CN113433863B - Emergency equipment management system - Google Patents

Abstract

The application relates to an emergency equipment management system, which comprises a master control subsystem and a plurality of background subsystems connected with the master control subsystem, wherein each background subsystem corresponds to a plurality of control subsystems, and each control subsystem corresponds to an emergency equipment; when the target emergency equipment is not required to be used, the control subsystem locks the target emergency equipment; when the target emergency equipment needs to be used, the master control subsystem and/or the background subsystem controls the control subsystem to unlock the target emergency equipment. This application has the effect of being convenient for manage emergency equipment in order.

Description

Emergency equipment management system

Technical Field

The application relates to the technical field of emergency equipment management, in particular to an emergency equipment management system.

Background

At present, some emergency equipment is required in public places all over the country, such as: electric batons, police ropes, batons, shields and the like, and for the emergency equipment mentioned above, the general disposal is to place it in the equipment cabinet, or even more simply to prevent the emergency equipment from being placed on a shelf.

In view of the above-mentioned related technologies, the inventor believes that, by simply installing the emergency equipment, anyone can take away the emergency equipment, which is likely to cause the loss or damage of the emergency equipment, and is not beneficial to orderly management of the emergency equipment, and therefore, a perfect emergency equipment management system needs to be developed.

Disclosure of Invention

In order to conveniently and orderly manage emergency equipment, the application provides an emergency equipment management system.

The application provides an emergency equipment management system adopts following technical scheme:

an emergency equipment management system comprises a master control subsystem and a plurality of background subsystems connected with the master control subsystem, wherein each background subsystem corresponds to a plurality of control subsystems, and each control subsystem corresponds to an emergency equipment;

when the target emergency equipment does not need to be used, the control subsystem locks the target emergency equipment;

when the target emergency equipment needs to be used, the master control subsystem and/or the background subsystem control the control subsystem to unlock the target emergency equipment.

By adopting the technical scheme, when the target emergency equipment is not needed, the control subsystem locks the target emergency equipment, the possibility that the target emergency equipment is lost or damaged is reduced, when the target emergency equipment is needed, the master control subsystem sends an alarm signal to the background subsystem, and the master control subsystem and/or the background subsystem control the control subsystem to unlock the target emergency equipment based on the alarm signal, so that a guard can take the target emergency equipment away for use. Locking operation or unlocking operation is carried out on the target emergency equipment according to needs, so that the emergency equipment is more standard in use, and orderly management is realized.

Optionally, the background subsystem includes a software control module and a key control module;

the software control module and the key control module are both connected with the control subsystem;

the software control module and the key control module are used for controlling the control subsystem to unlock the target emergency equipment.

By adopting the technical scheme, when the software control module fails to control, the operator on duty can control the control subsystem to unlock the target emergency equipment through the key control module, so that the guard can use the equipment conveniently.

Optionally, the control subsystem includes a lock, an emergency device mounting structure, an unlocking module and a locking module;

the unlocking module is connected with the lockset;

the locking module is connected with the lockset;

the unlocking module is used for controlling the lock to unlock the emergency equipment, and the locking module is used for controlling the lock to lock the emergency equipment.

By adopting the technical scheme, the unlocking module controls the lock to unlock the target emergency equipment, and the locking module controls the lock to automatically lock the target emergency equipment, so that the management is convenient.

Optionally, the unlocking module includes a timing unit;

the timing unit is used for controlling the unlocking time of the unlocking module.

By adopting the technical scheme, the timing unit controls the unlocking time of the unlocking module, the target emergency equipment is not taken away when the unlocking time is exceeded, the unlocking module stops working, namely the lock locks the target emergency equipment, the target emergency equipment is further orderly managed by the timing unit, and the possibility of loss or damage caused by the fact that the shield is continuously in the unlocking state is reduced.

