CN109787344B - Fire-fighting power supply starting method, device and system and storage medium - Google Patents

Abstract

The application relates to a fire-fighting power supply starting method, a fire-fighting power supply starting system, computer equipment and a storage medium. The method comprises the following steps: when the standby fire-fighting power supply is in a closed state, judging whether the main fire-fighting power supply is disconnected; when the main fire-fighting power supply is disconnected, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, responding to forced emergency judgment information input from the outside when the main fire-fighting power supply is not disconnected, and judging whether forced emergency conditions are met currently according to the forced emergency judgment information; when the forced emergency condition is met, disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, and judging whether an emergency test is started or not when the forced emergency condition is not met; when the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state. The application can improve the safety of the power supply of the fire fighting system.

Description

Fire-fighting power supply starting method, device and system and storage medium

Technical Field

The application relates to the field of fire-fighting power supplies, in particular to a fire-fighting power supply starting method, device, system and storage medium.

Background

In recent years, large high-rise buildings are emerging along with the progress of urbanization in China, the hidden danger of fire is increased, and the probability of fire occurrence is increased. The fire load of large-scale high-rise buildings is greatly increased due to special requirements on equipment, facilities, decoration and the like. Once the fire disaster happens carelessly in the electric, smoking and fire, a great deal of property loss and casualties are caused, and the adverse social effect is formed. Therefore, people pay more and more attention to the fire safety of large-scale high-rise buildings and the safe evacuation under the condition of fire.

However, in the existing fire control system, the main fire power supply is randomly switched to the standby fire power supply, which easily causes potential safety hazard.

Disclosure of Invention

In view of the above, it is necessary to provide a fire-fighting power supply starting method, device, system and storage medium for solving the above technical problems.

A fire protection power supply startup method, the method comprising:

when the standby fire-fighting power supply is in a closed state, judging whether the main fire-fighting power supply is disconnected;

when the main fire-fighting power supply is disconnected, starting a standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, when the main fire-fighting power supply is not disconnected, acquiring forced emergency judgment information, and judging whether forced emergency conditions are met currently or not according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply failure, main fire-fighting power supply outage detection failure or forced emergency starting command receiving;

when the mandatory emergency condition is met, disconnecting the main fire power supply, starting the standby fire power supply, controlling the standby fire power supply to enter an emergency working state, and when the mandatory emergency condition is not met, judging whether an emergency test is started;

when the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, after the controlling the emergency fire fighting power supply to enter the emergency operation state, the method includes:

and controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

In one embodiment, after the controlling the emergency fire fighting power supply to enter the emergency operation state, the method includes:

and starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

In one embodiment, after the starting of the fire emergency light correspondingly connected to the fire power supply, the method includes:

and controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

In one embodiment, before determining whether the main fire power supply is disconnected, the method includes:

judging whether fire emergency data are received or not;

and when the fire emergency data is not received, maintaining the closing state of the standby fire power supply.

In one embodiment, after the controlling the emergency fire-fighting power supply to enter the fire working state, the method further includes:

and controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal.

In one embodiment, after the controlling the emergency fire-fighting power supply to enter the fire working state, the method further includes:

and starting a fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

A fire protection power supply initiation device, the device comprising:

the first judgment module is used for judging whether the main fire-fighting power supply is disconnected or not when the standby fire-fighting power supply is in a closed state;

the second judgment module starts a standby fire power supply when the main fire power supply is disconnected, controls the standby fire power supply to enter an emergency working state, acquires forced emergency judgment information when the main fire power supply is not disconnected, and judges whether forced emergency conditions are met currently according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire power supply faults, main fire power supply power-off detection faults or forced emergency starting commands;

the third judgment module is used for disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state when the mandatory emergency condition is met, and judging whether an emergency test is started or not when the mandatory emergency condition is not met;

the emergency test module is used for disconnecting the main fire power supply when the emergency test is started, starting the standby fire power supply, controlling the standby fire power supply to enter an emergency working state, and maintaining the closing state of the standby fire power supply when the emergency test is not started.

A fire-fighting power supply starting system comprises a main fire-fighting power supply, a standby fire-fighting power supply, fire-fighting alarm equipment, a fire-fighting emergency lamp and a processor, wherein the processor is loaded with a computer program.

