CN217335182U

CN217335182U - Emergency lighting centralized power supply device

Info

Publication number: CN217335182U
Application number: CN202221137174.9U
Authority: CN
Inventors: 姜成武; 于腾越
Original assignee: Shandong Greenism Environmental Protection Technology Co ltd
Current assignee: Shandong Greenism Environmental Protection Technology Co ltd
Priority date: 2022-05-12
Filing date: 2022-05-12
Publication date: 2022-08-30
Anticipated expiration: 2032-05-12

Abstract

The utility model discloses an emergency lighting centralized power supply device, including first emergency lighting centralized power supply and second emergency lighting centralized power supply, first emergency lighting centralized power supply's inside is equipped with first logic control module, the inside power step-down module that is equipped with of first emergency lighting centralized power supply of first logic control module one side, the inside battery energy storage module that is equipped with of first emergency lighting centralized power supply of power step-down module one side, the module of charging is installed on battery energy storage module's top, the lighting distribution box input cable internally mounted of the module top of charging has communication control module, daily illumination power supply detection module is installed on communication control module's top. The utility model discloses not only realized emergency lighting centralized power supply device low pressure output and adopted concentrated emergency power supply, received instruction realizes lamps and lanterns emergency lighting during the conflagration mode, has improved emergency lighting centralized power supply device's controllability and security moreover.

Description

Emergency lighting centralized power supply device

Technical Field

The utility model relates to a centralized power supply technical field specifically is an emergency lighting centralized power supply device.

Background

The fire emergency lighting and evacuation indication system is a building fire system for providing emergency lighting and evacuation indication for personnel evacuation and fire operation when a fire disaster occurs, a storage battery power supply is required to be adopted as a backup security power supply of lamps, the power supply is a power supply device which stores energy by a storage battery and supplies power for a centralized power supply type fire emergency lamp, according to the technical specification of GB 51309 fire emergency lighting and evacuation indication system, the type A (the fire emergency lamp with rated working voltage less than or equal to DC 36V) is selected for the lamps arranged 8m away from the ground, but the evacuation lighting on the market at present is more in 220V and cannot be supplied with power by 36V safety voltage, and a large potential safety hazard exists in the case of the fire disaster.

The concentrated power supply device on the market is various in types, can meet the use requirements of people basically, but still has certain problems, the existing concentrated power supply device is not convenient for low-voltage output to adopt concentrated emergency power supply when in use, and the lamps and lanterns can be lighted in an emergency manner by receiving the command quickly in the fire disaster mode, so that the reliability of the concentrated power supply device during use is greatly influenced, and the reliability and the safety of the concentrated power supply device during use are greatly influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an emergency lighting centralized power supply device to it is inconvenient for low pressure output to adopt the problem of concentrating the emergency power supply to propose centralized power supply device in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an emergency lighting centralized power supply device comprises a first emergency lighting centralized power supply and a second emergency lighting centralized power supply, wherein a first logic control module is arranged in the first emergency lighting centralized power supply, a power voltage reduction module is arranged in the first emergency lighting centralized power supply on one side of the first logic control module, a storage battery energy storage module is arranged in the first emergency lighting centralized power supply on one side of the power voltage reduction module, a charging module is installed at the top end of the storage battery energy storage module, a communication control module is installed in a lighting distribution box input cable above the charging module, a daily lighting power supply detection module is installed at the top end of the communication control module, a lighting distribution box input cable is arranged in the first emergency lighting centralized power supply above the daily lighting power supply detection module, and the lighting distribution box input cable is connected with the daily lighting power supply detection module, and lighting distribution box input cable's one end extends to the outside of first emergency lighting centralized power supply, install emergency lighting controller on the first emergency lighting centralized power supply outer wall of one side, the inside vary voltage control module that is equipped with of first emergency lighting centralized power supply of module one side that charges, and vary voltage control module's one end is connected with module and the power step-down module that charges to the other end of vary voltage control module extends to the outside of first emergency lighting centralized power supply.

Preferably, various evacuation lighting lamps are arranged outside the first emergency lighting centralized power supply on one side of the first logic control module and are connected with the first logic control module through cables.

Preferably, a second logic control module is arranged inside the second emergency lighting centralized power supply, a high-power safety exit lamp is arranged outside the second emergency lighting centralized power supply on one side of the second logic control module, and the high-power safety exit lamp is connected with the second logic control module through a cable.