Optionally, the locking module further comprises a sensing unit;

when the target emergency equipment is placed in the emergency equipment mounting structure, the sensing unit senses the change of the emergency equipment mounting structure, and the locking module executes the locking operation.

Through adopting above-mentioned technical scheme, when target emergency equipment returned, sensing unit sensed emergency equipment mounting structure's change, locked the module and locked the operation according to the response to target emergency equipment, saved the step of the operation of artificially locking, it is comparatively convenient.

Optionally, the emergency equipment is a shield, and a handle is fixedly connected to the shield;

the emergency equipment mounting structure comprises a fixed seat, and the lock is mounted in the fixed seat;

the lock performs locking or unlocking operation on the handle.

By adopting the technical scheme, the locking or unlocking operation of the shield can be realized by locking or unlocking the handle by the lock, so that the lock is convenient.

Optionally, the emergency equipment mounting structure further comprises a support rod arranged on one side of the fixed seat, and the support rod is rotatably connected with a limiting rod;

a limiting ring is arranged at one end, far away from the supporting rod, of the limiting rod, and the limiting ring and the lockset can be clamped and matched;

a stop lever is fixedly connected to the limiting rod, and an included angle between the stop lever and the limiting rod is an acute angle;

when the shield is placed between fixing base and the bracing piece, the handle can promote the spacing ring through shelves the pole and rotate to with the position that the tool to lock corresponds the joint.

Through adopting above-mentioned technical scheme, when the shield returns, handle and shelves pole butt impel the shield to inside, and a grade pole rotates under the thrust effect of handle, drives the gag lever post and rotates, and when the deepest was arranged in to the handle, the spacing ring on the gag lever post corresponds with the tool to lock, and the tool to lock can carry out the joint to the spacing ring, and the module of locking is locked the handle under induction element's effect and is carried out the automation and lock, and is very convenient.

Optionally, the mechanical subsystem is further included, and the mechanical subsystem is connected with the unlocking module;

the mechanical subsystem is used for controlling the unlocking module to unlock the emergency equipment.

By adopting the technical scheme, when the master control subsystem and the background subsystem control the unlocking module to be invalid, the shield can be unlocked through the mechanical subsystem, and the normal use of the shield is guaranteed.

Optionally, the system further comprises a matching subsystem, wherein the matching subsystem comprises:

still include the matching subsystem, the matching subsystem includes:

the information acquisition module is used for acquiring first person information for taking away a shield;

the database module is used for storing second personnel information of guard personnel;

and the information matching module is used for matching the first person information with the second person information and outputting a matching result.

By adopting the technical scheme, the matching subsystem matches the first personnel information taken away from the shield with the second personnel information of the internal guard personnel, so that the person on duty can find whether the personnel taken away from the shield are guard personnel in time, and the loss is reduced.

Optionally, the matching subsystem further includes a matching alarm module;

if the matching result is not matched, the matching alarm module gives an alarm;

and if the matching result is matching, not performing any operation.

Through adopting above-mentioned technical scheme, if mismatch, then match alarm module and report to the police, remind the personnel information that the shield was taken away to the personnel on duty and mismatch, the personnel on duty of being convenient for in time look over, judge the reason to can reduce the shield and lose or the possibility of damaging.

Drawings

Fig. 1 is a schematic diagram of an overall structural framework of an embodiment of the present application.

Fig. 2 is a schematic structural framework diagram of a control subsystem in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a shield and a wall in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of a shield in the embodiment of the present application.

Fig. 5 is a schematic structural view of an emergency equipment mounting structure in the embodiment of the present application.

Fig. 6 is a schematic view of a structure of the limiting rod and the lock in cooperation in the embodiment of the present application.

Fig. 7 is a schematic structural framework diagram of a background subsystem in an embodiment of the present application.

Fig. 8 is a schematic structural framework diagram of the general control subsystem in the embodiment of the present application.

FIG. 9 is a schematic diagram of a mechanical subsystem in an embodiment of the present application.

