CN220933716U - Fire emergency lamp for indicating rescue and intelligent internet of things fire-fighting system - Google Patents

Abstract

The utility model discloses a fire-fighting emergency lamp for indicating rescue and an intelligent internet of things fire-fighting system, and relates to the technical field of fire-fighting emergency, wherein the fire-fighting emergency lamp for indicating rescue comprises a shell, a display module, a control circuit module, a power supply module and a substrate, wherein the display module, the control circuit module and the power supply module are respectively packaged on the substrate; the power supply module is respectively connected with the display module and the control circuit module to respectively supply power to the display module and the control circuit module; the display module comprises a direction indicating unit and a rescue indicating unit, the direction indicating unit is used for indicating the escape route, the rescue indicating unit is used for indicating the rescue route, and the control circuit module is respectively connected with the direction indicating unit and the rescue indicating unit so as to respectively drive the direction indicating unit and the rescue indicating unit. By adopting the utility model, the route guidance can be carried out on trapped people and rescue workers at the same time, and the evacuation and rescue efficiency is improved.

Description

Fire emergency lamp for indicating rescue and intelligent internet of things fire-fighting system

Technical Field

The utility model relates to the technical field of fire emergency, in particular to a fire emergency lamp for indicating rescue and an intelligent Internet of things fire protection system.

Background

The fire-fighting emergency lamp is a guarantee of public place safety emergency, is a mandatory measure of public fire-fighting, has wide application range and complex arrangement environment, is usually arranged at a fire-fighting escape passage, and can automatically turn on when power failure, fire alarm and the like occur, so as to realize an emergency lighting function.

At present, when a fire occurs, many fire emergency lamps can only singly indicate the direction of a safety exit. If chinese patent "CN219349755U" discloses a sign lamp indication mark mounting structure, it includes the panel, sets up luminescent plate on the panel, sets up the mark pattern on the luminescent plate, is equipped with the printing opacity district and the non-printing opacity district of fretwork on the panel, and the printing opacity district shows the luminescent plate, marks the pattern and passes through the printing opacity district outward show, marks the pattern and can carry out printing opacity show. However, in actual use, when the safety passageway has been blocked, resulting in congestion and failure to effectively evacuate, the direction indicated by the indicator pattern may be incorrect and may not provide an effective indication for the trapped person. Moreover, the existing fire emergency lamp has single function, can only indicate the evacuation direction, and can not provide due help for rescue workers.

Therefore, with the increase of urban high-rise buildings, the traditional fire emergency lamp has difficulty in meeting the requirements of modern intelligent buildings.

Disclosure of Invention

The utility model aims to solve the technical problems of providing the firefighting emergency lamp with a simple structure and rescue indication and the intelligent internet of things firefighting system, which can simultaneously guide the trapped personnel and the rescue personnel and improve the evacuation and rescue efficiency.

In order to solve the technical problems, the utility model provides a fire emergency lamp for indicating rescue, which comprises: the display module, the control circuit module and the power module are respectively packaged on the substrate; the power supply module is respectively connected with the display module and the control circuit module to respectively supply power to the display module and the control circuit module; the display module comprises a direction indicating unit and a rescue indicating unit, wherein the direction indicating unit is used for indicating an escape path, the rescue indicating unit is used for indicating a rescue path, and the control circuit module is respectively connected with the direction indicating unit and the rescue indicating unit so as to respectively drive the direction indicating unit and the rescue indicating unit.

As an improvement of the above solution, the direction indicating unit comprises at least two groups of LED lamp groups and/or the rescue indicating unit comprises at least two groups of ultraviolet lamp groups.

As an improvement of the above-described scheme, the LED lamp groups are respectively arranged in a pattern structure having directivity in different directions, and/or the ultraviolet lamps are respectively arranged in a pattern structure having directivity in different directions.

As the improvement of above-mentioned scheme, instruct the fire emergency lamp of rescue still include locate light and luminance inductor on the casing, light and luminance inductor respectively with control circuit module is connected.

As an improvement of the scheme, the control circuit module comprises a microcontroller and a wireless communication circuit; the wireless communication circuit is connected with the microcontroller and is used for receiving a control instruction and forwarding the control instruction to the microcontroller; the microcontroller is connected with the display module and is used for driving the display module according to the control instruction.

As an improvement of the above scheme, the power module includes a charging circuit and a lithium battery pack connected to each other.

As an improvement of the scheme, the shell is provided with a ventilation opening and/or a heat dissipation groove.

Correspondingly, the utility model also provides an intelligent internet of things fire-fighting system, which comprises the sensor group, the control platform and the fire-fighting emergency lamp for indicating rescue, wherein the sensor group and the fire-fighting emergency lamp are arranged in the target area and are respectively connected with the control platform.

