CN211502701U - LED radar response tri-proof light with regularly turn off function that darkens - Google Patents

Abstract

The utility model provides a LED radar response tri-proof light with regularly turn off function that darkens, includes double-colored fluorescent tube, install the lamp plate support in the double-colored fluorescent tube, be provided with the lamp plate on the lamp plate support, be provided with power and radar induction system below the lamp plate support respectively, radar induction system and lamp plate electric connection, double-colored fluorescent tube both ends are equipped with the inboard first end cover that has first waterproof cover and the inboard second end cover that has the second waterproof cover respectively, and double-colored fluorescent tube one side fixedly connected with water joint is kept away from to first end cover. The utility model discloses a wireless signal response module, control module, photosensitive sensor, LED drive module, variable resistor, automatic timer and the self-closing timer and the radar induction system that darken of lamp plate to cooperation wireless remote controller can realize the light brightness timing control and the timing closure under the multiple contextual model, also realizes the remote control of light brightness, radar inductor detection distance regulation, has simple structure, simple to operate, advantage that water-proof effects is good.

Description

LED radar response tri-proof light with regularly turn off function that darkens

Technical Field

The utility model relates to the field of lighting, especially, relate to a LED radar response tri-proof light with regularly become dark and close function.

Background

The tri-proof lamp is an LED lamp with waterproof, dustproof and anticorrosion functions, and is a lamp reaching the protection level of IP65 for short. Tri-proof lights are generally used in locations where corrosive, dusty, and raining industrial lighting needs, such as: power plants, steel, petrochemicals, ships, venues, and the like. Although the ceiling lamp that these places used all is the effectual radar response tri-proof light of response, the response scope is little and can not adjust, and these radar response tri-proof lights only can be closed under nobody's on-the-spot state simultaneously, start under someone on-the-spot state, open one's shut like this and can influence the life-span of tri-proof light.

Therefore, aiming at the defects in the prior art, the LED radar induction tri-proof light with the timing dimming closing function is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a LED radar response tri-proof light with regularly become dark and close function has solved the problem that proposes in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a LED radar response tri-proof light with regularly turn off function that darkens, includes the double-colored fluorescent tube, the intraductal lamp plate support that installs of double-colored fluorescent tube, be provided with the lamp plate on the lamp plate support, the lamp plate is fixed on lamp plate support surface through the blind rivet of a plurality of parallels, be provided with power and radar induction system below the lamp plate support respectively, the power with be equipped with the Mylar piece between the lamp plate support, just the power passes through the Mylar piece to be fixed lamp plate support lower surface, radar induction system's bottom surface runs through lamp plate support lower surface, and with the lamp plate electric connection who is located lamp plate support upper surface, the welding of radar induction system both sides has the sleeve, and fixes at lamp plate support lower surface through first screw and sleeve threaded connection, the lamp plate passes through lamp plate connecting wire and power electric connection, the automatic dimming device comprises a wireless signal sensing module, a control module, a photosensitive sensor, an LED driving module, an LED lamp set, an automatic dimming timer, an automatic closing timer and a circuit board, wherein the power driving module, the wireless signal sensing module, the control module, the photosensitive sensor, the LED driving module, the LED lamp set, the automatic dimming timer and the automatic closing timer are integrated on the circuit board, the power driving module is electrically connected with a power supply and used for supplying power to the control module, the photosensitive sensor and the LED lamp set after voltage and current are processed, a variable resistor is arranged between the power driving module and the LED lamp set, the LED driving module is electrically connected with the variable resistor and can adjust the brightness of the LED lamp set by changing the resistance of the variable resistor, and the automatic dimming timer and the automatic closing timer are respectively electrically connected with the wireless signal sensing module and the LED driving module, the control module is respectively electrically connected with the wireless signal induction module, the photosensitive sensor, the LED driving module and the radar induction device, the radar induction device comprises a microwave transmitting end, a waveguide tube and a microwave detecting end, one end of the waveguide tube is connected with the microwave transmitting end, the other end of the waveguide tube is connected with the microwave detecting end, the microwave transmitting end transmits a high-frequency signal, the microwave detecting end receives a reflected signal and an interference signal reflected by an object and performs difference frequency processing, the microwave detecting end outputs the reflected signal after difference frequency processing to the control module, the control module forms a microwave induction signal by comparing the high-frequency signal transmitted by the microwave transmitting end with the reflected signal after difference frequency processing of the microwave detecting end, the control module controls the LED lamp bank switch according to the microwave induction signal, the photosensitive sensor is used for collecting a light intensity signal, and the control module modulates a PWM dimming signal according to the light intensity signal, the LED driving module is respectively electrically connected with the control module and the LED lamp bank to receive PWM dimming signals and controls the LED lamp bank to operate according to the PWM dimming signals, a first end cover with a first waterproof cover on the inner side and a second end cover with a second waterproof cover on the inner side are respectively arranged at two ends of the double-color lamp tube, the first end cover and the second end cover are fixedly connected with two ends of the double-color lamp tube through second screws, a waterproof joint is fixedly connected to one side of the double-color lamp tube and far away from the first end cover, a wire outlet is formed in the centers of the first end cover, the first waterproof cover and the waterproof joint, a power wire of the power supply penetrates through the wire outlet and is electrically connected with an external power supply, the power wire is fixed inside the double-color lamp tube through a wire clamp and is connected with the power supply, and the wire clamp is fixed.