Fig. 10 is a top view of a shield, an emergency equipment mounting structure, and a connection structure of a mechanical subsystem in an embodiment of the present application.

Fig. 11 is a schematic structural framework diagram of a matching subsystem in the embodiment of the present application.

Reference numerals: 1. a shield; 11. a shield body; 12. a handle; 13. a placement groove; 14. mounting grooves; 2. a control subsystem; 21. a lock; 211. a base; 212. a bolt; 22. a locking module; 221. a control unit; 222. a sensing unit; 23. an unlocking module; 231. a receiving unit; 232. an operation unit; 233. a timing unit; 24. an emergency equipment mounting structure; 241. a fixed seat; 242. mounting blocks; 243. a clamping block; 244. a support bar; 245. a limiting rod; 246. a limiting ring; 247. a gear lever; 3. a background subsystem; 31. an information receiving module; 32. a software control module; 33. a key control module; 34. an emergency alarm module; 35. a shield display module; 4. a master control subsystem; 41. a signal receiving module; 42. a processing module; 43. an alarm display module; 5. a mechanical subsystem; 51. a control slot; 52. a lock cylinder; 53. a key; 6. a matching subsystem; 61. an information acquisition module; 62. a database module; 63. an information matching module; 64. and a matching alarm module.

Detailed Description

In the prior art, the emergency equipment includes the types such as baton, police rope, baton, shield, for the convenience of reader's understanding, adopts the shield as emergency equipment in this embodiment to adopt the airport as the actual emergency scene of an emergency equipment management system in this application embodiment to explain, in other embodiments, can adopt office building, market and railway station etc. as the actual application scene of this application.

The present application is described in further detail below with reference to figures 1-11.

The embodiment of the application discloses an emergency equipment management system. Referring to fig. 1 and 2, the system comprises a shield 1, a control subsystem 2, a background subsystem 3 and a master control subsystem 4, wherein the control subsystem 2 is used for unlocking or locking the shield 1, and when a target emergency device needs to be used, the master control subsystem 4 and/or the background subsystem 3 controls the control subsystem 2 to unlock the shield 1.

With reference to fig. 3 and 4, the shield 1 comprises a shield body 11 and a handle 12, the shield 1 is in a cambered surface, and the handle 12 is arranged on the concave surface side of the shield 1. In order to place the shield 1 conveniently, a placing groove 13 for installing the shield 1 is formed in the wall, the concave surface of the shield 1 faces the inner portion of the placing groove 13 during use, an installing groove 14 is formed in the bottom wall of the placing groove 13, and when the shield 1 is arranged in the placing groove 13, the handle 12 is arranged in the installing groove 14.

Referring to fig. 2, one control subsystem 2 corresponds to one shield 1, and each control subsystem 2 is used for controlling the locking operation and the unlocking operation of each shield 1. The control subsystem 2 comprises a lock 21, an emergency equipment installation structure 24, a locking module 22 and an unlocking module 23, when the shield 1 is not used, the locking module 22 locks the shield 1, and when the shield 1 needs to be used, the unlocking module 23 is used for unlocking the shield 1, so that the shield 1 is orderly managed.

Specifically, referring to fig. 5 and 6, in the present embodiment, for convenience of control, an electric latch of the power-on unlocking type is employed as the lock 21. The electric insert lock comprises a base 211 and a plug 212 slidably connected to the base 211, wherein the plug 212 is cylindrical. Under normal conditions, the interior of the electric mortise lock is not electrified, the bolt 212 is ejected out under the action of a spring in the electric mortise lock, the locking operation is carried out, and the locking state is kept; when the electric mortise lock is powered on, the coil inside the electric mortise lock generates magnetism to control the bolt 212 to retreat into the base 211, so as to unlock, and if the electric mortise lock is powered on continuously, the electric mortise lock keeps an unlocked state.