As an improvement of the scheme, the sensor group comprises video monitoring equipment, smoke detection equipment, temperature detection equipment and combustible gas detection equipment.

As an improvement of the scheme, the intelligent Internet of things fire protection system further comprises fire protection emergency execution equipment connected with the control platform.

The implementation of the utility model has the beneficial effects that:

The utility model introduces a rescue indication unit; when a fire disaster dangerous situation occurs, the direction indication unit and the rescue indication unit are lightened simultaneously, trapped people can evacuate along the escape path indicated by the direction indication unit, and rescue personnel can rescue the trapped people according to the rescue path indicated by the rescue indication unit, so that reasonable rescue guidance is provided for the rescue personnel, and the rescue efficiency is improved;

Further, the rescue indication unit comprises at least two ultraviolet lamp groups; the ultraviolet lamp group emits ultraviolet rays, and under the condition that the ultraviolet glasses are not worn, the ordinary personnel cannot perceive the ultraviolet lamp group, so that the escape of the ordinary personnel is not influenced; the rescue workers can wear the ultraviolet glasses to enter the fire scene and view the ultraviolet lamp group through the ultraviolet glasses, so that the rescue path is clearly observed.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of a fire emergency lamp of the present utility model indicating rescue;

FIG. 2 is a schematic structural view of a second embodiment of the fire emergency lamp of the present utility model indicating rescue;

fig. 3 is a schematic structural diagram of an embodiment of the intelligent internet of things fire protection system of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present utility model, are used only with reference to the drawings of the present utility model, and are not meant to be limiting in any way.

Referring to fig. 1, fig. 1 shows a first embodiment of a fire emergency lamp for rescuing according to the present utility model, which includes a housing 11, a display module 12, a control circuit module, a power module 13 and a substrate 14 disposed in the housing 11, wherein the display module 12, the control circuit module and the power module 13 are respectively encapsulated on the substrate 14; the power supply module 13 is respectively connected with the display module 12 and the control circuit module to respectively supply power to the display module 12 and the control circuit module; the display module 12 includes a direction indicating unit 121 and a rescue indicating unit 122, the direction indicating unit 121 is used for indicating an escape path, the rescue indicating unit 122 is used for indicating a rescue path, and the control circuit module is respectively connected with the direction indicating unit 121 and the rescue indicating unit 122 to respectively drive the direction indicating unit 121 and the rescue indicating unit 122.

Unlike the prior art, the present utility model introduces a rescue indication unit 122. When a fire disaster dangerous situation occurs, the direction indicating unit 121 and the rescue indicating unit 122 are simultaneously lightened, trapped people can evacuate along the escape path indicated by the direction indicating unit 121, and rescue personnel can rescue the trapped people according to the rescue path indicated by the rescue indicating unit 122, so that reasonable rescue guidance is provided for the rescue personnel, and the rescue efficiency is improved.

Further, the direction indicating unit 121 includes at least two groups of LED lamp groups, and each LED lamp group is arranged in a pattern structure having different directional directivities; the rescue indication unit 122 includes at least two ultraviolet lamp groups, and each ultraviolet lamp group is respectively arranged in a pattern structure having different directional directivities. Wherein, the high-brightness LED lamp beads are arranged in each LED lamp group, which is convenient for watching; the ultraviolet lamp group emits ultraviolet rays, and the ultraviolet lamp group is invisible to naked eyes under the condition of not wearing ultraviolet glasses; the directional pattern structure may be an arrow pattern, but is not limited thereto, and may be arranged according to practical situations.

It should be noted that, in general, after the ultraviolet lamp group is lightened, the common personnel cannot perceive the ultraviolet lamp group, so that the escape of the common personnel is not affected; the rescue workers can wear the ultraviolet glasses to enter the fire scene and view the ultraviolet lamp group through the ultraviolet glasses, so that the rescue path is clearly observed.

For example, the substrate 14 is packaged with a leftward arrow pattern formed by arranging LED lamp groups, a rightward arrow pattern formed by arranging LED lamp groups, a leftward arrow pattern formed by arranging ultraviolet lamp groups, and a rightward arrow pattern formed by arranging ultraviolet lamp groups. When a fire disaster happens, if the left arrow pattern formed by the arrangement of the LED lamp groups and the right arrow pattern formed by the arrangement of the ultraviolet lamp groups are lighted, the right arrow pattern formed by the arrangement of the LED lamp groups and the left arrow pattern formed by the arrangement of the ultraviolet lamp groups are extinguished; at the moment, trapped people can evacuate leftwards along with the leftwards arrow patterns formed by the arrangement of the LED lamp groups, and rescue workers can rescue rightwards according to the rightwards arrow patterns formed by the arrangement of the ultraviolet lamp groups after wearing the ultraviolet glasses.