The wireless remote control system comprises a wireless remote controller, a wireless signal induction module and a radar detection range setting key group, wherein the wireless signal induction module is used for receiving wireless remote control signals sent by the wireless remote controller, the wireless remote controller is provided with a plurality of keys, each key corresponds to a key instruction, the wireless remote controller can convert the key instructions into corresponding wireless remote control signals, and the keys comprise a power supply key, a night mode key, a brightness adjusting key, a dimming time setting key group, a closing time setting key group, a photosensitive situation setting key group and a radar detection range setting key group.

Furthermore, the wireless remote controller converts the instruction of the power key into a wireless remote control signal of the power key, the wireless signal induction module is electrically connected with the LED driving module to receive the wireless remote control signal of the power key and modulate a control signal of the LED lamp bank according to the wireless remote control signal of the power key, and the LED driving module converts the control signal of the LED lamp bank into a control instruction of the LED lamp bank and controls the LED lamp bank to operate according to the control instruction of the LED lamp bank.

Furthermore, the wireless signal sensing module is electrically connected with the LED driving module to receive the wireless remote control signal corresponding to the night mode key and modulate the control signal of the night mode according to the wireless remote control signal corresponding to the night mode key, and the LED driving module converts the control signal of the night mode into a control instruction of the night mode and sets the mode of the LED lamp set to the night mode according to the control instruction of the night mode.

Furthermore, the wireless signal sensing module is electrically connected with the LED driving module to receive a wireless remote control signal corresponding to the brightness adjusting key and modulate a brightness adjusting control signal according to the wireless remote control signal corresponding to the brightness adjusting key, and the LED driving module converts the brightness adjusting control signal into a brightness adjusting control instruction and adjusts the brightness of the LED lamp bank according to the brightness adjusting control instruction.

Furthermore, the wireless signal induction module is electrically connected with the automatic dimming timer to receive the wireless remote control signal corresponding to the dimming time setting key group and modulate a control signal of the dimming time of the LED according to the wireless remote control signal corresponding to the dimming time setting key group, the LED driving module is electrically connected with the automatic dimming timer and converts the control signal of the dimming time of the LED into a control instruction of the dimming time of the LED, the LED driving module controls the dimming time of the LED lamp group according to the control instruction of the dimming time of the LED, and the dimming time corresponding to the dimming time setting key group is respectively 30 seconds, 10 minutes and 30 minutes.

Further, the wireless signal sensing module is electrically connected with the automatic turn-off timer to receive a wireless remote control signal corresponding to the turn-off time setting key group and modulate a control signal of the turn-off time of the LED according to the wireless remote control signal corresponding to the turn-off time setting key group, the LED driving module is electrically connected with the automatic turn-off timer and converts the control signal of the turn-off time of the LED into a control instruction of the turn-off time of the LED, the LED driving module controls the turn-off time of the LED lamp group according to the control instruction of the turn-off time of the LED, and the turn-off time corresponding to the turn-off time setting key group is 30 seconds, 10 minutes and 30 minutes respectively.

