CN201368392Y - Wireless control emergency lighting device with moving wire guide design consideration - Google Patents

Abstract

The utility model is a wireless controlled emergency lighting device with consideration of the design of moving line guidance, which comprises: a power detection device and a plurality of emergency lighting device modules, wherein the power detection device detects the power supply status of the total power supply, and transmits a specific active or passive signal in a wireless manner to control each of the emergency lighting device modules, and uses a light-emitting diode as a light-emitting element of the emergency lighting device. When arranged, it can be attached to the original lighting device so that the light sources of the plurality of emergency lighting devices can be strung together into an evacuation moving line guidance, or directly placed in corridors, indoors, stairwells and other places where signals can be reached. In addition to forming an escape lighting moving line, this design concept can also reduce the single unit volume of the emergency lighting device, further achieving the functions of convenient installation, low power consumption and reduced manufacturing and maintenance costs.

Description

Wireless Controlled Emergency Lighting Equipment with Motion Guided Design Considerations

technical field

The utility model relates to an emergency lighting device, in particular to a wireless control emergency lighting device with moving line guidance design considerations.

Background technique

According to the general fire regulations, the emergency lighting equipment in the building must be configured independently and cannot be covered by the decoration. Therefore, the emergency lighting equipment often needs to be replaced when redecorating, which will only increase the troubles in the decoration design and the inconvenience of construction. . However, the general existing emergency lights not only need to occupy the power socket, but also rely on the power socket setting and cannot achieve wireless transmission mode. The use type and range of use are limited. Although one to two white and red projection lamps are used, the brightness is sufficient. However, the power consumption is large, and the charging module that provides the power supply can only supply power continuously for four to six hours at most, and cannot continue to supply power for a long time. There are also existing emergency lights such as the new No. M312625 patent of Taiwan Province of China "Multifunctional Emergency Lighting Structure Improvement" that uses light-emitting diodes (LEDs) as its light-emitting device. The luminosity of light-emitting diodes is low, although its power consumption is reduced. , but the continuous power supply time is long, and the volume of the utility model is too large, and it still depends on the power socket to set up, which is not perfect; there is another US patent No. 6986589 "Apparatus and methods for providing an emergency Lighting augmentation system" uses light-emitting diodes as its light-emitting device, and uses lithium batteries as its power supply unit; while the US Patent No. 7321302 "Central test radio frequency system formerer agency lighting" and Taiwan Province of China's new patent No. 499015 "intelligent wireless fire alarm "Location notification device" uses wireless transmission mode to connect its host with various emergency lighting equipment. However, none of the above-mentioned patents is aimed at the wireless control integration mode of emergency lighting equipment, and there is no targeted design consideration for the guidance function of the emergency lighting that simultaneously constitutes an escape line; therefore, how to make the existing emergency lighting The equipment has the effect of wireless transmission, more warning effect, long-time luminescence and convenient installation, which are the problems to be solved by the utility model.

Contents of the invention

The purpose of the utility model is to provide a wireless control emergency lighting device with moving line guidance design considerations, which can directly detect the power supply status of the independent power supply of the main switch through its power detection device and transmit specific signals wirelessly with the emergency lighting device. The lighting device can be placed directly in corridors, indoors, stairwells and other places where signals can be reached to form an escape lighting movement line; especially in open indoor spaces, clear guidance on emergency escape routes is particularly needed. The lights and escape lines are well combined.

Another object of the present utility model is to provide a wireless control emergency lighting device with moving line guidance design considerations, which is a wireless control separate emergency lighting device not limited by independent power supply configuration points, through the emergency lighting device to The replaceable dry battery is used as the power supply source, and the emergency lighting equipment of the present utility model does not need to rely on the power socket for power supply, so there is no need to set up an independent power supply, which saves the concern of pre-determined installation points during decoration and construction.

Another object of the present utility model is to provide a wireless control emergency lighting device with moving line guidance design considerations, which is a wireless control separate emergency lighting device that saves power and is small in size. , LED) as the light-emitting element of emergency lighting equipment, reduce power consumption and reduce the occupied space, and the light-emitting diode has a long life and low failure rate, so that the wireless-controlled separate emergency lighting equipment does not need complicated replacement of consumables and can reduce costs and improve durability. Due to the use of light-emitting diodes as light-emitting elements, the emergency lighting device of the utility model has a small volume and can be installed in combination with existing lamps.