A computer-readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the fire-fighting power supply starting method described above.

According to the fire power supply starting method, the fire power supply starting device, the fire power supply starting system and the storage medium, whether a main fire power supply is disconnected or not is judged firstly; when the main fire-fighting power supply is disconnected, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, and when the main fire-fighting power supply is not disconnected, responding to externally input forced emergency judgment information, and judging whether forced emergency conditions are met currently according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply faults, main fire-fighting power supply power-off detection faults or receiving forced emergency starting commands; when the condition meets the mandatory emergency condition, the emergency test is switched to the standby fire power supply for supplying power, and if the condition does not meet the mandatory emergency condition, whether the emergency test is started or not is judged; when the emergency test is in the opening state, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter the emergency working state, and when the emergency test is not opened, the closing state of the standby fire-fighting power supply is maintained. This application judges through multiple way whether current satisfies the condition of being switched to reserve fire power by main fire power, and the effectual potential safety hazard that has reduced main fire power and has switched reserve fire power and cause fire alarm system.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for activating a fire protection power supply according to an embodiment;

FIG. 2 is a schematic flow chart illustrating a method for activating a fire protection power supply according to another embodiment;

FIG. 3 is a schematic flow chart illustrating a method for activating a fire protection power supply according to another embodiment;

fig. 4 is a block diagram showing the construction of a fire power source starting device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The application provides a fire power supply starting method, can be applied to in the building, and the building can be provided with fire extinguishing system, and fire extinguishing system includes fire alarm device, fire control emergency lighting apparatus, control terminal and provides the reserve fire power supply of reserve power supply for fire extinguishing system, and fire extinguishing system provides the power supply by external main fire power supply under the normal condition. In the fire-fighting system, the control terminal can communicate with the fire-fighting alarm device, the fire-fighting emergency lamp and the standby fire-fighting power supply through a network and control the devices. The network can be a wired local area network or a wireless network including a ZigBee network. The control terminal can be but not limited to various personal computers, notebook computers, industrial personal computers, tablet computers and portable wearable equipment, the fire alarm equipment is used for giving out alarm prompts, and the fire emergency lamp is used for displaying fire illumination, fire survival information and the like.

In one embodiment, as shown in fig. 1, there is provided a fire power supply starting method, the method comprising:

and S210, the standby fire-fighting power supply is in a closed state.

And S230, judging whether the main fire-fighting power supply is disconnected.

In the fire alarm system, a main fire power supply and a standby fire power supply are used for supplying power to a fire system host. The difference is that the fire alarm system mainly adopts a main fire power supply under the normal state, and the main fire power supply mainly adopts external 220V commercial power. The standby fire-fighting power supply is used for emergency under the condition that the main fire-fighting power supply is not suitable for use, the standby fire-fighting power supply is suitable for a special storage battery or storage batteries with several settings of a fire-fighting main machine, and the voltage of the standby battery is usually 12V or 24V. The two power sources can be switched automatically.

The standby fire-fighting power supply is in a closed state in a normal state, and meanwhile, a control terminal of the fire-fighting system can detect the main fire-fighting power supply and judge whether the main fire-fighting power supply is disconnected.

When the main fire-fighting power supply is disconnected, the step S600 is carried out, the main fire-fighting power supply is disconnected, meanwhile, the standby fire-fighting power supply is started, and the standby fire-fighting power supply is controlled to enter an emergency working state.

When the main fire-fighting power supply is not disconnected, the process goes to step S320 to respond to the externally input mandatory emergency judgment information.

And S340, judging whether the current condition meets a mandatory emergency condition according to the mandatory emergency judgment information, wherein the mandatory emergency condition comprises a main fire-fighting power supply fault, a main fire-fighting power supply power-off detection fault or a mandatory emergency starting command.