Preferably, a low-power installation outlet lamp is arranged outside the second emergency lighting centralized power supply below the high-power safety outlet lamp and is connected with the second logic control module through a cable.

Preferably, a CAN communication trunk line is arranged outside the emergency lighting controller, and the emergency lighting controller is connected with the CAN communication trunk line through a cable.

Preferably, the CAN communication trunk line is connected with the first emergency lighting centralized power supply through a cable, the CAN communication trunk line is connected with the second emergency lighting centralized power supply through a cable, a fire alarm system is arranged outside the emergency lighting controller on one side of the CAN communication trunk line, and the emergency lighting controller is connected with the fire alarm system through a shielding twisted pair.

Compared with the prior art, the beneficial effects of the utility model are that: the centralized power supply device not only realizes that the low-voltage output of the emergency lighting centralized power supply device adopts centralized emergency power supply, receives an instruction to realize emergency lighting of the lamp in a fire mode, but also improves the controllability and the safety of the emergency lighting centralized power supply device;

(1) the lighting distribution box is connected with an external power supply through an input cable, the input cable of the lighting distribution box transmits high voltage to the interior of the daily lighting power supply detection module, the high voltage is converted into low voltage through the power supply voltage reduction module, the power supply voltage reduction module supplies power to the first logic control module, the first logic control module provides lighting for various evacuation lighting lamps, the power supply voltage reduction module provides electric energy, and the power supply voltage reduction module continuously provides electric energy for the first logic control module;

(2) when no current passes, the daily lighting power supply detection module and the communication control module feed back data to the emergency lighting controller, the emergency lighting controller controls the first emergency lighting centralized power supply and the second emergency lighting centralized power supply through the CAN communication trunk line, and meanwhile, the emergency lighting controller feeds back the data to the fire alarm system through the shielding twisted pair line, and the fire alarm system carries out fire alarm processing;

(3) the first emergency lighting centralized power supply and the second emergency lighting centralized power supply are of the same type, low-voltage output of the emergency lighting centralized power supply device is realized by adopting centralized emergency power supply, a command is received during a fire disaster mode to realize emergency lighting of a lamp, and controllability and safety of the emergency lighting centralized power supply device are improved.

Drawings

Fig. 1 is a schematic structural diagram of a first emergency lighting centralized power supply system frame of the present invention;

fig. 2 is a schematic structural diagram of a second emergency lighting centralized power supply system frame of the present invention;

FIG. 3 is a schematic diagram of the frame structure of the CAN communication trunk system of the present invention;

fig. 4 is the structural schematic diagram of the frame of the storage battery energy storage module system of the present invention.

In the figure: 1. an input cable of the lighting distribution box; 2. a voltage transformation control module; 3. a first emergency lighting centralized power supply; 4. various evacuation lighting lamps; 5. a second emergency lighting centralized power supply; 6. an emergency lighting controller; 7. a fire alarm system; 8. a CAN communication trunk; 9. a daily lighting power supply detection module; a communication control module 10, a communication control module; 11. a first logic control module; 12. a power supply voltage reduction module; 13. a charging module; 14. a battery energy storage module; 15. a second logic control module; 16. installing an outlet lamp at low power; 17. high power safety exit lamp.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: an emergency lighting centralized power supply device comprises a first emergency lighting centralized power supply 3 and a second emergency lighting centralized power supply 5, wherein a first logic control module 11 is arranged inside the first emergency lighting centralized power supply 3, a power voltage reduction module 12 is arranged inside the first emergency lighting centralized power supply 3 on one side of the first logic control module 11, a storage battery energy storage module 14 is arranged inside the first emergency lighting centralized power supply 3 on one side of the power voltage reduction module 12, a charging module 13 is arranged at the top end of the storage battery energy storage module 14, a communication control module 10 is arranged inside a lighting distribution box input cable 1 above the charging module 13, a daily lighting power supply detection module 9 is arranged at the top end of the communication control module 10, a lighting distribution box input cable 1 is arranged inside the first emergency lighting centralized power supply 3 above the daily lighting power supply detection module 9, and the lighting distribution box input cable 1 is connected with the daily lighting power supply detection module 9, one end of an input cable 1 of the lighting distribution box extends to the outside of the first emergency lighting centralized power supply 3, an emergency lighting controller 6 is installed on the outer wall of the first emergency lighting centralized power supply 3 on one side of the communication control module 10, a voltage transformation control module 2 is arranged inside the first emergency lighting centralized power supply 3 on one side of the charging module 13, one end of the voltage transformation control module 2 is connected with the charging module 13 and the power supply voltage reduction module 12, and the other end of the voltage transformation control module 2 extends to the outside of the first emergency lighting centralized power supply 3;