Therefore, by combining the LED lamp group and the ultraviolet lamp group, the utility model not only can ensure that trapped people safely evacuate according to the indication direction of the LED lamp group, but also can prevent the trapped people from looking wrong to evacuate (common people cannot see the ultraviolet lamp group without wearing ultraviolet glasses), and can ensure that rescue workers can select the rescue direction according to the indication direction of the ultraviolet lamp group after wearing the ultraviolet glasses to enter a fire scene.

Further, the control circuit module comprises a microcontroller and a wireless communication circuit; the wireless communication circuit is connected with the microcontroller and is used for receiving a control instruction sent by external equipment and forwarding the control instruction to the microcontroller; the microcontroller is connected with the display module 12, and the microcontroller is used for driving the display module 12 according to the control instruction.

The wireless communication circuit can be any one or more of a WIFI communication circuit, a Bluetooth circuit and a zigbee circuit. Therefore, the utility model can receive the control command sent by the external equipment and forward the control command to the microcontroller through wireless communication technologies such as WIFI, bluetooth, zigbee and the like; the microcontroller may be an ESP32 chip or an STM32F103ZET6, but is not limited thereto, as long as the display module 12 can be driven according to a control instruction.

It should be noted that the microcontroller can be connected with different LED lamp groups and different ultraviolet lamp groups through different output pins; that is, one LED lamp group corresponds to one output pin, and one ultraviolet lamp group corresponds to one output pin.

For example, the fire emergency lamp is provided with an LED lamp group A1, an LED lamp group A2, an ultraviolet lamp group B1 and an ultraviolet lamp group B2; the microcontroller is connected with the LED lamp set A1 through an output pin A1, is connected with the LED lamp set A2 through an output pin A2, is connected with the ultraviolet lamp set B1 through an output pin B1, and is connected with the ultraviolet lamp set B2 through an output pin B2; when the microcontroller receives a 01 instruction, a high level can be output to the output pins A1 and B1 to light the LED lamp group A1 and the ultraviolet lamp group B1, and a low level can be output to the output pins A2 and B2 to turn off the LED lamp group A2 and the ultraviolet lamp group B2; when the microcontroller receives the 02 instruction, the microcontroller can output high level to the output pins A1 and B2 to light the LED lamp group A1 and the ultraviolet lamp group B2, and output low level to the output pins A2 and B1 to turn off the LED lamp group A2 and the ultraviolet lamp group B1; when the microcontroller receives 03 instructions, the microcontroller can output high level to the output pins A2 and B2 to light the LED lamp group A2 and the ultraviolet lamp group B2, and output low level to the output pins A1 and B1 to turn off the LED lamp group A1 and the ultraviolet lamp group B1; when the microcontroller receives the 04 instruction, it can output high level to the output pins A2 and B1 to light the LED lamp group A2 and the ultraviolet lamp group B1, and output low level to the output pins A1 and B2 to turn off the LED lamp group A1 and the ultraviolet lamp group B2.

In addition, the power supply module 13 includes a charging circuit and a lithium battery pack connected to each other. The charging circuit is internally provided with a TP4056 chip, and the TP4056 chip is a linear charging chip specially designed for a lithium ion battery, and has the functions of battery temperature monitoring, under-voltage locking, automatic recharging and two-state pins for displaying charging and charging termination. Therefore, after the lithium battery pack is charged by the charging circuit, power can be supplied to the display module 12 for 2 hours or more.

Therefore, the control circuit module and the power supply module 13 can realize targeted switching of different display modes in the display module 12, so that trapped people are effectively guided to escape quickly and rescue workers are guided to rescue, and the practicability is high.

Referring to fig. 2, fig. 2 shows a second embodiment of the fire emergency lamp for indicating rescue according to the present utility model, unlike the first embodiment shown in fig. 1, the fire emergency lamp for indicating rescue according to the present embodiment further includes a lighting lamp 15 and a brightness sensor 16 provided on the housing 11, and the lighting lamp 15 and the brightness sensor 16 are respectively connected to the control circuit module. When the brightness sensor 16 collects that the ambient brightness is low, the control circuit can drive the illuminating lamp 15 to illuminate, so that the brightness of a target area is conveniently improved, and the safety of pedestrians is ensured.

Further, the shell 11 is provided with a vent and/or a radiating groove, so that overheating inside the fire emergency lamp can be avoided, and the normal use of the fire emergency lamp is ensured; meanwhile, the shell 11 can be made of high-temperature-resistant ABS material so as to ensure that the fire emergency lamp can still be normally used under the condition of fire; correspondingly, the fire emergency lamp is of a rectangular structure, and the back of the shell 11 is also provided with a bolt hole so as to be convenient to install.