The emergency working state refers to the working state that all equipment in the fire-fighting alarm system is supplied with power through the standby fire-fighting power supply and is switched to the working state of supplying power through the standby power supply by controlling all devices in the fire-fighting alarm system. The forced emergency refers to a step of switching a power supply of the fire alarm system from a main fire power supply to a standby fire power supply through forced emergency under the condition that the main fire power supply is not disconnected. The main fire-fighting power supply is failed, although the system judges that the main fire-fighting power supply is not disconnected, the main fire-fighting power supply fails, for example, the voltage of the main fire-fighting power supply is insufficient, the stability of the main fire-fighting power supply is insufficient, the main fire-fighting power supply is powered off and the failure is mainly detected by the system, although the system judges that the main fire-fighting power supply is not disconnected, the system detects that a module for detecting whether the main fire-fighting power supply is powered off has failed, and therefore the main fire-fighting power supply cannot be determined to be failed or not, so that the main fire-fighting power supply is switched to a standby fire-fighting power supply to ensure safety. The forced emergency starting command is that the user switches the system from the main fire-fighting power supply to the standby fire-fighting power supply through the forced command.

When the control terminal of the fire alarm system finds that the main fire power supply is disconnected, the standby fire power supply is started, and the standby fire power supply is controlled to enter an emergency working state. When the control terminal of the fire-fighting alarm system does not find that the main fire-fighting power supply is disconnected, acquiring a forced emergency judgment condition, judging whether the forced emergency condition is met at present,

when the mandatory emergency condition is met, the method enters step S600, a main fire-fighting power supply is disconnected, a standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the mandatory emergency condition is not met, the method enters step S400, and whether an emergency test is started or not is judged;

when the emergency test is started, the step S600 is performed to disconnect the main fire-fighting power supply, start the standby fire-fighting power supply and control the standby fire-fighting power supply to enter an emergency working state, and when the emergency test is not started, the step S500 is performed to maintain the standby fire-fighting power supply in a closed state.

The emergency test is a test function of the system, and sometimes, in order to test whether the alarm function of the fire alarm system can meet the expected requirement, the fire alarm system can be tested through the emergency test. When the staff decides to carry out emergency test to fire extinguishing system, send the test to control terminal and begin the instruction, control terminal is through receiving this outside test and begin the instruction to enter the emergency test mode, after control terminal judges that current entering emergency test mode, then the connection of disconnection main fire power supply, and start reserve fire power supply, control reserve fire power supply gets into emergent operating condition.

According to the fire power supply starting method, the fire power supply starting device, the fire power supply starting system and the storage medium, whether a main fire power supply is disconnected or not is judged firstly; when the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the main fire-fighting power supply is not disconnected, forced emergency judgment information input from the outside is responded, whether forced emergency conditions are met currently is judged according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply faults, main fire-fighting power supply power-off detection faults or forced emergency starting commands are received; when the condition meets the mandatory emergency condition, the emergency test is switched to the standby fire power supply for supplying power, and if the condition does not meet the mandatory emergency condition, whether the emergency test is started or not is judged; when the emergency test is in the opening state, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter the emergency working state, and when the emergency test is not opened, the closing state of the standby fire-fighting power supply is maintained. This application judges through multiple way whether current satisfies the condition of being switched to reserve fire power by main fire power, and the effectual potential safety hazard that has reduced main fire power and has switched reserve fire power and cause fire alarm system.

As shown in fig. 2, in one embodiment, step S600 is followed by:

and S700, controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

The fire alarm equipment is equipment for fire alarm, and the alarm specifically comprises sound alarm and light alarm. Fire alarm equipment may be located in various areas of a building including the location of the emergency fire power source. The emergency starting signal is used for prompting a user that the power supply used by the current fire fighting system is switched. The correspondingly connected fire-fighting alarm equipment can supply power through the standby fire-fighting power supply.

After the system controls the standby fire-fighting power supply to enter an emergency working state, fire-fighting alarm equipment in the system can be started, and an alarm is given to a user through the fire-fighting alarm equipment. The safety of the fire alarm system is improved.

In one embodiment, S600 is followed by:

and S810, starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

After the power supply is switched, the fire-fighting emergency lamp which is powered by the standby fire-fighting power supply in the system can be started. And alarming is carried out through a fire-fighting emergency lamp. The safety of the fire alarm system is improved. The correspondingly connected fire-fighting emergency lamp is a fire-fighting emergency lamp which can be powered by a standby fire-fighting power supply.