Furthermore, the wireless signal sensing module is electrically connected with the LED driving module to receive a wireless remote control signal corresponding to the light sensing scene setting key and respectively modulate corresponding light sensing scene control signals according to the wireless remote control signal corresponding to the light sensing scene setting key, the LED driving module controls the LED lamp bank to be turned off or turned on according to the light intensity signal collected by the photosensitive sensor and the ambient light intensity and the radar detection object motion state under the light sensing scene corresponding to the light sensing scene setting key in combination with the microwave sensing signal obtained by the control module, and the light sensing scene comprises three scenes of dark, dusk and night.

Further, the wireless remote controller converts the instruction of the radar detection range setting key group into a wireless remote control signal of the radar detection range setting key group, the wireless signal induction module is electrically connected with the control module to receive the wireless remote control signal of the radar detection range setting key group and modulate a detection range control signal of the radar induction device according to the wireless remote control signal of the radar detection range setting key group, the radar induction device adjusts the detection range according to the detection range control signal, the microwave transmitting end is a plurality of microwave antennas, the plurality of microwave antennas are circumferentially distributed on the lamp tube, the plurality of microwave antennas are divided into transmitting antennas with different sizes, the larger the size of the transmitting antenna under the same transmitting frequency is, the farther the induction distance is, and the radar detection range setting key group corresponding to the transmitting antennas with different sizes comprises a very close (1-2 m) and a very close (1-2 m) radar detection range setting key group, And the four detection distances of the short distance (2-3.5 m), the medium distance (3.5-5 m) and the long distance (5-7 m) are set, so that the detection distance of the radar sensing device can be easily adjusted through the keys of the wireless remote controller.

The utility model has the advantages that: the utility model can realize the timing adjustment and timing closing of the light brightness of the LED lamp bank under various light-sensitive scenes through the wireless signal induction module, the control module, the photosensitive sensor, the LED driving module, the variable resistor, the automatic darkening timer, the automatic closing timer and the radar induction device for detecting the motion of a real object of the lamp panel and matching with the wireless remote controller, and simultaneously, realize the remote control of the light brightness of the LED lamp bank and the detection distance adjustment of the radar induction device through the wireless signal induction module, the control module, the photosensitive sensor and the LED driving module of the lamp panel and matching with the wireless remote controller, and the two ends of the double-color lamp tube of the LED tri-proof lamp are respectively provided with a first end cover with a first waterproof cover at the inner side and a second end cover with a second waterproof cover at the inner side, and the first end cover and the second end cover are fixedly connected with the two ends of the double-color lamp tube through second screws, double-colored fluorescent tube one side fixedly connected with water joint is kept away from to first end cover, and wire hole has been seted up at first end cover, first water cover and water joint center, adopts this kind of structure to realize the equipment of LED tri-proof light, simple structure, simple to operate to water-proof effects is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front view (a), a plan view (b), a left side view (c), and a right side view (d) of the present invention.

Fig. 3 is a schematic view of the three-dimensional explosion structure of the present invention.

Fig. 4 is the utility model discloses a local structure schematic diagram of lamp plate.

The labels in the figure are: the double-color lamp tube comprises a double-color lamp tube 1, a lamp panel support 2, a lamp panel 3, a lamp panel connecting wire 301, a power supply driving module 302, a wireless signal sensing module 303, a control module 304, a photosensitive sensor 305, an LED driving module 306, an LED lamp group 307, an automatic dimming timer 308, an automatic closing timer 309, a circuit board 310, a variable resistor 311, a rivet 4, a radar sensing device 5, a sleeve 501, a power supply 6, a first screw 7, a first waterproof cover 8, a first end cover 9, a second waterproof cover 10, a second end cover 11, a second screw 12, a waterproof joint 13, an outlet hole 14, a Mylar film 15, a power line 16, a wire clamp 17 and a third screw 18.

Detailed Description

The following provides a more detailed description of the present invention with reference to the accompanying drawings and detailed description.