Specifically, referring to fig. 2, the unlocking module 23 includes a receiving unit 231 and an operating unit 232, the receiving unit 231 receives an unlocking signal of the background subsystem 3 or the general control subsystem 4 and transmits the unlocking signal to the operating unit 232, and the operating unit 232 controls the electric mortise lock to perform an unlocking operation based on the unlocking signal. For example, when the shield 1 needs to be taken out in an emergency, the general control subsystem 4 or the background subsystem 3 sends the unlocking signal to the receiving unit 231, the receiving unit 231 receives the unlocking signal and sends the unlocking signal to the operating unit 232, the operating unit 232 continuously provides an electric signal for the electric mortise lock based on the unlocking signal, so that the electric mortise lock keeps a powered state, and the plug 212 retracts into the base 211, so that the shield 1 is conveniently taken out.

More specifically, the unlocking module 23 further includes a timing unit 233, the timing unit 233 is connected to the operation unit 232, and the timing unit 233 is used for controlling the operation time of the operation unit 232, i.e., the unlocking time of the electric latch. For example, a working time of 10 seconds is preset inside the timing unit 233, the operating unit 232 provides an electric signal for the electric plug lock within 10 seconds, the plug pin 212 retracts inside the base 211, and the shield 1 can be removed within 10 seconds; after 10 seconds, the operating unit 232 stops providing the electric signal to the electric lock, and the bolt 212 pops out of the base 211 to lock the shield 1. The preset timing time in the timing unit 233 can be adjusted, for example, to 20 seconds, to adapt to different situations.

Specifically, referring to fig. 3 and 5, the emergency equipment mounting structure 24 includes a fixing seat 241 disposed in the mounting groove 14, the fixing seat 241 includes an installation block 242 and a clamping block 243 which are disposed correspondingly from top to bottom, the clamping block 243 is disposed below the installation block 242, the installation block 242 and the clamping block 243 are disposed in parallel, one end of the installation block 242 is embedded in the bottom wall of the mounting groove 14, and one end of the clamping block 243 is embedded in the bottom wall of the mounting groove 14. Referring to fig. 6, a fixing groove is formed in one side of the mounting block 242 facing the clip block 243, the base 211 of the electrical plug lock is mounted in the fixing groove, the base 211 is in threaded connection with the mounting block 242 through a bolt, after the electrical plug lock is mounted, the plug pin 212 is disposed below the base 211, when the electrical plug lock is locked, the plug pin 212 is ejected towards the clip block 243, and when the electrical plug lock is unlocked, the plug pin 212 is retracted into the base 211.

More specifically, referring to fig. 5 and 6, in order to control the locking operation of the shield 1, the emergency device mounting structure 24 further includes a support rod 244 disposed on one side of the clip block 243, the support rod 244 is disposed on one side of the clip block 243, one end of the support rod 244 is embedded in the bottom wall of the mounting groove 14, the other end extends horizontally in a direction away from the bottom wall, the length of the extension is the same as that of the clip block 243, and a gap for the handle 12 to pass through is left between the support rod 244 and the clip block 243. The supporting rod 244 is provided with a limiting rod 245 at one end far away from the gas, one end of the limiting rod 245 is rotatably connected with the supporting rod 244 through a rotating shaft, and the other end of the limiting rod 245 can rotate to a position between the base 211 and the clamping block 243. A limiting ring 246 is arranged at one end of the limiting rod 245 far away from the supporting rod 244, the shape of the inner ring of the limiting ring 246 is the same as that of the bolt 212, and when the limiting ring 246 rotates to a corresponding position below the bolt 212, the bolt 212 can be in clamping fit with the limiting ring 246.

Referring to fig. 5 and 6, in order to facilitate the control of the stop rod 245, a stop rod 247 is further disposed at one end of the stop rod 245 away from the stop ring 246, one end of the stop rod 247 is integrally disposed with the stop rod 245, the other end extends towards the end away from the stop rod 245, an included angle between the stop rod 247 and the stop rod 245 is 15-80 °, in this embodiment, the included angle between the stop rod 247 and the stop rod 245 is set to be 60 °, and when the stop rod 245 is engaged with the pin 212, the stop rod 247 is disposed at one side of the stop rod 245 towards the bottom wall of the mounting groove 14.