In one embodiment, S810 includes, after:

and S830, controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

After the fire-fighting emergency lamp is started, the fire-fighting emergency lamp can be controlled to perform various emergency alarm responses. Specifically, the system can switch the brightness of the fire-fighting emergency lamp, flicker the fire-fighting emergency lamp and perform sound alarm through a broadcasting module on the fire-fighting emergency lamp. The safety of the fire alarm system can be effectively improved through alarming.

In one embodiment, S230 is preceded by:

s221, judging whether fire emergency data are received or not;

when the fire emergency data is received, the method goes to step S223, the main fire power supply is disconnected, the standby fire power supply is started, the standby fire power supply is controlled to enter the fire working state, and when the fire emergency data is not received, the method goes to step S500, and the standby fire power supply is maintained in the off state.

When a fire disaster occurs, a fire sensor in the fire alarm system sends fire disaster emergency data to the control terminal, when the control terminal receives the fire disaster emergency data, in order to ensure the power supply safety of the fire alarm system, the main fire protection power supply is disconnected, the standby fire protection power supply is used for supplying power, and the standby fire protection power supply is controlled to enter a fire disaster working state, wherein the fire disaster working state refers to the working state of the standby fire protection power supply when the building has the fire disaster. When a fire disaster does not happen at present, the standby fire-fighting power supply can be kept in the off state, and the energy of the standby power supply is saved. Through the power switching under the conflagration condition, improve fire alarm system's security.

In one embodiment, S223 is followed by:

and S225, controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send out a fire emergency starting signal.

After the system controls the standby fire-fighting power supply to enter a fire working state, fire-fighting alarm equipment in the system can be started, a user is prompted to enter the fire state through the fire-fighting alarm equipment, and the power supply is switched to the standby power supply. The fire alarm device gives an alarm to the user, and the safety of the fire alarm system is improved.

In one embodiment, S223 is followed by:

and starting the fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

Under the condition that the system judges that a fire disaster occurs at present, the fire-fighting emergency lamp can be controlled in multiple modes to carry out fire disaster emergency alarm response, specifically, the color and the brightness of the fire-fighting emergency lamp can be switched, the fire-fighting emergency lamp is controlled to flicker, a sound module of the fire-fighting emergency lamp is controlled to carry out sound alarm, and escape route prompt and ignition point prompt are carried out by displaying light with different colors or different brightness. In one embodiment, the fire-fighting emergency lamp further comprises a display screen, the display screen specifically comprises an LED display screen, the display screen may comprise a map of the current environment, and when a fire breaks out, the terminal may prompt an evacuee by displaying the escape route of the current position and the specific position of the ignition point on the map on the display screen.

In one embodiment, a fire power supply starting method of the present application includes:

when the standby fire power supply is in a closed state, judging whether fire emergency data are received or not; when receiving fire emergency data, disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, and controlling the standby fire-fighting power supply to enter a fire working state. And controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal. And meanwhile, starting the fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt. And when the fire emergency data is not received, maintaining the closing state of the standby fire-fighting power supply. And then judging whether the main fire-fighting power supply is disconnected. When the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, when the main fire-fighting power supply is not disconnected, forced emergency judgment information input from the outside is responded, whether forced emergency conditions are met currently is judged according to the forced emergency judgment information, and the forced emergency conditions comprise main fire-fighting power supply faults, main fire-fighting power supply outage detection faults or forced emergency starting commands. When the forced emergency condition is met, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the forced emergency condition is not met, whether the emergency test is started or not is judged. When the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state. After the standby fire power supply is controlled to enter the emergency working state, the emergency fire protection device which is correspondingly connected with the standby fire power supply is controlled to send an emergency starting signal. And starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply. And controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

It should be understood that although the various steps in the flow charts of fig. 1-3 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 1-3 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

As shown in fig. 4, a fire-fighting power supply starting device includes:

the first judging module 200 is used for judging whether the main fire-fighting power supply is disconnected or not when the standby fire-fighting power supply is in a closed state;

the second judging module 300 is used for starting the standby fire-fighting power supply and controlling the standby fire-fighting power supply to enter an emergency working state when the main fire-fighting power supply is disconnected, responding to forced emergency judging information input from the outside when the main fire-fighting power supply is not disconnected, and judging whether forced emergency conditions are met currently according to the forced emergency judging information, wherein the forced emergency conditions comprise main fire-fighting power supply failure, main fire-fighting power supply power-off detection failure or receiving a forced emergency starting command;

the third judging module 400 is used for disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state when the mandatory emergency condition is met, and judging whether the emergency test is started or not when the mandatory emergency condition is not met;

the emergency test module 500 is used for disconnecting the main fire-fighting power supply when the emergency test is started, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, and maintaining the closing state of the standby fire-fighting power supply when the emergency test is not started.