As shown in fig. 1-4, a LED radar sensing tri-proof light with a timed dimming closing function comprises a bicolor lamp tube 1, a lamp panel support 2 is installed in the bicolor lamp tube 1, a lamp panel 3 is arranged on the lamp panel support 2, the lamp panel 3 is fixed on the surface of the lamp panel support 2 through a plurality of parallel pull nails 4, a radar sensing device 5 and a power supply 6 are respectively arranged below the lamp panel support 2, a mylar sheet 15 is arranged between the power supply 6 and the lamp panel support 2, the power supply 6 is fixed on the lower surface of the lamp panel support 2 through the mylar sheet 15, the bottom surface of the radar sensing device 5 penetrates through the lower surface of the lamp panel support 2 and is electrically connected with the lamp panel 3 on the upper surface of the lamp panel support 2, sleeves 501 are welded on two sides of the radar sensing device 5 and are in threaded connection with the sleeves 501 through first screws 7 and fixed, the lamp panel 3 is electrically connected with the power supply 6 through a lamp panel connecting wire 301, the lamp panel 3 comprises a power supply driving module 302, a wireless signal sensing module 303, a control module 304, a photosensitive sensor 305, an LED driving module 306, an LED lamp bank 307, an automatic dimming timer 308, an automatic closing timer 309 and a circuit board 310, the power supply driving module 302, the wireless signal sensing module 303, the control module 304, the photosensitive sensor 305, the LED driving module 306, the LED lamp bank 307, the automatic dimming timer 308 and the automatic closing timer 309 are integrated on the circuit board 310, the power supply driving module 302 is electrically connected with the power supply 6 and supplies power to the control module 304, the photosensitive sensor 305 and the LED lamp bank 307 after processing voltage and current, a variable resistor 311 is arranged between the power supply driving module 302 and the LED lamp bank 307, the LED driving module 306 is electrically connected with the variable resistor 311, the brightness of the LED lamp group 307 can be adjusted by changing the resistance of the variable resistor 311, the automatic dimming timer 308 and the automatic turn-off timer 309 are respectively electrically connected to the wireless signal sensing module 303 and the LED driving module 306, the control module 304 is respectively electrically connected to the wireless signal sensing module 303, the photosensor 305, the LED driving module 306 and the radar sensing device 5, the radar sensing device 5 includes a microwave transmitting end, a waveguide tube and a microwave detecting end, one end of the waveguide tube is connected to the microwave transmitting end, the other end of the waveguide tube is connected to the microwave detecting end, the microwave transmitting end transmits a high-frequency signal, the microwave detecting end receives a reflected signal and an interference signal reflected by an object and performs difference frequency processing, the microwave detecting end outputs the reflected signal after difference frequency processing to the control module 304, and the control module 304 forms a microwave sensing signal by comparing the high-frequency signal transmitted by the microwave transmitting end and the reflected signal after difference frequency processing by the microwave detecting end The control module 304 controls the switch of the LED lamp group 307 according to the microwave sensing signal, the photosensitive sensor 305 is used for collecting a light intensity signal, the control module 304 modulates a PWM dimming signal according to the light intensity signal, the LED driving module 306 is respectively electrically connected with the control module 304 and the LED lamp group 307 to receive the PWM dimming signal and control the operation of the LED lamp group 307 according to the PWM dimming signal, two ends of the bi-color lamp 1 are respectively provided with a first end cover 9 with a first waterproof cover 8 at the inner side and a second end cover 11 with a second waterproof cover 10 at the inner side, the first end cover 9 and the second end cover 11 are fixedly connected with two ends of the bi-color lamp 1 through a second screw 12, one side of the first end cover 9, which is far away from the bi-color lamp 1, is fixedly connected with a waterproof connector 13, and the centers of the first end cover 9, the first waterproof cover 10 and the waterproof connector 13 are provided with an outlet, a power line 16 of the power supply 6 penetrates through the wire outlet hole 14 to be electrically connected with an external power supply, the power line 16 is fixed inside the double-color lamp tube 1 through a wire clamp 17 and connected with the power supply 6, and the wire clamp 17 is fixed on the inner wall of the double-color lamp tube 1 through a third screw 18.

The wireless remote control system is characterized by further comprising a wireless remote controller, the wireless signal induction module 303 is used for receiving wireless remote control signals sent by the wireless remote controller, a plurality of keys are arranged on the wireless remote controller, each key corresponds to a key instruction, the wireless remote controller can convert the key instructions into corresponding wireless remote control signals, and the keys comprise a power supply key, a night mode key, a brightness adjusting key, a dimming time setting key group, a closing time setting key group, a photosensitive scene setting key group and a radar detection range setting key group.

