CN214627451U - Hybrid lamp, emergency power distribution cabinet and hybrid intelligent emergency lighting system - Google Patents

Abstract

The utility model relates to a mix lamps and lanterns, include: the device comprises a light source module, a dimming circuit, a detection circuit, a communication module and a power supply module; the hybrid lamp is externally connected with a conventional lamp control circuit and an emergency lamp control circuit through the communication module; the dimming circuit is electrically connected with the light source module and the communication module respectively; when the communication module receives the dimming signal, the dimming circuit realizes dimming of the light source module according to the dimming signal; the detection circuit is configured to detect a fault condition of the hybrid lamp and send the fault condition to the emergency lamp control circuit through the communication module when the fault condition exists; the power supply module is configured to be externally connected with a mains supply and a standby power supply and supplies power to the hybrid lamp. The utility model provides a mix lamps and lanterns both can work in emergency state, also can work in non-emergency state, only install and mix lamps and lanterns and also make the ceiling seem succinct, pleasing to the eye. In addition, integrate conventional lamps and lanterns and emergent lamps and lanterns together, only need set up a lamps and lanterns monitored control system, promptly the utility model provides an emergent lamps and lanterns controller has practiced thrift resource and cost.

Description

Hybrid lamp, emergency power distribution cabinet and hybrid intelligent emergency lighting system

Technical Field

The utility model belongs to the emergency lighting field, concretely relates to mix intelligent emergency lighting system.

Background

New national standards are implemented in 3 months in 2019, the fire-fighting illumination industry is changed, and the standard requirements adopt a centralized control type (intelligent fire-fighting) fire-fighting illumination and evacuation indication system. The non-continuous fire-fighting emergency lamp is low in utilization rate, and only needs to be lightened when the emergency lamp is started, so that the waste of resources is caused. Moreover, the emergency lamp and the conventional lighting lamp are both arranged on the ceiling, so that the number of the lamps on the ceiling is large, and the attractiveness is affected.

In order to save resources, a fire-fighting emergency lamp compatible with conventional lighting needs to be designed. Conventional lighting fixtures on the market today usually have wired or wireless control functions, and therefore, it is necessary to develop an intelligent fire-fighting emergency lighting fixture compatible with a general lighting control system.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a purpose, the wasting of resources problem that conventional illumination lamps and lanterns and emergency lighting apparatus among the solution prior art caused respectively sets up has provided a mixed lamps and lanterns, emergency power distribution cabinet to and mix intelligent emergency lighting system.

The technical scheme of the utility model one: a hybrid luminaire, comprising: the device comprises a light source module, a dimming circuit, a detection circuit, a communication module and a power supply module; the hybrid lamp is externally connected with a conventional lamp control circuit and an emergency lamp control circuit through the communication module; the dimming circuit is electrically connected with the light source module and the communication module respectively; when the communication module receives the dimming signal, the dimming circuit realizes dimming of the light source module according to the dimming signal; the detection circuit is configured to detect a fault condition of the hybrid lamp and send the fault condition to the emergency lamp control circuit through the communication module when the fault condition exists; the power supply module is configured to be externally connected with a mains supply and a standby power supply and supplies power to the hybrid lamp.

Further, when commercial power exists, the power supply module receives the commercial power for supplying power, and the hybrid lamp is in a non-emergency state; when the commercial power is disconnected, the power supply module receives the power supplied by the standby power supply, and the hybrid lamp is in an emergency state.

Further, when the hybrid lamp is in a non-emergency state, the hybrid lamp can receive control of a conventional lamp control circuit or an emergency lamp control circuit; when the hybrid lamp is in an emergency state, the hybrid lamp can receive the control of the emergency lamp control circuit.

The technical scheme of the utility model two: an emergency power distribution cabinet comprises a power failure detection module, a lamp access module, a mains supply module, a standby power supply module and a communication module; the lamp access module is configured to access a plurality of paths of lamps; the emergency power distribution cabinet is externally connected with a hybrid lamp and an emergency lamp controller through the communication module; the power-off module is configured to detect whether the mains supply is disconnected, and when the mains supply is disconnected, the standby power supply module supplies power to the lamp.

Further, the communication module is configured to receive a lamp control signal sent by the emergency lamp controller, and send the lamp control signal to a corresponding lamp.

Further, the communication module is configured to receive lamp failure information sent by the hybrid lamp, and send the lamp failure information to the emergency lamp controller.

The technical scheme of the utility model three: a hybrid intelligent emergency lighting system comprises an emergency lamp control circuit, a conventional lamp control circuit and the hybrid lamp.

Further, the emergency lamp control circuit comprises an emergency lamp controller and the emergency power distribution cabinet; the emergency power distribution cabinet is respectively connected with the emergency lamp controller and the mixed lamp.