In one embodiment, the system further comprises an alarm prompting module, configured to: and controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

In one embodiment, the lighting device further includes a lighting device control module, specifically configured to: and starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

In one embodiment, the luminaire control module is further configured to: and controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

In one embodiment, the luminaire control module 800 is further configured to: and after the preset time for sending the second control instruction, sending a third control instruction to the fire-fighting lamp correspondingly connected with the searched equipment identifier, wherein the third control instruction is used for extinguishing the fire-fighting lamp correspondingly connected with the searched equipment identifier.

In one embodiment, the fire emergency switching module is further included for: judging whether fire emergency data are received or not; when receiving fire emergency data, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter a fire working state, and when the fire emergency data are not received, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, the fire alarm prompting device further comprises a fire alarm prompting module used for: and controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal.

In one embodiment, the fire light control module is further included for: and starting the fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

For specific definition of the fire-fighting power supply starting device, reference may be made to the above definition of the fire-fighting power supply starting method, which is not described herein again. All or part of the modules in the fire-fighting power supply starting device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer equipment, and can also be stored in a memory in the computer equipment in a software form, so that the processor can call and execute operations correspondingly connected with the modules.

The utility model provides a fire control power control system, includes main fire control power, reserve fire control power, fire alarm equipment, fire control emergency lamps and lanterns and treater, and the treater is loaded with computer program, its characterized in that, main fire control power, reserve fire control power, fire alarm equipment, fire control emergency lamps and lanterns are connected with the treater, realizes following step when the treater carries out computer program:

when the standby fire-fighting power supply is in a closed state, judging whether the main fire-fighting power supply is disconnected;

when the main fire-fighting power supply is disconnected, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, responding to forced emergency judgment information input from the outside when the main fire-fighting power supply is not disconnected, and judging whether forced emergency conditions are met currently according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply failure, main fire-fighting power supply outage detection failure or forced emergency starting command receiving;

when the forced emergency condition is met, disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, and judging whether an emergency test is started or not when the forced emergency condition is not met;

when the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

In one embodiment, the processor, when executing the computer program, further performs the steps of: judging whether fire emergency data are received or not; when receiving fire emergency data, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter a fire working state, and when the fire emergency data are not received, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and starting the fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

when the standby fire-fighting power supply is in a closed state, judging whether the main fire-fighting power supply is disconnected;

when the main fire-fighting power supply is disconnected, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, responding to forced emergency judgment information input from the outside when the main fire-fighting power supply is not disconnected, and judging whether forced emergency conditions are met currently according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply failure, main fire-fighting power supply outage detection failure or forced emergency starting command receiving;

when the forced emergency condition is met, disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, and judging whether an emergency test is started or not when the forced emergency condition is not met;

when the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, the computer program when executed by the processor further performs the steps of: and controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

In one embodiment, the computer program when executed by the processor further performs the steps of: and starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

In one embodiment, the computer program when executed by the processor further performs the steps of: and controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

In one embodiment, the computer program when executed by the processor further performs the steps of: judging whether fire emergency data are received or not;

when receiving fire emergency data, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter a fire working state, and when the fire emergency data are not received, the standby fire-fighting power supply is maintained in a closed state.

In one embodiment, the computer program when executed by the processor further performs the steps of: and controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal.