The wireless signal sensing module 303 is electrically connected to the LED driving module 306 to receive a wireless remote control signal corresponding to the power key and modulate a control signal of the LED lamp group 307 according to the wireless remote control signal of the power key, and the LED driving module 306 converts the control signal of the LED lamp group 307 into a control instruction of the LED lamp group 307 and controls the LED lamp group 307 to operate according to the control instruction of the LED lamp group 307.

The wireless signal sensing module 303 is electrically connected to the LED driving module 306 to receive the wireless remote control signal corresponding to the night mode key and modulate the control signal of the night mode according to the wireless remote control signal corresponding to the night mode key, and the LED driving module 306 converts the control signal of the night mode into a control command of the night mode and sets the mode of the LED lamp group 307 to the night mode according to the control command of the night mode.

The wireless signal sensing module 303 is electrically connected to the LED driving module 306 to receive a wireless remote control signal corresponding to the brightness adjustment key and modulate a brightness adjustment control signal according to the wireless remote control signal corresponding to the brightness adjustment key, and the LED driving module 306 converts the brightness adjustment control signal into a brightness adjustment control command and adjusts the brightness of the LED lamp set 307 according to the brightness adjustment control command.

The wireless signal sensing module 303 is electrically connected to the automatic dimming timer 307 to receive a wireless remote control signal corresponding to the dimming time setting key set and modulate a control signal of the dimming time of the LED according to the wireless remote control signal corresponding to the dimming time setting key set, the LED driving module 306 is electrically connected to the automatic dimming timer 308 and converts the control signal of the dimming time of the LED into a control command of the dimming time of the LED, the LED driving module 306 controls the dimming time of the LED lamp set 307 according to the control command of the dimming time of the LED, and the dimming time corresponding to the dimming time setting key set is 30 seconds, 10 minutes, and 30 minutes, respectively.

The wireless signal sensing module 303 is electrically connected to the automatic turn-off timer 309 to receive a wireless remote control signal corresponding to the turn-off time setting key set and modulate a control signal of the turn-off time of the LED according to the wireless remote control signal corresponding to the turn-off time setting key set, the LED driving module 306 is electrically connected to the automatic turn-off timer 309 and converts the control signal of the turn-off time of the LED into a control command of the turn-off time of the LED, the LED driving module 306 controls the turn-off time of the LED lamp set 307 according to the control command of the turn-off time of the LED, and the turn-off time corresponding to the turn-off time setting key set is 30 seconds, 10 minutes, and 30 minutes, respectively.

The wireless signal sensing module 303 is electrically connected to the LED driving module 306 to receive a wireless remote control signal corresponding to the light-sensitive scene setting key and modulate a corresponding light-sensitive scene control signal according to the wireless remote control signal corresponding to the light-sensitive scene setting key, the LED driving module 306 controls the LED lamp set 307 to be turned off or turned on according to the light intensity signal collected by the photosensor 305 according to the light intensity signal corresponding to the light-sensitive scene control signal and the microwave sensing signal obtained by the control module 304 according to the ambient light intensity and the radar detection object motion state under the light-sensitive scene corresponding to the light-sensitive scene setting key, where the light-sensitive scene includes three scenes, namely dark, dusk and night.

The wireless remote controller converts the instruction of the radar detection range setting key group into a wireless remote control signal of the radar detection range setting key group, the wireless signal induction module 303 is electrically connected with the control module to receive the wireless remote control signal of the radar detection range setting key group and modulate a detection range control signal of the radar induction device 5 according to the wireless remote control signal of the radar detection range setting key group, the radar induction device 5 adjusts the detection range according to the detection range control signal, the microwave transmitting end is a plurality of microwave antennas, the plurality of microwave antennas are circumferentially distributed on the lamp tube 1, the plurality of microwave antennas are divided into transmitting antennas with different sizes, the larger the size of the transmitting antenna under the same transmitting frequency is, the farther the sensing distance is, the radar detection range setting key group corresponding to the transmitting antennas with different sizes comprises a very close (1-2 m) and a very close (1-2 m), And four detection distances of a short distance (2-3.5 m), a medium distance (3.5-5 m) and a long distance (5-7 m) are set, so that the detection distance of the radar sensing device 5 can be easily adjusted through the keys of the wireless remote controller.