Before use, the handle 12 is arranged in a gap between the support rod 244 and the clamping block 243, at this time, the limit ring 246 is clamped with the bolt 212, the handle 12 is arranged in an included angle between the limit rod 245 and the stop rod 247, and the shield 1 is in a locking state; when the shield 1 is taken out, the bolt 212 for controlling the electric mortise lock retreats to the inside of the base 211, the shield 1 is taken out outwards at the moment, the handle 12 of the shield 1 is abutted against the limiting rod 245 in the taking-out process, the limiting rod 245 and the blocking rod 247 rotate until an included angle opening between the limiting rod 245 and the blocking rod 247 faces to a direction far away from the bottom wall of the mounting groove 14, and then the shield 1 can be taken out; when putting back shield 1, place handle 12 in the contained angle department between gag lever post 245 and shelves pole 247, and promote shield 1 in the clearance to joint piece 243 and bracing piece 244, promote shield 1's in-process, handle 12 and shelves pole 247 butt, gag lever post 245 and shelves pole 247 rotate under the thrust effect, when handle 12 is placed in the deepest place, corresponding setting about spacing ring 246 and bolt 212, control bolt 212 pops out base 211 and can lock the operation to gag lever post 245, then lock the operation to shield 1.

Specifically, referring to fig. 2, the locking module 22 includes a control unit 221 and a sensing unit 222, in this embodiment, the sensing unit 222 is connected to the control unit 221, the sensing unit 222 includes a magnetic induction sheet disposed on the limiting rod 245 and a sensing chip disposed inside the base 211, when the magnetic induction sheet is disposed at the bottom of the sensing chip, the sensing chip can sense the magnetic induction sheet and send sensing information to the control unit 221, and the control unit 221 controls the electric mortise lock to perform locking operation based on the sensing information. For example, when the shield 1 returns, the handle 12 is disposed between the limiting rod 245 and the blocking rod 247, the shield 1 is pushed, the handle 12 abuts against the blocking rod 247, the blocking rod 247 drives the limiting rod 245 to rotate under the action of thrust, the limiting rod 245 drives the magnetic induction sheet to rotate, when the handle 12 is completely disposed in a gap between the clamping block 243 and the supporting rod 244, the limiting ring 246 and the plug 212 are disposed in a vertically corresponding manner, the magnetic induction sheet and the induction chip vertically correspond to each other at this time, the induction chip induces the magnetic induction sheet and transmits the induction signal to the control unit 221, the control unit 221 receives the induction signal and transmits a power-off signal to the operation unit 232, the operation unit 232 stops providing an electric signal to the electric plug based on the power-off signal, the electric plug is powered off, the plug 212 pops up under the action of the spring, and locks the limiting rod 245, that is, the shield 1 is locked.

Referring to fig. 7, one background subsystem 3 corresponds to a plurality of control subsystems 2, and the background subsystem 3 is configured to control a group of control subsystems 2 to perform an unlocking operation simultaneously or selectively for use in an emergency. The background subsystem 3 comprises an information receiving module 31, a software control module 32, a key control module 33, an emergency alarm module 34 and a shield display module 35, wherein the software control module 32 and the key control module 33 are both connected with the unlocking module 23, the information receiving module 31 is used for receiving an alarm signal of the master control subsystem 2, after receiving the alarm signal, the emergency alarm module 34 gives an alarm, the software control module 32 or the key control module 33 controls the unlocking operation of the control subsystems 2 based on the alarm signal, and the shield display module 35 is used for displaying the state of the shield 1.