Another purpose of this utility model is to provide a wireless control emergency lighting device with moving line guidance design considerations, which makes the emergency lighting device clearly display warning effects such as flickering through the design of the internal electronic circuit of the emergency lighting device, and Use light-emitting diodes of different colors to form a moving line guide, which more clearly indicates the movement of escape.

Another purpose of the present utility model is to provide a wireless control emergency lighting device with moving line guidance design considerations, which is a separate emergency lighting device with wireless control and built-in self-test function to avoid emergency lighting device failure during power outages Or a power outage situation occurs.

In order to achieve the above purpose and effect, the utility model provides a power detection device and a plurality of emergency lighting devices, the power detection device is installed on the circuit of the independent main power supply; and the plurality of emergency lighting devices , is set on the emergency escape route, and has both emergency lighting and moving line guidance; through its power detection device, it directly detects the power supply status of the main switch independent power supply and transmits specific signals wirelessly with the emergency lighting device and can use light-emitting diodes as Luminous elements for emergency lighting.

The beneficial effect of the utility model is that: it has the characteristics of low energy consumption and durable use, and uses a small dry battery as its power supply element, so that the wireless-controlled separate emergency lighting equipment of the utility model can improve the performance of the existing emergency lighting equipment. Disadvantages of large size, short power supply time, need for line connection, and inconvenient installation, but provide separate emergency lighting equipment with clear warning, long power supply time and convenient installation of wireless control.

Description of drawings

Fig. 1 is a schematic block diagram of the utility model;

Fig. 2 is a circuit configuration diagram of the first embodiment of the present utility model;

Fig. 3 is a schematic diagram of the operation process of the utility model of the utility model;

Fig. 4 is the circuit configuration diagram of the second embodiment of the present utility model;

Fig. 5 is the appearance diagram A of the emergency lighting device of the present invention;

Fig. 6 is the appearance diagram B of the emergency lighting device of the present invention;

Fig. 7 is the appearance diagram C of the emergency lighting device of the present invention;

Fig. 8 is a schematic diagram of the implementation and application of the utility model;

Fig. 9 is a schematic diagram of the implementation and application of the escape guidance of the present invention.

Explanation of reference signs: 1-main power switch; 2-power detection device; 21-power detection unit; 22-electromagnetic wave emission unit; 23-power supply battery pack; 3, 301a, 301b, 301c, 31, 32, 33 , 34-emergency lighting device; 311, 321, 331, 341-electromagnetic wave receiving unit; 312, 322, 332, 342, 302a, 302b, 302c-light emitting unit; 303a, 303b, 303c-power lamp; 304a, 304b, 304c - test light; 305a, 305b, 305c - low battery warning light; 306a, 306b, 306c - power switch; 307a, 307b, 307c - function key; 313, 323, 333, 343 - power supply unit; 5 - room electrical circuit.

Detailed ways

In order to make the above and other purposes, features and advantages of the present utility model more obvious and easy to understand, the preferred embodiments are specifically cited below, together with the accompanying drawings, and are described in detail as follows:

Please refer to FIG. 1 , which is a schematic block diagram of the present invention. The power detection device 2 is electrically connected to the main power switch 1 to detect the power supply status of the main power switch 1, and the power detection device 2 sends specific signals to the emergency lighting devices 31, 32, 33 through wireless transmission. , 34. The power detection device 2 is directly set across the main power switch 1, if the main power switch 1 is the main power switch of the building, then the power detection device 2 can detect the main power of the building, When the main power supply of the building fails to supply power, the power detection device 2 installed across the main power switch 1 sends specific signals to the emergency lighting devices 31, 32, 33, 34, and the emergency lighting devices 31, 32 , 33, 34 switch to the lighting state immediately after receiving the signal; if the main power switch 1 is the main power switch of an individual floor in the building, then the power detection device 2 detects the power supply status of the floor, when When the floor is powered off, the power detection device 2 straddling the main power switch 1 sends specific signals to the emergency lighting devices 31, 32, 33, 34, and the emergency lighting devices 31, 32, 33, 34 After receiving the signal, it immediately switches to the lighting state. These emergency lighting devices 31 , 32 , 33 , 34 can be installed in at least one or more groups according to usage requirements.

