CN213810399U - Emergency induction lamp device suitable for no-light and weak-light environment - Google Patents

Abstract

The utility model provides an emergency induction lamp device suitable for the environment without light and weak light, which comprises a detection device, a working device, two universal joints and two bases; the detection device is connected to one base through one universal joint, and the working device is connected to the other base through the other universal joint; the working device is fixed beside a controlled electric lamp through the base. The utility model discloses an emergency response lamp device suitable for under no light low light environment just can realize the emergency lighting under no light, the low light environment based on the light that the house has, and the illumination zone is wide, and duration is strong, uses safe more, reliable.

Description

Emergency induction lamp device suitable for no-light and weak-light environment

Technical Field

The utility model relates to an respond to technical field, especially relate to an emergent response lamp device suitable for under no light low light environment.

Background

With the improvement of living standard of people, the sunlight in the nature is not enough to meet the requirements of daily life of people, so that the lighting device is suitable for transportation. The lighting device who adopts in the present life uses electric power luminous mostly, and people's life receives certain influence under the condition of having a power failure, outage, for example, some school's dormitories that can cut off the power supply and turn off the light evening, classroom, stair corridor, mill, office or meet suddenly and have a power failure and other reasons cause the place of night no power supply, people not only can move about and can receive the hindrance, also move about under the environment of no light (weak light) extremely easily and receive the injury. In order to solve the problem, induction lamps such as voice control induction lamps and infrared induction lamps are adopted in the market at present to realize emergency lighting in a dark (weak light) environment, but the induction lamps have low lighting brightness and a small range, need frequent charging and bring inconvenience to daily life of users.

Disclosure of Invention

Not enough to above-mentioned prior art, the utility model provides an emergency response lamp device suitable for under no light low light environment just can realize no light, emergency lighting under the low light environment based on the light that the house has, and the illumination zone is wide, and duration is strong, uses safe, reliable more.

In order to achieve the above object, the utility model provides an emergency induction lamp device suitable for the environment without light and weak light, which comprises a detection device, a working device, two universal joints and two bases; the detection device is connected to one base through one universal joint, and the working device is connected to the other base through the other universal joint; the working device is fixed beside a controlled electric lamp through the base; the detection device comprises a human body detection module, a first main control module, a wireless signal transmitting module, a photosensitive switch module, a first power module and a first solar charging module, wherein the first main control module is connected with the human body detection module, the wireless signal transmitting module and the photosensitive switch module, and the first power module is connected with the human body detection module, the first main control module, the wireless signal transmitting module and the first solar charging module; the working device comprises a wireless signal receiving module, a second main control module, a Tesla coil module, a second power supply module and a second solar charging module, wherein the second main control module is connected with the wireless signal receiving module and the Tesla coil module, and the second power supply module is connected with the wireless signal receiving module, the second main control module, the Tesla coil module and the second solar charging module; the first main control module is in communication connection with the second main control module through the wireless signal transmitting module and the wireless signal receiving module.

Preferably, the human body detection module comprises an infrared induction proximity switch, and the infrared induction proximity switch is connected with the first main control module and the first power supply module.

Preferably, the tesla coil module comprises a relay and a tesla coil which are connected in series, and a series circuit of the relay and the tesla coil connects the second main control module and the second power supply module; and the conductive end of the Tesla coil is arranged at a position of 1-5cm of the controlled electric lamp.

Preferably, the first master control module and the second master control module comprise an STM32 controller and a master switch connected.

Preferably, the wireless signal transmitting module includes a 315MHz wireless transmitter, and the 315MHz wireless transmitter is connected to the first main control module and the first power supply module; the wireless signal receiving module comprises a 315MHz wireless receiver, and the 315MHz wireless receiver is connected with the second main control module and the second power supply module.

Preferably, the photosensitive switch module comprises a photosensitive resistor, and the photosensitive resistor is connected with the first main control module.

Preferably, the first solar charging module and the second solar charging module comprise a solar panel; the solar panel of the first solar charging module is connected with the first power supply module; the solar panel of the second solar charging module is connected with the second power supply module.

Preferably, the first power module and the second power module comprise a rechargeable battery.

Preferably, the second power module further comprises a voltage reduction module.

The utility model discloses owing to adopted above technical scheme, make it have following beneficial effect:

1. the utility model has simple structure, strong practicability, simple and convenient operation, low voltage, safety and reliability; charging through solar panel improves duration, illuminates the regional wide, the sexual valence relative altitude.