Referring to fig. 3, fig. 3 shows a specific structure of the intelligent internet of things fire protection system 100 of the present utility model, which includes a sensor group 2, a control platform 3 and a fire emergency lamp 1 for indicating rescue, which are disposed in a target area, wherein the sensor group 2 and the fire emergency lamp 1 are respectively connected with the control platform 3. Specifically:

The sensor group 2 comprises video monitoring equipment, smoke detection equipment, temperature detection equipment and combustible gas detection equipment; in practical application, the sensor group 2 collects fire related data through various sensing devices and uploads the fire related data to the control platform 3 through a network. The video monitoring equipment is arranged in each room, and the whole building is covered without dead angles; the smoke detection equipment is arranged in public areas such as walkways and the like; the temperature detection equipment is arranged at important parts such as an elevator machine room, a power distribution room and the like; the combustible gas detection apparatus is disposed in a garage, kitchen, or the like where knocking may occur.

After the control platform 3 receives the fire related data, an administrator can send a control instruction to the fire emergency lamp 1 through the control platform 3, or the control platform 3 sends a control instruction to the fire emergency lamp 1 according to preset logic so as to light the display module 12, so that trapped people are synchronously guided to escape quickly and rescue workers are guided to rescue. The control platform 3 may be an existing cloud platform, and may have a simple forwarding and logic control function, so that a specific function may be realized through the prior art.

Further, the intelligent internet of things fire protection system 100 further comprises a fire protection emergency execution device 4 connected with the control platform 3; the fire emergency execution device 4 comprises a fire hydrant, an automatic spraying system and the like. The administrator can send a control instruction to the fire emergency execution device 4 through the control platform 3, or send a control instruction to the fire emergency execution device 4 by the control platform 3 according to preset logic, so as to start a fire hydrant, an automatic spraying system and the like to perform automatic fire extinguishing operation.

According to the utility model, the unique fire emergency lamp 1 is introduced, the fire emergency lamp 1 can be utilized for route guidance, the LED lamp group indicates trapped people to evacuate according to the optimal route, and the ultraviolet lamp group indicates rescue workers to rescue according to the optimal route, so that evacuation and rescue plans are more efficient and accurate, and the utility model has an important role in guaranteeing the life safety and property loss of the workers; meanwhile, the fire hydrant is matched with a manual fire extinguishing and spraying system to automatically extinguish the fire.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims (10)

1. The fire emergency lamp for indicating rescue is characterized by comprising a shell, a display module, a control circuit module, a power module and a substrate, wherein the display module, the control circuit module and the power module are arranged in the shell and are respectively packaged on the substrate;

The power supply module is respectively connected with the display module and the control circuit module to respectively supply power to the display module and the control circuit module;

The display module comprises a direction indicating unit and a rescue indicating unit, wherein the direction indicating unit is used for indicating an escape path, the rescue indicating unit is used for indicating a rescue path, and the control circuit module is respectively connected with the direction indicating unit and the rescue indicating unit so as to respectively drive the direction indicating unit and the rescue indicating unit.

2. Fire emergency lamp for indicating rescue as defined in claim 1, characterized in that the direction indication unit comprises at least two LED lamp groups and/or the rescue indication unit comprises at least two ultraviolet lamp groups.

3. Fire emergency lamp according to claim 2, characterized in that the LED lamp groups are arranged in a pattern structure with directivity in different directions, respectively, and/or the ultraviolet lamps are arranged in a pattern structure with directivity in different directions, respectively.

4. The rescue indicating fire emergency light of claim 1, further comprising an illumination lamp and a brightness sensor disposed on the housing, wherein the illumination lamp and the brightness sensor are respectively connected with the control circuit module.

5. The rescue indicating fire emergency light of claim 1 wherein the control circuit module comprises a microcontroller and a wireless communication circuit;

The wireless communication circuit is connected with the microcontroller and is used for receiving a control instruction and forwarding the control instruction to the microcontroller;

The microcontroller is connected with the display module and is used for driving the display module according to the control instruction.

6. The rescue indicating fire emergency light of claim 1 wherein the power module comprises a charging circuit and a lithium battery pack connected to each other.

7. Rescue indicating fire emergency light according to claim 1, wherein the housing is provided with ventilation openings and/or heat sink grooves.

8. The intelligent internet of things fire protection system is characterized by comprising a sensor group, a control platform and the fire protection emergency lamp for indicating rescue according to any one of claims 1-7, wherein the sensor group and the fire protection emergency lamp are arranged in a target area, and the sensor group and the fire protection emergency lamp are respectively connected with the control platform.

9. The intelligent internet of things fire protection system of claim 8, wherein the sensor group comprises a video monitoring device, a smoke detection device, a temperature detection device, and a combustible gas detection device.

10. The intelligent internet of things fire protection system of claim 8, further comprising a fire emergency execution device coupled to the control platform.