Please refer to FIG. 2 , which is a circuit configuration diagram of the first embodiment of the present invention. The power detection device 2 is directly straddled on the circuit of the main power switch 1. The power detection device 2 is composed of a power detection unit 21, an electromagnetic wave transmitting unit 22 and a power supply battery pack 23. When the power detection The detection unit 21 detects that the main power switch 1 across the bridge is in a power failure state, that is, the electromagnetic wave transmitting unit 22 is controlled to transmit signals to the emergency lighting devices 31, 32, 33, 34, and the electromagnetic wave transmitting unit 22 is powered by the battery pack 23 Provides the power needed to transmit the signal. And these emergency lighting devices 31, 32, 33, 34 are respectively composed of an electromagnetic wave receiving unit 311, 321, 331, 341, a light emitting unit 312, 322, 332, 342 and a power supply unit 313, 323, 333, 343 , the electromagnetic wave receiving unit 311, 321, 331, 341 is to receive the specific signal sent from the electromagnetic wave transmitting unit 22, when the electromagnetic wave receiving unit 311, 321, 331, 341 receives the signal of the electromagnetic wave transmitting unit 22, switch and turn on the light emitting unit immediately 312 , 322 , 332 , 342 , and the power required by the light emitting units 312 , 322 , 332 , 342 is provided by the power supply units 313 , 323 , 333 , 343 . The electromagnetic wave transmitting unit 22 can be a radio wave (Radio Frequency, RF) or an infrared transmitter; the power supply battery pack 23 can be a small rechargeable battery, which stops charging after being charged to a fixed amount of electricity at ordinary times, and automatically transmits power to provide The required electric power when the electromagnetic wave transmitting unit 22 sends a signal; and the electromagnetic wave receiving unit 311, 321, 331, 341 cooperates with the transmitter type of the electromagnetic wave transmitting unit 22 to be a radio wave (RF) of any wavelength or a transmitter of visible light such as infrared rays The light-emitting units 312, 322, 332, 342 can be light-emitting diode elements (LightEmitting Diode, LED) or organic light-emitting diode elements (OLED) etc.; the power supply unit 313, 323, 333 of the emergency lighting equipment 31, 32, 33, 34 , 343 can be dry batteries. The light-emitting diode elements of the light-emitting units 312, 322, 332, 342 consume low power, and the use of dry batteries as the power supply units 313, 323, 333, 343 can also maintain the long-term use time of the emergency lighting equipment 31, 32, 33, 34, No additional power outlets are occupied. The power detection device 2 and the emergency lighting devices 31, 32, 33, 34 use electromagnetic waves to transmit specific signals, and the emergency lighting devices 31, 32, 33, 34 can be placed in corridors, indoors, or stairwells according to requirements to form an escape For moving lines, several emergency lighting devices can be installed where the signal is available. If it is a large building and there is no signal, a signal booster can be installed to increase the signal strength. In addition, by using light-emitting diode elements or organic light-emitting diode elements of different colors as the light-emitting units 312 , 322 , 332 , and 342 , the warning of the main escape direction can be strengthened.

Please refer to FIG. 3 , which is a schematic diagram of the operation flow of the present invention. The detection unit 21 of the power detection device 2 is to detect the power supply status of the main power switch 1 and judge whether it is a power failure state, if it is not a power failure state, then continuously detect the power supply state; if it is a power failure state, then start the electromagnetic wave emission unit 22, With the power provided by the power supply battery pack 23, the electromagnetic wave transmitting unit 22 can send wireless signals, and the electromagnetic wave receiving units 311, 321, 331, 341 arranged in the emergency lighting equipment 31, 32, 33, 34 receive the electromagnetic wave transmitting unit 22 After a specific signal is sent, the light-emitting units 312 , 322 , 332 , 342 are activated to switch to the light-emitting state, and the required power source is provided by the power supply unit 313 , 323 , 333 , 343 .