The utility model has the advantages that: the utility model provides a mix lamps and lanterns both can work in emergency state, also can work in non-emergency state, avoided both needing to install conventional illumination lamps and lanterns when installation lamps and lanterns, need install emergent lamps and lanterns again, only install and mix lamps and lanterns and also make the ceiling seem succinct, pleasing to the eye. In addition, integrate conventional lamps and lanterns and emergent lamps and lanterns together, only need set up a lamps and lanterns monitored control system, promptly the utility model provides an emergent lamps and lanterns controller has practiced thrift resource and cost.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a hybrid intelligent fire-fighting lighting system according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a power distribution cabinet for emergency lamps according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a hybrid lamp according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be further explained with reference to the accompanying drawings.

Example one

Fig. 1 is a schematic structural diagram of a hybrid intelligent fire-fighting lighting system according to an embodiment of the present invention.

As shown in fig. 1, the hybrid intelligent fire-fighting lighting system comprises an emergency lamp control circuit 1, a conventional lamp control circuit 2, and a hybrid lamp 3; the emergency lamp control circuit 1 comprises an emergency lamp controller 11 and an emergency lamp power distribution cabinet 12. The number of hybrid luminaires 3 is typically multiple.

The emergency lamp power distribution cabinet 12 is electrically connected with the emergency lamp controller 11 and the hybrid lamp 3 respectively, and the hybrid lamp 3 is further electrically connected with the conventional lamp control circuit 2. The emergency light distribution cabinet 12 is configured to access a plurality of emergency light fixtures or hybrid light fixtures 3, for example, 1 emergency light distribution cabinet 12 may be divided into 8 ways, each of which may access up to 60 emergency light fixtures or hybrid light fixtures 3. The emergency light controller 11 may be configured to enable control, e.g. switching on, off, dimming, etc., of a plurality of emergency lights or hybrid lights 3 in an emergency situation, in which the mains is disconnected. The conventional light fixture control circuit 2 is configured to effect control, e.g. switching on, off, dimming, etc., of the conventional light fixture or the hybrid light fixture 3 in a non-emergency state, in which the mains power is kept clear. The conventional lamp control circuit 2 can be in the form of a wall switch, and can also be in the form of a remote controller for wireless control.

Example two

Fig. 2 is the utility model discloses the preferred emergency lighting fixtures switch board of embodiment's structural schematic diagram.

In an emergency state, the commercial power is disconnected, and a standby power supply is needed to supply power to the hybrid lamp 3, in this embodiment, a standby power supply module 123 is disposed in the emergency lamp power distribution cabinet 12, specifically, as shown in fig. 2, in addition to the standby power supply module 123, a lamp access module 121, a commercial power module 124, a communication module 125, and a power failure detection module 122 are further disposed in the emergency lamp power distribution cabinet 12. The backup power module 122 may be a battery or a generator. And the commercial power module 124 is configured to be connected with commercial power and supply power to each module in the emergency lamp power distribution cabinet 12. The communication module 125 is configured to receive fault information of all lamps connected to the emergency lamp power distribution cabinet 12, and send the lamp fault information to the emergency lamp controller 11, and the emergency lamp controller 11 sends the lamp fault information to the maintenance personnel, so that the maintenance personnel can timely maintain the faulty lamps and lanterns and remove the fault.

The lamp access module 121 is configured to access multiple emergency lamps or hybrid lamps 3; the power-off detection module 122 is configured to periodically detect the on/off of the commercial power, when the commercial power is detected to be disconnected, the power-off detection module 122 sends a commercial power disconnection signal to the standby power supply module 123, and after receiving the commercial power disconnection signal, the standby power supply module 123 starts to supply power to the plurality of emergency lamps or the hybrid lamps 3 connected to the emergency lamp power distribution cabinet 12.

In this embodiment, the power-off detection module 122 and the standby power module 123 are arranged in the emergency lamp power distribution cabinet 12 to periodically detect the on-off condition of the commercial power, and the standby power module 123 is started to supply power to the emergency lamp or the hybrid lamp 3 after the commercial power is disconnected, so that the same hybrid lamp 3 can normally work in an emergency state and a non-emergency state, thereby avoiding the installation of both conventional lamps and emergency lamps, saving resources and improving the attractiveness of a ceiling.

EXAMPLE III

Fig. 3 is a schematic structural view of a hybrid lamp according to an embodiment of the present invention.