2. The utility model discloses a original electric light of tesla coil response is luminous, need not reform transform original lighting circuit, need not be equipped with other electric lights again, reduce cost. Meanwhile, the original lamp circuit is generally embedded in a wall, or the voltage is too high, if the original circuit is to be modified, the original circuit is complex, and the potential safety hazard is very large, the Tesla coil is used for wireless power transmission, the original lamp circuit is not required to be modified, and the danger caused by private wire connection change is avoided.

3. The utility model discloses directly light original lighting device and can illuminate whole regions in the space, because at present most of response lamps can only illuminate the subregion, if will reach with the utility model is suitable for an emergent response lamp device the same illuminating effect under the no light low light environment needs the several response lamp to throw light on simultaneously, uses the utility model is suitable for an emergent response lamp device under the no light low light environment practices thrift the cost.

4. The utility model can automatically stay in the standby state when the illumination is enough, and the power consumption is reduced; when the device works in a dark and weak light environment, the automation degree is high, and the cruising ability is improved.

Drawings

Fig. 1 is a schematic structural diagram of an emergency induction lamp device suitable for use in a non-light and low-light environment according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a detection device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a working device according to an embodiment of the present invention.

Detailed Description

The following description of the preferred embodiments of the present invention will be given with reference to the accompanying drawings 1 to 3, and will make the functions and features of the present invention better understood.

Referring to fig. 1 to 3, an emergency induction lamp device suitable for use in a dark and low light environment according to an embodiment of the present invention includes a detection device 1, a working device 2, two universal joints 3, and two bases 4; the detection device 1 is connected to a base 4 through a universal joint 3, and the working device 2 is connected to another base 4 through another universal joint 3; the working device 2 is fixed beside a controlled electric lamp through a base 4; the detection device 1 comprises a human body detection module 11, a first main control module 12, a wireless signal transmitting module 13, a photosensitive switch module 14, a first power supply module 15 and a first solar charging module 16, wherein the first main control module 12 is connected with the human body detection module 11, the wireless signal transmitting module 13 and the photosensitive switch module 14, and the first power supply module 15 is connected with the human body detection module 11, the first main control module 12, the wireless signal transmitting module 13 and the first solar charging module 16; the working device 2 comprises a wireless signal receiving module 21, a second main control module 22, a tesla coil module 23, a second power module 24 and a second solar charging module 25, wherein the second main control module 22 is connected with the wireless signal receiving module 21 and the tesla coil module 23, and the second power module 24 is connected with the wireless signal receiving module 21, the second main control module 22, the tesla coil module 23 and the second solar charging module 25; the first main control module 12 is in communication connection with the second main control module 22 through the wireless signal transmitting module 13 and the wireless signal receiving module 21.

The human body detection module 11 comprises an infrared induction proximity switch, and the infrared induction proximity switch is connected with the first main control module 12 and the first power supply module 15.

The tesla coil module 23 comprises a relay and a tesla coil which are connected in series, and the series circuit of the relay and the tesla coil is connected with the second main control module 22 and the second power supply module 24; the conductive end of the Tesla coil is arranged at the position of 1-5cm of the controlled electric lamp.

The first master control module 12 and the second master control module 22 include an STM32 controller and a master switch connected.

The wireless signal transmitting module 13 comprises a 315MHz wireless transmitter, and the 315MHz wireless transmitter is connected with the first main control module 12 and the first power supply module 15; the wireless signal receiving module 21 includes a 315MHz wireless receiver, and the 315MHz wireless receiver is connected to the second main control module 22 and the second power module 24.

The photosensitive switch module 14 includes a photosensitive resistor, and the photosensitive resistor is connected to the first main control module 12.

The first solar charging module 16 and the second solar charging module 25 comprise a solar panel; the solar panel of the first solar charging module 16 is connected with the first power supply module 15; the solar panels of the second solar charging module 25 are connected to the second power supply module 24.

The first power module 15 and the second power module 24 comprise a rechargeable battery.

The second power module 24 further includes a voltage-reducing module for outputting 9V and 5V dc power.