Specifically, in this embodiment, the background subsystem 3 uses each guard room inside the airport as a carrier, the information receiving module 31 is disposed inside a computer inside the guard room, and the information receiving module 31 receives the alarm signal sent by the main control subsystem 4 through network connection. The emergency alarm module 34 adopts multiple alarm modes, in this embodiment, the emergency alarm module 34 includes a voice alarm unit and a light alarm unit, after the information receiving module 31 receives the alarm signal, the information receiving module 31 sends the alarm signal to the emergency alarm module 34, the voice alarm unit sends out a voice alarm and simultaneously the light sends out the light alarm signal, and the person on duty is reminded to unlock the shield 1 for the guard to use.

Specifically, the software control module 32 is software on a computer in a guard room, after receiving the alarm signal, an operator on duty operates the software by controlling mouse click or keyboard control, the software control module 32 sends an unlocking signal to the unlocking module 23, and the unlocking module 23 unlocks the shield 1.

Specifically, the key control module 33 is a control button disposed on a wall of a guard room, and when the software control module 32 fails, the attendant can send an unlocking signal to the unlocking module 23 by pressing the control button, and the unlocking module 23 controls the shield 1 to perform an unlocking operation.

Specifically, each shield display module 35 is used for displaying the use status of each shield 1. For example, each shield display module 35 is provided with a red indicator light and a green indicator light, and when the green indicator light is on, the shield 1 is in a locked state; when the red indicator light is on, the shield 1 is in the unlocked state. After unlocking, the indicator light on the corresponding shield display module 35 turns red to remind the worker that the shield 1 is unlocked and can be used.

Referring to fig. 8, the total control subsystem 4 corresponds to a plurality of background subsystems 3, in this embodiment, a total control room of an airport serves as a carrier of the total control subsystem 4, the total control subsystem 4 includes a signal receiving module 41, a processing module 42 and an alarm display module 43, wherein the processing module 42 is connected to the information receiving module 31, the signal receiving module 41 receives an alarm signal inside the airport, and the processing module 42 processes the alarm signal and sends the processed alarm signal to the background subsystem 3 corresponding to the alarm signal.

Specifically, the signal receiving module 41 receives the alarm signals of each alarm location of the airport, and the alarm signals may be generated in a manner that: the alarm person gives an alarm through an emergency button in the airport; the person on duty can observe the emergency through the monitoring video to alarm; the alarm equipment automatically triggers an alarm; the alarm person alarms through a telephone or the like, and the signal receiving module 41 transmits the alarm signal to the processing module 42 for processing.

Specifically, the processing module 42 receives the alarm signal transmitted by the signal receiving module 41, determines the occurrence location of the alarm signal and the danger level of the emergency, forms alarm information, sends the alarm information to the background subsystem 3 closest to the occurrence location of the emergency, and is received by the information receiving module 31 inside the background subsystem 3, and the background subsystem 3 controls the shield 1 to unlock according to the alarm information, so that the guard can use the shield 1.

For example, in case of an emergency at a gate of an airport, an alarmer alarms by pressing an alarm button at the gate, and the signal receiving module 41 receives the alarm signal and transmits the alarm signal to the processing module 42. The processing module 42 judges that the alarm place is the boarding gate according to the alarm signal, simultaneously judges that 5 guard personnel need to be dispatched, uses 5 shields 1, sends the alarm signal to a guard room closest to the boarding gate, and unlocks 5 shields 1 in time by a duty worker in the guard room according to the alarm signal, so that the guard personnel can take the shields 1 away in the guard room for guard work.

More specifically, the processing module 42 is connected to the unlocking module 23 in the control subsystem 2 through a network, and if the alarm signal is not received at the background subsystem 3 closest to the emergency site or an operation failure occurs in the background subsystem 3, the control processing module 42 directly sends an unlocking instruction to the unlocking module 23, and performs an unlocking operation on the shield 1 at the corresponding background subsystem 3.