As shown in fig. 3, the hybrid lighting fixture 3 includes a light source module 31, a dimming circuit 32, a detection circuit 33, a communication module 34, and a power module 35. The power module 35 is externally connected with commercial power, and the standby power module 123 in the emergency lamp power distribution cabinet 12, when the commercial power exists, the commercial power supplies power to the power module 35, and at the moment, the hybrid lamp 3 is in a non-emergency state; when the commercial power is cut off, the hybrid lamp 3 enters an emergency state, the standby power module 123 in the emergency lamp power distribution cabinet 12 supplies power to the hybrid lamp 3, and the power module 35 is configured to supply power to all modules in the hybrid lamp 3.

The detection circuit 33 is configured to detect a fault condition of the hybrid lamp 3, if the hybrid lamp 3 fails, the detection circuit 33 sends fault information to the communication module 34, the communication module 34 sends the fault information to the emergency lamp controller 11 through the emergency lamp power distribution cabinet 12, the emergency lamp controller 11 records the fault information of the lamp, and sends the lamp fault information to a maintenance worker, so that the maintenance worker can timely maintain the failed lamp.

The detection circuit 33 detects the failure information of the hybrid lamp 3 in both the non-emergency state and the emergency state, and reports the failure information to the emergency lamp controller 11. In the scheme of separately setting the conventional lamp and the emergency lamp in the prior art, two sets of fault management systems are required to monitor the fault information of the lamp, and in the scheme of the embodiment, only one emergency lamp controller 11 is required to complete the fault monitoring of the hybrid lamp 3 in the non-emergency state and the emergency state, so that the equipment resources are saved.

The dimming circuit 32 is electrically connected to the light source module 31 and the communication module 34, respectively, and the dimming circuit 32 is configured to receive control information of the emergency lighting control circuit 1 and the conventional lighting control circuit 2, so as to implement switching on and off, dimming control on the light source module 31, and the like.

The utility model provides a mix lamps and lanterns 3 both can work in emergency state, also can work in non-emergency state, avoided both needing to install conventional illumination lamps and lanterns when installation lamps and lanterns, need install emergent lamps and lanterns again, only install mix lamps and lanterns and also make the ceiling seem succinct, pleasing to the eye. In addition, integrate conventional lamps and lanterns and emergent lamps and lanterns together, only need set up a lamps and lanterns monitored control system, promptly the utility model provides an emergent lamps and lanterns controller has practiced thrift resource and cost.

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. A hybrid luminaire, comprising: the device comprises a light source module, a dimming circuit, a detection circuit, a communication module and a power supply module; it is characterized in that the preparation method is characterized in that,

the hybrid lamp is externally connected with a conventional lamp control circuit and an emergency lamp control circuit through the communication module;

the dimming circuit is electrically connected with the light source module and the communication module respectively;

when the communication module receives the dimming signal, the dimming circuit realizes dimming of the light source module according to the dimming signal;

the detection circuit is configured to detect a fault condition of the hybrid lamp and send the fault condition to the emergency lamp control circuit through the communication module when the fault condition exists;

the power supply module is configured to be externally connected with a mains supply and a standby power supply and supplies power to the hybrid lamp.

2. A hybrid light fixture as recited in claim 1,

when commercial power is available, the power supply module receives the commercial power supply, and the hybrid lamp is in a non-emergency state;

when the commercial power is disconnected, the power supply module receives the power supplied by the standby power supply, and the hybrid lamp is in an emergency state.

3. A hybrid light fixture as recited in claim 2,

when the hybrid lamp is in a non-emergency state, the hybrid lamp can receive the control of a conventional lamp control circuit or an emergency lamp control circuit;

when the hybrid lamp is in an emergency state, the hybrid lamp can receive the control of the emergency lamp control circuit.

4. An emergency power distribution cabinet comprises a power failure detection module, a lamp access module and a commercial power module,

a standby power module and a communication module; it is characterized in that the preparation method is characterized in that,

the lamp access module is configured to access a plurality of paths of lamps;

the emergency power distribution cabinet is externally connected with a hybrid lamp and an emergency lamp controller through the communication module;

the power-off module is configured to detect whether the mains supply is disconnected, and when the mains supply is disconnected, the standby power supply module supplies power to the lamp.

5. The emergency power distribution cabinet of claim 4,

the communication module is configured to receive a lamp control signal sent by the emergency lamp controller and send the lamp control signal to a corresponding lamp.

6. The emergency power distribution cabinet of claim 5,

the communication module is configured to receive lamp failure information sent by the hybrid lamp and send the lamp failure information to the emergency lamp controller.

7. A hybrid intelligent emergency lighting system comprising an emergency light fixture control circuit, a conventional light fixture control circuit, and the hybrid light fixture of any of claims 1-3.

8. The hybrid intelligent emergency lighting system of claim 7, wherein the emergency light control circuit comprises an emergency light controller, and the emergency power distribution cabinet of any of claims 4-6;

the emergency power distribution cabinet is respectively connected with the emergency lamp controller and the mixed lamp.

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