, whether the defibrillator 1 is in a continuous motion state or not can be detected, the distance between the defibrillator 1 and the mounting base 2 can also be detected, the detection structure is transmitted into the single chip microcomputer 30, the single chip microcomputer 30 judges and drives the relay 31, the relay 31 is closed, and therefore conduction between the processor 17 and the power module 15 is formed;

when the processor 17 is turned on, the automatic power-on operation of the defibrillator 1 is realized, structures such as the positioning module 14, the timing module 18, the wireless signal transceiver 19 and the camera 22 in the defibrillator 1 are started, the positioning module 14 is used for positioning the current position of the defibrillator 1, the camera 22 is used for recording the surrounding environment state of the defibrillator 1 and is matched with the wireless signal transceiver 19, image signals of the position and the surrounding environment of the defibrillator 1 are transmitted to the background monitoring center, meanwhile, the timing module 18 starts timing, the timing duration is 1 hour, after the timing is finished, the processor 17 controls the wireless signal transceiver 19 to send a self-locking request instruction to the background monitoring center, and a monitoring person selects whether to self-lock according to the monitored actual condition;

after the emergency operation is completed, the defibrillator 1 needs to be returned to the original installation base 2, when the defibrillator 1 is installed, the movable baffle 8 is pulled towards the direction far away from the L end of the installation base 2, the movable baffle 8 drives the sliding block 11 to move synchronously, and the limiting spring 13 in the sliding groove 9 is squeezed, so that the installation space of the defibrillator 1 is increased, the defibrillator 1 is placed, the movable baffle 8 is loosened after the defibrillator 1 is placed, the movable baffle 8 is clamped on one side of the defibrillator 1 under the rebounding of the limiting spring 13, the magnetic buckle 12 is just clamped inside the clamping groove 10, the magnetic buckle 12 generates attraction force on the magnetic plate 27 by utilizing the opposite attraction characteristic, the magnetic plate 27 is close to the magnetic buckle 12, the lead inserting plate 23 is driven to be separated from the lead socket 24, and the whole defibrillator 1 is driven to be in a power-off state.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Detect the first aid equipment who removes start-up in advance, its characterized in that: the defibrillator (1) comprises a defibrillator, wherein the defibrillator (1) comprises a power module (15), a main control unit, a mobile detection unit and a defibrillation unit;

the master control unit comprises a processor (17);

after the motion detection unit detects that the defibrillator (1) generates a motion signal, the motion signal is sent to the main control unit, and the main control unit controls the defibrillation unit to be started;

the defibrillator (1) is further provided with a positioning module (14), and the positioning module (14) is electrically connected with the processor (17) and the power supply module (15);

the movement detection unit comprises a magnetic buckle (12) and a magnetic plate (27), the defibrillator also comprises a timing switch (16), a timing module (18) and a wireless signal transceiving device (19), the timing switch (16), the timing module (18) and the wireless signal transceiver (19) are electrically connected with the processor (17) and the power module (15), the bottom end of the defibrillator (1) is provided with a mounting base (2), a movable baffle (8) is arranged at the position of the top end of the mounting base (2) on one side of the defibrillator (1), the outer wall of one side of the movable baffle (8) is connected with a magnetic buckle (12), the external wall of one side of the defibrillator (1) is provided with a card slot (10), the magnetic plate (27) is positioned in the card slot (10), and the bottom end of the interior of the defibrillator (1) is embedded with a lead socket (24) and a lead plug board (23), the wire inserting plate (23) is positioned at one side of the wire socket (24), and the lead inserting plate (23) is connected with the inner wall of the defibrillator (1) in a sliding way, the lead inserting plate (23) is connected with the lead socket (24) in a clamping way, and an insulating connecting rod (26) is welded between the lead inserting plate (23) and the magnetic plate (27), and an insulating spring (25) is sleeved on the insulating connecting rod (26).