The working principle is as follows: when the LED radar sensing tri-proof light with the timing dimming closing function works, the equipment is connected with an external power supply through a power supply connecting wire 16, when a radar sensing device 5 senses people or a vehicle moves, after a control module 304 receives a signal transmitted by the radar sensing device 5, a variable resistor 311 is controlled through an LED driving module 306, so that the current between the power supply driving module 302 and an LED lamp bank 307 is communicated, thereby realizing illumination, when the illumination is performed, a photosensitive sensor 305 senses the light intensity of the surrounding environment, after the control module 304 receives a light intensity signal transmitted by the photosensitive sensor 305, the variable resistor 311 is controlled through the LED driving module 306, the current between the power supply driving module 302 and the LED lamp bank 307 is adjusted, thereby realizing illumination suitable for illumination, when the radar sensing device detects that 5 people or the vehicle does not move, after the control module 304 receives the signal transmitted by the radar sensing device 5, the LED driving module 306 controls the variable resistor 311 to cut off the current between the power driving module 302 and the LED lamp set 307, and turn off the illumination.

When the LED radar sensing tri-proof light with the timing dimming closing function is used through the wireless remote controller, when the wireless remote controller presses a power key, the wireless signal sensing module 303 directly sends a control signal to the LED driving module 306, and the LED driving module 306 controls the variable resistor 311, so that the power driving module 302 is communicated with the LED lamp group 307 through current, and illumination is realized; a brightness adjusting key is pressed on the wireless remote controller, the wireless signal sensing module 303 directly sends a brightness adjusting signal to the LED driving module 306, and the LED driving module 306 controls the variable resistor 311 to change the current flowing between the power driving module 302 and the LED lamp group 307, so that the illumination brightness is adjusted; when the wireless remote controller presses a dimming time setting key group, for example, a key representing that the dimming time is 10 minutes, the wireless signal sensing module 303 directly sends the dimming signal to the automatic dimming timer 308, and the LED driving module 306 controls the dimming time of the LED lamp group 307 to be 10 minutes according to the dimming instruction of the automatic dimming timer 308; when a wireless remote controller presses a closing time setting key group, for example, a key representing that the dimming time is 10 minutes, the wireless signal sensing module 303 directly sends a closing signal to the automatic closing timer 309, and the LED driving module 306 controls the closing time of the LED lamp group 307 to be 10 minutes according to a closing instruction of the automatic closing timer 309; when a light-sensitive scene setting key, such as a key representing a dusk scene, is pressed on the wireless remote controller, the LED driving module 306 controls the LED lamp set 307 to be turned off or turned on according to the ambient light intensity and the radar-detected real object motion state under the dusk scene by comparing the light-sensitive scene control signal with the light intensity signal collected by the light-sensitive sensor 305 and combining the microwave sensing signal obtained by the control module 304; when the wireless remote controller presses one key of the radar detection range setting key group, for example, the key representing a near (2-3.5 m) detection distance instruction, the wireless signal sensing module 303 sends a control signal to the control module 304, and the radar sensing device 5 adjusts the detection range to 2-3.5m according to the control signal.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The LED radar induction tri-proof light comprises a bicolor lamp tube (1) and is characterized in that a lamp panel support (2) is installed in the bicolor lamp tube (1), a lamp panel (3) is arranged on the lamp panel support (2), the lamp panel (3) is fixed on the surface of the lamp panel support (2) through a plurality of parallel pull nails (4), a radar induction device (5) and a power supply (6) are respectively arranged below the lamp panel support (2), a Mylar sheet (15) is arranged between the power supply (6) and the lamp panel support (2), the power supply (6) is fixed on the lower surface of the lamp panel support (2) through the Mylar sheet (15), the bottom surface of the radar induction device (5) penetrates through the lower surface of the lamp panel support (2) and is electrically connected with a lamp panel (3) positioned on the upper surface of the lamp panel support (2), the radar sensing device is characterized in that sleeves (501) are welded on two sides of the radar sensing device (5) and are fixedly connected with the lower surface of the lamp panel support (2) through first screws (7) and the sleeves (501) in a threaded manner, the lamp panel (3) is electrically connected with a power supply (6) through lamp panel connecting