various evacuation illuminating lamps 4 are arranged outside the first emergency lighting centralized power supply 3 at one side of the first logic control module 11, the various evacuation illuminating lamps 4 are connected with the first logic control module 11 through cables, a second logic control module 15 is arranged inside the second emergency lighting centralized power supply 5, a high-power safety outlet lamp 17 is arranged outside the second emergency lighting centralized power supply 5 at one side of the second logic control module 15, the high-power safety outlet lamp 17 is connected with the second logic control module 15 through cables, a low-power installation outlet lamp 16 is arranged outside the second emergency lighting centralized power supply 5 below the high-power safety outlet lamp 17, the low-power installation outlet lamp 16 is connected with the second logic control module 15 through cables, a CAN communication trunk line 8 is arranged outside the emergency lighting controller 6, and the emergency lighting controller 6 is connected with the CAN communication trunk line 8 through cables, the CAN communication trunk line 8 is connected with the first emergency lighting centralized power supply 3 through a cable, the CAN communication trunk line 8 is connected with the second emergency lighting centralized power supply 5 through a cable, a fire alarm system 7 is arranged outside the emergency lighting controller 6 on one side of the CAN communication trunk line 8, and the emergency lighting controller 6 is connected with the fire alarm system 7 through a shielding twisted pair;

the lighting distribution box input cable 1 is connected with an external power supply, the lighting distribution box input cable 1 transmits high voltage to the interior of the daily lighting power supply detection module 9, the daily lighting power supply detection module 9 is transmitted to the interior of the communication control module 10, the communication control module 10 is transmitted to the interior of the power voltage reduction module 12, the power voltage reduction module 12 converts the high voltage into low voltage, the power voltage reduction module 12 supplies power to the first logic control module 11, the first logic control module 11 provides lighting for various evacuation lighting lamps 4, the daily lighting power supply detection module 9 and the communication control module 10 play a role in cable voltage and current detection, and the voltage transformation control module 2 plays a role in loop output, when the power supply is cut off, the storage battery energy storage module 14 provides electric energy for the power supply voltage reduction module 12, and the power supply voltage reduction module 12 continuously provides electric energy for the first logic control module 11;

when no electricity flows, the daily lighting power supply detection module 9 and the communication control module 10 feed back data to the emergency lighting controller 6, the emergency lighting controller 6 carries out logic processing, the emergency lighting controller 6 controls the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 through the CAN communication trunk line 8, meanwhile, the emergency lighting controller 6 feeds back the data to the fire alarm system 7 through the shielding twisted pair, and the fire alarm system 7 carries out fire alarm processing;

the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 are of the same type and are installed in the second emergency lighting centralized power supply 5 through a second logic control module 15, but the output control of the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 is different, the first emergency lighting centralized power supply 3 outputs through various evacuation lighting lamps 4, the various evacuation lighting lamps 4 can be evacuation lighting lamps, safety exit lamps, evacuation indicator lamps and the like, the second emergency lighting centralized power supply 5 outputs through a high-power safety exit lamp 17 and a low-power installation exit lamp 16, the high-power safety exit lamp 17 and the low-power installation exit lamp 16 are safety exit lamps with different powers, the low-voltage output of the emergency lighting centralized power supply device is realized by adopting centralized emergency power supply, and the emergency lighting of lamps is realized by receiving instructions in a fire disaster mode, the controllability and the safety of the emergency lighting centralized power supply device are improved.