2. The emergency equipment of claim 1, wherein the emergency equipment comprises: the utility model discloses a defibrillator (1) with the relay, including defibrillator (1), internally mounted has control switch (28), the inside anticlockwise of control switch (28) is installed in proper order and is removed sensor (29), singlechip (30) and relay (31), remove sensor (29) and singlechip (30) electric connection, singlechip (30) and relay (31) all with power module (15) electric connection.

3. The emergency equipment of claim 1, wherein the emergency equipment comprises: charging socket (4) have been seted up on defibrillator (1) adjacent to one side outer wall of draw-in groove (10), fixed slot (6) have been seted up on one side outer wall of installation base (2), the inside block of fixed slot (6) is connected with two charging plug (7), two be connected with the data line between charging plug (7), and two charging plug (7) are connected with charging socket (4) and external power socket block respectively.

4. The emergency equipment of claim 3, wherein the emergency equipment comprises: the inside mounting of fixed slot (6) has data line take-up reel (5), data line take-up reel (5) are located between two charging plug (7), and the data line between two charging plug (7) is all around the inside of locating data line take-up reel (5).

5. The emergency equipment of claim 3, wherein the emergency equipment comprises: mounting groove (21) have been seted up on defibrillator (1) the one side outer wall that is adjacent to charging socket (4), the internally mounted of mounting groove (21) has camera (22), camera (22) and treater (17) electric connection.

6. The emergency equipment of claim 5, wherein the emergency equipment comprises: transparent toughened glass (20) are embedded into the mounting groove (21), and the transparent toughened glass (20) is located at one end of the camera (22).

7. The emergency equipment of claim 1, wherein the emergency equipment comprises: installation base (2) are L type structure, and two spout (9), two have been seted up to the top symmetry of installation base (2) spout (9) have adjustable fender (8) through slider (11) sliding connection, and the inside position department that is located slider (11) one side of two spout (9) all welds spacing spring (13).

8. The emergency equipment of claim 1, wherein the emergency equipment comprises: the bottom welding of installation base (2) has mounting plate (3), the mounting hole has all been seted up to the position department that lies in installation base (2) both sides on mounting plate (3), and the mounting hole mutually supports with the construction bolt.

9. The emergency equipment of claim 1, wherein the operation method comprises the following steps:

step S1: the mounting base is fixed at a designated position in a storage place through the matching between the mounting base plate and the bolts, then the defibrillator is mounted at the top end of the mounting base, the defibrillator is clamped and fixed by utilizing the movable baffle and the end head of the mounting base, then two charging plugs are pulled out from the fixed groove, one charging plug is inserted into the jack panel in the place, the other charging plug is inserted into the charging jack, and the defibrillator is connected with an external power supply;

step S2: when the defibrillator needs to be used, a handle at the top end of the defibrillator is held, the defibrillator is pulled out of the mounting base, the clamping groove is separated from the magnetic buckle at the moment, the connection between the timing switch/control switch and the power supply module is triggered, the timing switch starts timing, the switch is closed to conduct the processor after the timing is finished, and the starting operation is realized under the driving of the processor;

when the control switch is switched on, the motion sensor detects the motion state of the defibrillator and transmits a signal to the single chip microcomputer, and the single chip microcomputer controls the relay to be closed and switches on the processor;

and step S3: the method comprises the following steps that a defibrillator starts a positioning module, a timing module, a wireless signal transceiver and a camera after being started, the positioning module determines the moving position of the defibrillator, the camera and the wireless signal transceiver record and transmit the moving and using scenes of the defibrillator, the timing module starts self-locking countdown, and sends a 'self-locking or not' request instruction to a background monitoring center through the wireless signal transceiver when the self-locking countdown is finished;

and step S4: when the camera does not detect any emergency scene, the monitoring personnel of the background monitoring center outputs a 'yes' return instruction, and the wireless signal transceiver receives the instruction and cooperates with the processor to form self-locking of the overall system of the defibrillator;

step S5: when the camera detects a corresponding emergency scene, the monitoring personnel in the background monitoring center outputs a no return instruction, and the defibrillator is continuously started for use.

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