wires (301), the lamp panel (3) comprises a power supply driving module (302), a wireless signal sensing module (303), a control module (304), a photosensitive sensor (305), an LED driving module (306), an LED lamp bank (307), an automatic dimming timer (308), an automatic closing timer (309) and a circuit board (310), and the power supply driving module (302), the wireless signal sensing module (303), the control module (304), the photosensitive sensor (305), the LED driving module (306), the LED lamp bank (307), the automatic dimming timer (308) and the automatic closing timer (309) are all integrated on the circuit board (310), the power supply driving module (302) is used for being electrically connected with a power supply (6) and supplying power to the control module (304), the photosensitive sensor (305) and the LED lamp bank (307) after voltage and current processing, a variable resistor (311) is arranged between the power supply driving module (302) and the LED lamp bank (307), the LED driving module (306) is electrically connected with the variable resistor (311), the brightness of the LED lamp bank (307) can be adjusted by changing the resistance of the variable resistor (311), the automatic dimming timer (308) and the automatic closing timer (309) are respectively electrically connected with the wireless signal sensing module (303) and the LED driving module (306), the control module (304) is respectively electrically connected with the wireless signal sensing module (303), the photosensitive sensor (305), the LED driving module (306) and the radar sensing device (5), and the radar sensing device (5) comprises a microwave transmitting end, Waveguide pipe and microwave detection end, microwave emission end other end is connected to waveguide pipe one end, microwave emission end transmission high frequency signal, microwave detection end receives the reflection signal and the interference signal of object reflection back and carries out the difference frequency processing, the reflection signal output to control module (304) after the difference frequency processing is held to the microwave detection, control module (304) form microwave induction signal through the high frequency signal of comparison microwave emission end transmission and the reflection signal after the difference frequency processing of microwave detection end, and control module (304) control LED banks (307) switch according to microwave induction signal, photosensitive sensor (305) are used for gathering light intensity signal, and control module (304) modulate PWM light modulation signal according to light intensity signal, LED drive module (306) respectively with control module (304), LED banks (307) electric connection with receive PWM light modulation signal and according to PWM light modulation signal control LED lamp The group (307) runs, a first end cover (9) with a first waterproof cover (8) at the inner side and a second end cover (11) with a second waterproof cover (10) at the inner side are respectively arranged at the two ends of the double-color lamp tube (1), the first end cover (9) and the second end cover (11) are fixedly connected with two ends of the bicolor lamp tube (1) through second screws (12), one side of the first end cover (9) far away from the double-color lamp tube (1) is fixedly connected with a waterproof joint (13), the centers of the first end cover (9), the second waterproof cover (10) and the waterproof joint (13) are provided with wire outlet holes (14), a power line (16) of the power supply (6) penetrates through the wire outlet hole (14) and is electrically connected with an external power supply, the power line (16) is fixed in the double-color lamp tube (1) through a wire clamp (17) and is connected with the power supply (6), the wire clip (17) is fixed on the inner wall of the double-color lamp tube (1) through a third screw (18).

2. The LED radar sensing tri-proof light with the timed dimming closing function is characterized by further comprising a wireless remote controller, wherein the wireless signal sensing module (303) is used for receiving a wireless remote control signal sent by the wireless remote controller, the wireless remote controller is provided with a plurality of keys, each key corresponds to one key instruction, the wireless remote controller can convert the key instructions into corresponding wireless remote control signals, and the keys comprise a power supply key, a night mode key, a brightness adjusting key, a dimming time setting key group, a closing time setting key group, a light sensing scene setting key group and a radar detection range setting key group.

3. The LED radar sensing tri-proof light with the timed dimming closing function according to claim 1, wherein the wireless signal sensing module (303) is electrically connected with the LED driving module (306) to receive a wireless remote control signal corresponding to the power key and modulate a control signal of the LED lamp group (307) according to the wireless remote control signal of the power key, and the LED driving module (306) converts the control signal of the LED lamp group (307) into a control instruction of the LED lamp group (307) and controls the LED lamp group (307) to operate according to the control instruction of the LED lamp group (307).