Specifically, processing module 42 transmits alarm information to alarm display module 43, and alarm display module 43 demonstrates alarm information, and the person on duty of the total control room of being convenient for knows alarm information.

Referring to fig. 9 and 10, the mechanical subsystem 5 is used for unlocking the mechanical control lock 21, a control groove 51 is formed in a side wall of the wall body, which is away from the placement groove 13, a lock cylinder 52 is arranged on one side of the electric plug lock base 211, the lock cylinder 52 extends out of the side wall of the lock 21 and extends into the control groove 51 through the wall, an attendant can return to the inside of the base 211 through the cooperation of a key 53 and the lock cylinder 52 to control the plug pin 212, so as to unlock the shield 1, and when the control of the master control subsystem 4 and the background subsystem 3 is failed, the mechanical subsystem 5 provides a guarantee that the shield 1 can be unlocked, so that a guard can use the lock under emergency.

Specifically, in the embodiment, the control slot 51 is arranged inside the guard room, the placing slot 13 is arranged outside the guard room, and the person on duty can unlock the electric latch from inside, so that the possibility that the person outside touches the mechanical subsystem 5 is reduced, and the shield 1 is protected.

Referring to fig. 11, the emergency equipment management system further includes a matching subsystem 6, where the matching subsystem 6 is used to detect whether a person taking away the shield 1 is a guard person, and if so, no operation is performed; if not, alarming. The matching subsystem 6 comprises an information acquisition module 61, a database module 62, an information matching module 63 and a matching alarm module 64, wherein the information acquisition module 61 is used for acquiring and taking first person information and sending the acquired first person information to the information matching module 63, second person information is stored in the database module 62, the information matching module 63 compares the first person information with the second person information in the database module 62, and if the first person information and the second person information can be matched, no operation is performed; if the matching cannot be performed, the matching alarm module 64 gives an alarm.

Specifically, in this embodiment, the information collection module 61 may be one or more of a camera and a fingerprint collection unit, and after the shield 1 is unlocked, the information collection module 61 performs feature collection on first person information taken away from the shield 1, where the first person information may be one or more of facial features, police serial numbers, fingerprints, and the like, and sends the collected first person information to the information matching module 63. The database module 62 stores second personnel information of security personnel in the airport, and the second personnel information includes: an appearance characteristic; numbering police officers; fingerprint information, etc. After information matching module 63 receives the collected first person information, the second person information in database module 62 is called, and the collected first person information is matched with the second person information in the database:

if the collected first person information is matched with the second person information of one guard person, no operation is performed;

if the collected first person information is not matched with the second person information of the same guard personnel in the database module 62 or any first person information taken away from the shield 1 is not collected, the information matching module 63 sends an alarm signal to the matching alarm module 64, and the matching alarm module 64 gives an alarm to inform the person on duty to process in time.

In this embodiment, the matching alarm module 64 adopts a voice alarm mode, and after receiving the alarm signal transmitted by the information matching module 63, the matching alarm module 64 sends out an alarm voice of "information mismatch" to remind the worker that the person taking the shield 1 away is a non-guardian, so as to inquire the reason in time and reduce the possibility of the shield 1 being lost.

The implementation principle of the emergency equipment management system in the embodiment of the application is as follows: when the shield 1 is not used, the shield 1 is in a locked state, and when the shield 1 needs to be used, an operator on duty can unlock the shield 1 through the software control module 32 and the key control module 33 in the background subsystem 3 so as to be used by a guard; when the background subsystem 3 does not respond in time, the person on duty of the master control subsystem 4 can directly unlock the shield 1; when the master control subsystem 4 and the background subsystem 3 are in failure and cannot react in time, the person on duty can unlock the shield 1 through the mechanical subsystem 5. In addition, the matching subsystem 6 collects first personnel information of personnel taking the shield 1 away, matches the collected first personnel information with second personnel information of internal security personnel, and gives an alarm if the information is not matched, so that a worker is reminded to search for reasons in time, and the possibility that the shield 1 is lost or damaged is reduced. The emergency equipment is orderly managed by the aid of the emergency equipment, and the emergency equipment is standard.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. An emergency equipment management system, comprising: the emergency system comprises a master control subsystem (4) and a plurality of background subsystems (3) connected with the master control subsystem (4), wherein each background subsystem (3) corresponds to a plurality of control subsystems (2), and each control subsystem (2) corresponds to an emergency device;