Please refer to FIG. 4 , which is a circuit configuration diagram of the second embodiment of the present invention. The power detection device 2 is directly straddled on the circuit of the main power switch 1. The power detection device 2 is composed of a power detection unit 21, an electromagnetic wave transmitting unit 22 and a power supply battery pack 23. When the power detection The detection unit 21 detects that the main power switch 1 across the bridge is in a power failure state, that is, the electromagnetic wave transmitting unit 22 is controlled to transmit signals to the emergency lighting devices 31, 32, 33, 34, and the electromagnetic wave transmitting unit 22 is powered by the battery pack 23 Provides the power needed to transmit the signal. These emergency lighting devices 31, 32, 33, 34 are respectively composed of electromagnetic wave receiving units 311, 321, 331, 341, light emitting units 312, 322, 332, 342 and power supply units 313, 323, 333, 343, The electromagnetic wave receiving units 311, 321, 331, and 341 receive specific signals sent from the electromagnetic wave emitting unit 22. When the electromagnetic wave receiving units 311, 321, 331, and 341 receive the signal from the electromagnetic wave emitting unit 22, they immediately switch and turn on the light emitting unit 312. . The electromagnetic wave transmitting unit 22 can be a transmitter of radio waves (RF) or infrared rays; the power supply battery pack 23 can be a small rechargeable storage battery, which stops charging after being charged to a fixed amount of electricity at ordinary times, and automatically transmits power to provide electromagnetic wave emission when there is a power failure. The required power when the unit 22 sends a signal; and the electromagnetic wave receiving unit 311, 321, 331, 341 cooperates with the transmitter type of the electromagnetic wave transmitting unit 22 to be a radio wave (RF) or infrared transmitter; the light emitting unit 312, 322, 332, 342 can be lighting lamps such as energy-saving lamps or incandescent lamps; the power supply units 313, 323, 333, 343 of emergency lighting equipment 31, 32, 33, 34 can be rechargeable batteries, and are connected to the room electrical circuit 5. The power detection device 2 and the emergency lighting devices 31, 32, 33, 34 transmit specific signals using electromagnetic waves. Lighting devices and stairwells can form an escape route. Where the signal is accessible, several emergency lighting devices can be installed. If it is a large building and there are places where the signal cannot be reached, a signal booster can be installed to increase the signal strength. .

Please refer to FIG. 5 to FIG. 7 , which are the appearance diagram A of the emergency lighting device, the appearance diagram B of the emergency lighting device and the appearance diagram C of the emergency lighting device of the present invention, respectively. Emergency lighting devices 301a, 301b, 301c, the light-emitting units 302a, 302b, 302c can be light-emitting diodes, organic light-emitting diodes, energy-saving lamps or incandescent lamps, etc., wherein 303a, 303b, 303c and 304a, 304b, 304c and 305a, 305b, The 305c uses light-emitting diodes as power lights, test lights, and low-battery warning lights. And 306a, 306b, and 306c are the power switches of the emergency lighting devices 301a, 301b, 301c; 307a, 307b, and 307c are function keys for resetting and self-testing. In addition, a buckle can be added to the housing of the emergency lighting devices 301a, 301b, 301c, so that these emergency lighting devices 301a, 301b, 301c can be combined with existing lamps to save space.

Please refer to FIG. 8 and FIG. 9 , which are schematic diagrams of the implementation and application of the present utility model. When the power detection device 2 detects that the main power switch 1 is in a state of power failure, it sends a power failure signal to the emergency lighting equipment 3, and the electromagnetic wave receiver of the emergency lighting equipment 3 receives the signal and starts the emergency lighting; when the power supply is restored, The power detection device 2 detects that the main power switch 1 is in a normal power supply state, and then sends a power supply signal to turn off the emergency lighting device; of course, the opposite is also possible, that is, the power detection device 2 sends a signal for the emergency lighting device 3 when the power supply is normal. The charging state is activated upon receipt, and when an abnormal power failure occurs, the power detection device 2 sends a signal or the charging power supply of the emergency lighting equipment detects that the charging power supply is out of power, and the emergency lighting equipment 3 is activated.

As can be seen from the above, the utility model has the following practical advantages:

Using dry batteries as power supply components, together with light-emitting diodes as its light-emitting components, can greatly reduce the volume of emergency lighting equipment, making its installation position unlimited, and can be installed independently or added to existing lighting fixtures, and emergency lighting equipment can be designed according to requirements. The lighting is arranged to form a clear lighting escape line.

The power supply status of the main power switch is detected by the power detection device, and the emergency lighting device is connected by wireless transmission, so that the wireless controlled separate emergency lighting equipment of the present utility model is not affected by the position of the independent power supply configuration point. Where the signal of the testing device can reach, emergency lighting devices can be installed; or additional signal strengthening devices can be installed to expand the receiving range.