4. The LED radar sensing tri-proof light with the timed dimming shutdown function according to claim 1, wherein the wireless signal sensing module (303) is electrically connected with the LED driving module (306) to receive the wireless remote control signal corresponding to the night mode key and modulate the control signal of the night mode according to the wireless remote control signal corresponding to the night mode key, and the LED driving module (306) converts the control signal of the night mode into the control command of the night mode and sets the mode of the LED lamp set (307) to the night mode according to the control command of the night mode.

5. The LED radar sensing tri-proof light with the timed dimming closing function according to claim 1, wherein the wireless signal sensing module (303) is electrically connected with the LED driving module (306) to receive a wireless remote control signal corresponding to a brightness adjusting key and modulate a brightness adjusting control signal according to the wireless remote control signal corresponding to the brightness adjusting key, and the LED driving module (306) converts the brightness adjusting control signal into a brightness adjusting control command and adjusts the brightness of the LED lamp set (307) according to the brightness adjusting control command.

6. The LED radar sensing tri-proof light with the timed dimming closing function according to claim 1, wherein the wireless signal sensing module (303) is electrically connected with the automatic dimming timer (308) to receive the wireless remote control signal corresponding to the dimming time setting key group and modulate the control signal of the LED dimming time according to the wireless remote control signal corresponding to the dimming time setting key group, the LED driving module (306) is electrically connected with the automatic dimming timer (308) and converts the control signal of the LED dimming time into the control command of the LED dimming time, the LED driving module (306) controls the dimming time of the LED lamp group (307) according to the control command of the LED dimming time, and the dimming time corresponding to the dimming time setting key group is respectively 30 seconds, 10 minutes and 30 minutes.

7. The LED radar sensing tri-proof light with the timed dimming shutdown function according to claim 1, wherein the wireless signal sensing module (303) is electrically connected to the automatic shutdown timer (309) to receive the wireless remote control signal corresponding to the shutdown time setting key set and modulate the control signal of the LED shutdown time according to the wireless remote control signal corresponding to the shutdown time setting key set, the LED driving module (306) is electrically connected to the automatic shutdown timer (309) and converts the control signal of the LED shutdown time into the control command of the LED shutdown time, the LED driving module (306) controls the LED lamp set (307) to shut down the LED lamp set according to the control command of the LED shutdown time, and the shutdown time corresponding to the shutdown time setting key set is 30 seconds, 10 minutes and 30 minutes respectively.

8. The LED radar-sensing tri-proof light with the timed dimming shutdown function according to claim 1, characterized in that the wireless signal sensing module (303) is electrically connected with the LED driving module (306) to receive the wireless remote control signal corresponding to the light sensing scene setting key and respectively modulate corresponding light sensing scene control signals according to the wireless remote control signal corresponding to the light sensing scene setting key, the LED driving module (306) controls the LED lamp set (307) to be turned off or turned on according to the ambient light intensity and the radar detection object motion state under the light sensing scene corresponding to the light sensing scene setting key according to the light intensity signal acquired by the light sensing scene control signal and the light intensity signal acquired by the photosensitive sensor 305 and the microwave sensing signal acquired by the control module (304), wherein the light sensing scene comprises three scenes including dark, dusk and night.

9. The LED radar-sensing tri-proof light with the timed dimming shutdown function according to claim 2, wherein the wireless signal sensing module (303) is electrically connected with the control module to receive the wireless remote control signal of the radar detection range setting key set and modulate the detection range control signal of the radar sensing device (5) according to the wireless remote control signal of the radar detection range setting key set, the radar sensing device (5) adjusts the detection range according to the detection range control signal, the microwave transmitting end is a plurality of microwave antennas, the plurality of microwave antennas are circumferentially distributed on the bi-color lamp tube (1), the plurality of microwave antennas are divided into transmitting antennas with different sizes, the larger the size of the transmitting antenna at the same transmitting frequency is, the farther the sensing distance is, and the radar detection range setting key set corresponding to the transmitting antennas with different sizes comprises a very close part, and a very close part, The four detection distances of the short distance, the medium distance and the long distance are set, so that the detection distance of the radar sensing device (5) can be easily adjusted through the keys of the wireless remote controller.

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