when the target emergency equipment is not required to be used, the control subsystem (2) locks the target emergency equipment;

when target emergency equipment needs to be used, the master control subsystem (4) sends an alarm signal to the background subsystem (3), and the master control subsystem (4) and/or the background subsystem (3) control the control subsystem (2) to unlock the target emergency equipment based on the alarm signal;

the control subsystem (2) comprises a lockset (21), an emergency equipment mounting structure (24), an unlocking module (23) and a locking module (22);

the unlocking module (23) is connected with the lock (21);

the locking module (22) is connected with the lockset (21);

the unlocking module (23) is used for controlling the lock (21) to perform the unlocking operation on the emergency equipment, and the locking module (22) is used for controlling the lock (21) to perform the locking operation on the emergency equipment;

the target emergency equipment is a shield (1), and a handle (12) is fixedly connected to the shield (1);

the emergency equipment mounting structure (24) comprises a fixed seat (241), and the lock (21) is mounted in the fixed seat (241);

the lock (21) performs locking operation or unlocking operation on the handle (12);

the emergency equipment mounting structure (24) further comprises a supporting rod (244) arranged on one side of the fixing seat (241), and a limiting rod (245) is rotatably connected to the supporting rod (244);

a limiting ring (246) is arranged at one end, away from the supporting rod (244), of the limiting rod (245), and the limiting ring (246) can be in clamping fit with the lock (21);

a stop lever (247) is fixedly connected to the limiting lever (245), and an included angle between the stop lever (247) and the limiting lever (245) is an acute angle;

when the shield (1) is placed between the fixing seat (241) and the supporting rod (244), the handle (12) can push the limiting ring (246) to rotate to the position corresponding to the lock (21) in a clamping mode through the blocking rod (247).

2. The emergency equipment management system of claim 1, wherein:

the background subsystem (3) comprises a software control module (32) and a key control module (33);

the software control module (32) and the key control module (33) are both connected with the control subsystem (2);

the software control module (32) and the key control module (33) are used for controlling the control subsystem (2) to unlock the target emergency equipment.

3. The emergency equipment management system according to claim 2, wherein:

the unlocking module (23) comprises a timing unit (233);

the timing unit (233) is used for controlling the unlocking time of the unlocking module (23).

4. An emergency device management system according to claim 2, wherein:

the locking module (22) further comprises a sensing unit (222);

the sensing unit (222) senses a change of the emergency equipment mounting structure (24) when the target emergency equipment is placed in the emergency equipment mounting structure (24), and the locking module (22) performs the locking operation.

5. The emergency equipment management system according to claim 4, wherein:

the mechanical subsystem (5) is further included, and the mechanical subsystem (5) is connected with the unlocking module (23);

the mechanical subsystem (5) is used for controlling the unlocking module (23) to unlock the emergency equipment.

6. An emergency device management system according to claim 1, wherein:

also include matching the subsystem (6), the said matching subsystem (6) includes:

the information acquisition module (61), the information acquisition module (61) is used for acquiring first person information for taking away the shield (1);

the database module (62), the said database module (62) is used for storing the second personnel's information of the guard personnel;

the information matching module (63) is used for matching the first person information with the second person information and outputting a matching result.

7. An emergency device management system according to claim 6, wherein:

the matching subsystem (6) also comprises a matching alarm module (64);

if the matching result is not matched, the matching alarm module (64) gives an alarm;

and if the matching result is matching, not performing any operation.

Images