Use the embodiment of the utility model provides a include the step during emergent response lamp device suitable for under no light low light environment:

step one, the detection device 1 is placed in a human body susceptible region, such as: the direction of the universal joint 3 is adjusted at the position of the dormitory lower bed escalator and the position of the bedroom bed couch, so that the dormitory lower bed escalator and the bedroom bed couch can well sense the human body; the working device 2 is arranged near the original electric lamp in a room, the conductive end of the Tesla coil is arranged at a position 1-5cm near the original electric lamp, and the direction of the universal joint 3 is adjusted to enable the conductive end and the electric lamp to be capable of well sensing or to be in contact with each other.

Step two, turning on main switches of the detection device 1 and the working device 2, and if the photosensitive switch module 14 on the detection device 1 detects that the current environment is dark and weak light, allowing the detection module to detect a human body and send a signal to the working module, and starting the two devices to work; if the current ambient light intensity can meet the requirement that normal activities of people are not influenced, the detection module is not allowed to detect the human body and not send signals to the working module.

And step three, in a non-light and weak-light environment, when a human body passes through the human body detection module 11 for the first time, the detection module transmits a starting signal to the working module through the wireless signal transmission module 13.

And step four, after the working device 2 receives the starting signal transmitted from the detection module, the coil of the Tesla type coil is switched on through a relay in the Tesla type coil module 23, and the controlled electric lamp is lighted through the conducting end in an empty space.

And step five, in a dark and weak light environment, when a human body passes by the detection module for the second time and is detected by the human body passing through the detection module, the detection module transmits a closing signal to the working module through the wireless signal transmitting module 13.

And step six, after the working device 2 receives the signal sent by the detection device 1, if the signal is a second signal, the coil is turned off through a relay in the Tesla coil module 23, the coil is powered off, and the controlled lamp is turned off.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an emergent response lamp device suitable for under no light low light environment which characterized in that: comprises a detection device, a working device, two universal joints and two bases; the detection device is connected to one base through one universal joint, and the working device is connected to the other base through the other universal joint; the working device is fixed beside a controlled electric lamp through the base; the detection device comprises a human body detection module, a first main control module, a wireless signal transmitting module, a photosensitive switch module, a first power module and a first solar charging module, wherein the first main control module is connected with the human body detection module, the wireless signal transmitting module and the photosensitive switch module, and the first power module is connected with the human body detection module, the first main control module, the wireless signal transmitting module and the first solar charging module; the working device comprises a wireless signal receiving module, a second main control module, a Tesla coil module, a second power supply module and a second solar charging module, wherein the second main control module is connected with the wireless signal receiving module and the Tesla coil module, and the second power supply module is connected with the wireless signal receiving module, the second main control module, the Tesla coil module and the second solar charging module; the first main control module is in communication connection with the second main control module through the wireless signal transmitting module and the wireless signal receiving module.

2. The emergency induction lamp device suitable for use in dim light and no environment according to claim 1, wherein said human body detection module comprises an infrared induction proximity switch, said infrared induction proximity switch connecting said first main control module and said first power supply module.

3. The emergency induction lamp device suitable for use in low light and no light environments of claim 1, wherein the tesla coil module comprises a relay and a tesla coil connected in series, the series circuit of the relay and the tesla coil connecting the second main control module and the second power supply module; and the conductive end of the Tesla coil is arranged at a position of 1-5cm of the controlled electric lamp.

4. The emergency response light fixture of claim 1 wherein the first and second host modules comprise an STM32 controller and a main switch coupled thereto.

5. The emergency induction lamp device suitable for use in low-light and no-light environments as claimed in claim 1, wherein the wireless signal transmitting module comprises a 315MHz wireless transmitter, and the 315MHz wireless transmitter is connected to the first main control module and the first power supply module; the wireless signal receiving module comprises a 315MHz wireless receiver, and the 315MHz wireless receiver is connected with the second main control module and the second power supply module.

6. The emergency induction lamp device suitable for use in low-light and no-light environments as claimed in claim 1, wherein the photosensitive switch module comprises a photosensitive resistor, and the photosensitive resistor is connected to the first main control module.

7. The emergency induction lamp device adapted for use in low-light and no-light environments of claim 1, wherein the first solar charging module and the second solar charging module comprise a solar panel; the solar panel of the first solar charging module is connected with the first power supply module; the solar panel of the second solar charging module is connected with the second power supply module.

8. The emergency response light device of claim 1, wherein the first power module and the second power module comprise a rechargeable battery.

9. The emergency response light device of claim 8, wherein the second power module further comprises a voltage reduction module.

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