In one embodiment, the computer program when executed by the processor further performs the steps of: and starting the fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, the computer program can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A fire protection power supply startup method, the method comprising:

when the standby fire-fighting power supply is in a closed state, judging whether the main fire-fighting power supply is disconnected;

when a main fire-fighting power supply is disconnected, starting a standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state, responding to forced emergency judgment information input from the outside when the main fire-fighting power supply is not disconnected, judging whether forced emergency conditions are met currently according to the forced emergency judgment information, wherein the forced emergency conditions comprise main fire-fighting power supply faults, main fire-fighting power supply power-off detection faults or receiving forced emergency starting commands, the main fire-fighting power supply faults comprise insufficient voltage of the main fire-fighting power supply and insufficient stability of the main fire-fighting power supply, the emergency working state is that each device in a fire-fighting alarm system is powered by the standby fire-fighting power supply, and meanwhile, the emergency working state is switched to the working state powered by the standby fire-fighting power supply by controlling each device in the fire-fighting alarm system;

when the mandatory emergency condition is met, disconnecting the main fire power supply, starting the standby fire power supply, controlling the standby fire power supply to enter an emergency working state, and when the mandatory emergency condition is not met, judging whether an emergency test is started;

when the emergency test is started, the main fire-fighting power supply is disconnected, the standby fire-fighting power supply is started, the standby fire-fighting power supply is controlled to enter an emergency working state, and when the emergency test is not started, the standby fire-fighting power supply is maintained in a closed state.

2. The method of claim 1, wherein the controlling the backup fire power source to enter an emergency operation state comprises:

and controlling fire-fighting alarm equipment correspondingly connected with the standby fire-fighting power supply to send an emergency starting signal.

3. The method of claim 1, wherein the controlling the backup fire power source to enter an emergency operation state comprises:

and starting the fire-fighting emergency lamp correspondingly connected with the standby fire-fighting power supply.

4. The method of claim 3, wherein the activating the fire emergency light fixture corresponding to the fire power source comprises:

and controlling the fire-fighting emergency lamp to perform emergency alarm response, wherein the emergency alarm response comprises brightness switching, stroboflash and sound alarm.

5. The method of claim 1, wherein before determining whether the main fire power source is disconnected, the method comprises:

judging whether fire emergency data are received or not;

and when the fire emergency data is not received, maintaining the closing state of the standby fire power supply.

6. The method of claim 5, wherein after controlling the backup fire power source to enter the fire operating state, further comprising:

and controlling fire alarm equipment correspondingly connected with the standby fire power supply to send out a fire emergency starting signal.

7. The method of claim 5, wherein after controlling the backup fire power source to enter the fire operating state, further comprising:

and starting a fire-fighting emergency lamp, and controlling the fire-fighting emergency lamp to perform fire emergency alarm response, wherein the fire emergency alarm response comprises brightness switching, stroboflash, sound alarm, escape path prompt and ignition point prompt.

8. A fire protection power supply actuation apparatus, the apparatus comprising:

the first judgment module is used for judging whether the main fire-fighting power supply is disconnected or not when the standby fire-fighting power supply is in a closed state;

the second judging module is used for starting a standby fire power supply and controlling the standby fire power supply to enter an emergency working state when the main fire power supply is disconnected, responding to forced emergency judging information input from the outside when the main fire power supply is not disconnected, judging whether forced emergency conditions are met currently according to the forced emergency judging information, wherein the forced emergency conditions comprise main fire power supply faults, main fire power supply power-off detection faults or forced emergency starting commands received, the main fire power supply faults comprise insufficient voltage of the main fire power supply and insufficient stability of the main fire power supply, the emergency working state is that each device in the fire alarm system is powered by the standby fire power supply, and meanwhile, the emergency working state is switched to the working state powered by the standby fire power supply by controlling each device in the fire alarm system;

the third judgment module is used for disconnecting the main fire-fighting power supply, starting the standby fire-fighting power supply, controlling the standby fire-fighting power supply to enter an emergency working state when the mandatory emergency condition is met, and judging whether an emergency test is started or not when the mandatory emergency condition is not met;

the emergency test module is used for disconnecting the main fire power supply when the emergency test is started, starting the standby fire power supply, controlling the standby fire power supply to enter an emergency working state, and maintaining the closing state of the standby fire power supply when the emergency test is not started.

9. A fire power control system comprising a main fire power supply, a backup fire power supply, a fire alarm device, a fire emergency light and a processor loaded with a computer program, wherein the main fire power supply, the backup fire power supply, the fire alarm device, the fire emergency light are connected to the processor, and the processor when executing the computer program implements the steps of the method of any one of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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