When the embodiment of the application is used: firstly, the lighting distribution box input cable 1 is connected with an external power supply, the lighting distribution box input cable 1 transmits high voltage to the interior of a daily lighting power supply detection module 9, the daily lighting power supply detection module 9 is transmitted to the interior of a communication control module 10, the communication control module 10 is transmitted to the interior of a power supply voltage reduction module 12, the power supply voltage reduction module 12 converts the high voltage into low voltage, the power supply voltage reduction module 12 supplies power to a first logic control module 11, the first logic control module 11 provides lighting for various evacuation lighting lamps 4, the daily lighting power supply detection module 9 and the communication control module 10 have the function of cable voltage and current detection, a voltage transformation control module 2 has the function of loop output, when the power is cut off, a storage battery energy storage module 14 provides electric energy for the power supply voltage reduction module 12, and the power supply voltage reduction module 12 continuously provides electric energy for the first logic control module 11, when no current flows, the daily lighting power supply detection module 9 and the communication control module 10 feed back data to the emergency lighting controller 6, the emergency lighting controller 6 carries out logic processing, the emergency lighting controller 6 controls the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 through the CAN communication trunk line 8, meanwhile, the emergency lighting controller 6 feeds back the data to the fire alarm system 7 through a shielding twisted pair, the fire alarm system 7 carries out fire alarm processing, the data are installed inside the second emergency lighting centralized power supply 5 through the second logic control module 15, the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 are of the same type, but the output control of the first emergency lighting centralized power supply 3 and the second emergency lighting centralized power supply 5 is different, the first emergency lighting centralized power supply 3 outputs through various evacuation lights 4, the various evacuation lighting lamps 4 can be evacuation lighting lamps, emergency exit lamps, evacuation indicator lamps and the like, the second emergency lighting centralized power supply 5 outputs the emergency lighting centralized power supply through the high-power emergency exit lamp 17 and the low-power installation exit lamp 16, and the high-power emergency exit lamp 17 and the low-power installation exit lamp 16 are emergency exit lamps with different powers to finish the use work of the centralized power supply device.

Claims

1. An emergency lighting centralized power supply device, comprising a first emergency lighting centralized power supply (3) and a second emergency lighting centralized power supply (5), characterized in that: the first emergency lighting centralized power supply (3) is internally provided with a first logic control module (11), the first emergency lighting centralized power supply (3) on one side of the first logic control module (11) is internally provided with a power voltage reduction module (12), the first emergency lighting centralized power supply (3) on one side of the power voltage reduction module (12) is internally provided with a storage battery energy storage module (14), the top end of the storage battery energy storage module (14) is provided with a charging module (13), a communication control module (10) is internally arranged in a lighting distribution box input cable (1) above the charging module (13), a daily lighting power supply detection module (9) is arranged on the top end of the communication control module (10), a lighting distribution box input cable (1) is arranged in the first emergency lighting centralized power supply (3) above the daily lighting power supply detection module (9), and lighting distribution box input cable (1) is connected with daily illumination power supply detection module (9) to the one end of lighting distribution box input cable (1) extends to the outside of first emergency lighting centralized power supply (3), install emergency lighting controller (6) on the first emergency lighting centralized power supply (3) outer wall of communication control module (10) one side, the first emergency lighting centralized power supply (3) inside of charging module (13) one side is equipped with vary voltage control module (2), and the one end of vary voltage control module (2) is connected with charging module (13) and power step-down module (12), and the other end of vary voltage control module (2) extends to the outside of first emergency lighting centralized power supply (3).

2. An emergency lighting concentrated power supply unit as claimed in claim 1, wherein: the exterior of the first emergency lighting centralized power supply (3) on one side of the first logic control module (11) is provided with various evacuation lighting lamps (4), and the various evacuation lighting lamps (4) are connected with the first logic control module (11) through cables.

3. An emergency lighting concentrated power supply unit as claimed in claim 1, wherein: the second emergency lighting centralized power supply (5) is internally provided with a second logic control module (15), a high-power safety exit lamp (17) is arranged outside the second emergency lighting centralized power supply (5) on one side of the second logic control module (15), and the high-power safety exit lamp (17) is connected with the second logic control module (15) through a cable.

4. An emergency lighting concentrated power supply unit as claimed in claim 3, wherein: and a low-power installation outlet lamp (16) is arranged outside the second emergency lighting centralized power supply (5) below the high-power safety outlet lamp (17), and the low-power installation outlet lamp (16) is connected with the second logic control module (15) through a cable.

5. An emergency lighting concentrated power supply unit as claimed in claim 1, wherein: a CAN communication trunk line (8) is arranged outside the emergency lighting controller (6), and the emergency lighting controller (6) is connected with the CAN communication trunk line (8) through a cable.

6. An emergency lighting concentrated power supply unit as claimed in claim 5, wherein: the CAN communication trunk line (8) is connected with the first emergency lighting centralized power supply (3) through a cable, the CAN communication trunk line (8) is connected with the second emergency lighting centralized power supply (5) through a cable, a fire alarm system (7) is arranged outside the emergency lighting controller (6) on one side of the CAN communication trunk line (8), and the emergency lighting controller (6) is connected with the fire alarm system (7) through a shielding twisted pair.