The light-emitting elements of the wireless-controlled separated emergency lighting equipment of the utility model can use light-emitting diodes of different colors and the design of the internal control circuit, and can be used as indicator lights for other marking purposes, especially in open indoor spaces, during power failures A predetermined moving line guide will be automatically formed, and the lighting and escape moving line guidance will be properly combined; and the power supply element is a DC power supply for the LED, which saves the driver cost of using a general socket AC power to convert to a DC power supply, and the LED’s The failure rate is low and the durability is high, and the wireless-controlled separated emergency lighting equipment, consumables, and maintenance costs of the utility model can also be reduced accordingly.

To sum up, the wireless control emergency lighting equipment of the utility model with moving line guidance design considerations uses its connection mode for wireless transmission of specific signals, and uses light-emitting diodes as its light-emitting device, taking advantage of the characteristics of low energy consumption and durable use. Combined with the use of small dry batteries as its power supply components, the wireless-controlled separate emergency lighting equipment of the present utility model can improve the shortcomings of existing emergency lighting equipment such as large volume, short power supply time, need for line connection, and inconvenient installation, and provide Clear warning, long power supply time, and convenient installation of separate emergency lighting equipment with wireless control make the product of the present utility model more convenient, more practical, and more in line with the needs of users. It has indeed met the requirements of the patent application. The elements of novelty, advancement and industrial applicability shall be filed for patent application in accordance with the law.

The above description is only illustrative of the present utility model, rather than restrictive. Those of ordinary skill in the art understand that many modifications and changes can be made without departing from the spirit and scope defined by the following appended claims. , or equivalent, but all will fall within the protection scope of the present utility model.

Claims (10)

1, the controlled in wireless emergency lighting considered of a kind of tool moving-wire guide design is characterized in that, comprising:

One electric power detecting device is to be installed on the loop of independent general supply; And

A plurality of emergency lighting devices are to be arranged on the emergency escape route, have Emergency Light and moving-wire concurrently and guide;

Described electric power detecting device and described a plurality of emergency lighting device transmit signal by wireless mode, and described a plurality of emergency lighting device receives the signal that is sent by described electric power detecting device.

2, the controlled in wireless emergency lighting of considering according to claim 1 tool moving-wire guide design is characterized in that, described electric power detecting device includes:

One electric power detecting unit, the power supply situation of detecting master switch independent current source;

One electromagnetic wave transmitter unit sends a signal to described a plurality of emergency lighting device; And

One supplying cell group is the miniature charging battery that is electrically connected to the independent current source master switch, and the electric power of described electromagnetic wave transmitter unit is provided when having a power failure.

3, the controlled in wireless emergency lighting of considering according to claim 1 tool moving-wire guide design is characterized in that described emergency lighting device includes:

One electromagnetic wave receiving element receives the signal specific from described electric power detecting device;

One luminescence unit; And

One power supply unit provides the power supply of described electromagnetic wave receiving element and described luminescence unit.

4, the controlled in wireless emergency lighting of considering according to claim 3 tool moving-wire guide design is characterized in that, described luminescence unit is an organic light-emitting diode element.

5, the controlled in wireless emergency lighting of considering according to claim 3 tool moving-wire guide design is characterized in that described luminescence unit is an electricity-saving lamp.

6, the controlled in wireless emergency lighting of considering according to claim 3 tool moving-wire guide design is characterized in that, described luminescence unit is an incandescent lamp.

7, the controlled in wireless emergency lighting of considering according to claim 3 tool moving-wire guide design is characterized in that, described power supply unit is a dry cell.

8, the controlled in wireless emergency lighting of considering according to claim 3 tool moving-wire guide design is characterized in that, described power supply unit is a charging accumulator.

9, the controlled in wireless emergency lighting of considering according to claim 1 tool moving-wire guide design is characterized in that, the mode of transmitting signal between described electric power detecting device and the described emergency lighting device is electromagnetic transmission, and described electromagnetic wave is a radio wave.

10, the controlled in wireless emergency lighting of considering according to claim 1 tool moving-wire guide design, it is characterized in that, the mode of wireless signal transmission is electromagnetic transmission between described electric power detecting device and the described emergency lighting device, and described electromagnetic wave is an infrared ray.

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