CN116557821B

CN116557821B - AI intelligent biological rhythm time light controller

Info

Publication number: CN116557821B
Application number: CN202310836750.1A
Authority: CN
Inventors: 刘建桃; 唐义国; 黄谦
Original assignee: Shenzhen Salang Technology Co ltd
Current assignee: Shenzhen Salang Technology Co ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2023-12-15
Anticipated expiration: 2043-07-10
Also published as: CN116557821A

Abstract

The invention provides an AI intelligent biorhythm time light controller, and relates to the technical field of light control. The light controller comprises the protection component arranged on the controller shell, the protection component can protect the core component, meanwhile, the anti-impact effect of the bending plate structure below the protection component is good, a large ventilation channel is formed, airflow around the shell is facilitated, and heat dissipation is facilitated. In addition, the controller is arranged in the lamp, the lamp is clamped in the mounting frame, the mounting frame and the mounting mode of the frame body and the lamp effectively enable the irradiation area of the lamp to be controlled below the mounting frame, and illumination of the lamp to the side range of the mounting frame is reduced, so that illumination concentration is achieved.

Description

AI intelligent biological rhythm time light controller

Technical Field

The invention relates to the technical field of light control, in particular to an AI intelligent biological rhythm time light controller.

Background

The light control is a method for changing the working voltage or current of the lamp, and the light control requirement in life is realized by two modes of on-off control and luminous intensity control. The control and adjustment have two main aspects: firstly, the brightness, namely the control of the light intensity, and secondly, the control of the color. The existing light controllers on the market often have the characteristics that the controller possibly fails to provide intelligent switching light behaviors due to overhigh temperature, and meanwhile, the controller has the characteristic that a used power supply is expensive. The present invention is intended to design a light controller that actively adjusts the circadian behavior of living beings by using a light switch and a light intensity.

The prior art offers a certain solution, for example patent US9538613B1, which discloses: the average night length is determined by averaging the night length between the night start time and the night end time determined by the photosensor, and after the night start time for a given date, it is estimated that midnight occurs at a time half of the average night length. Such an estimate may control the operation of a lamp or other device at midnight without the need for a clock or constant power. The patent can be suitable for day and night work and rest of most organisms by calculating the night length to determine the time of switching the lamp, but lamps with different sizes are required to be installed on different occasions to improve or reduce the lighting effect, the technical effect of conveniently replacing the lamp cannot be achieved, and the inventor considers that the patent has a great improvement space.

Disclosure of Invention

In order to realize the adaptation of a plurality of lamps with different models for different living things, and simultaneously the intelligent adjustment of the luminous time and time period by a controller, the invention provides an AI intelligent biological rhythm time light controller, which comprises the following components: the intelligent light controller for the intelligent biological rhythm time comprises a first sliding rail, a second sliding rail, a lamp tube, lamp holders, a controller, a circuit board, an AI intelligent biological rhythm time light controller and a lighting time, wherein the first sliding rail can be used for being connected with a wall surface, the second sliding rail is connected with the bottom of the first sliding rail in a sliding mode, the lamp tube is arranged below the second sliding rail, the lamp holders are arranged on two sides of the lamp tube, the controller is arranged in the lamp holders and comprises a cylindrical controller shell, the circuit board is arranged in the controller shell and comprises a power input end, an LED switch loop, a light running program memory and a microprocessor, and the AI intelligent biological rhythm time light controller can adaptively control light power and lighting time through programs.

Further, the circuit board mainly plays a role of the control unit, the circuit board can be used for controlling the driving controller, the driving controller can control the motor to rotate forwards and reversely so as to realize translational movement of the sliding plate and the sliding block on the second sliding rail, the second sliding rail can move relatively to the first sliding rail, further, two-dimensional movement of the lamp on a limited plane is realized, and a certain role is played in controlling the illumination range of the lamp.

In the invention, a key switch is arranged on the side surface of a controller shell, lamp wire interfaces are arranged on the left side and the right side of the key switch side by side, and a power interface is arranged on one side of the lamp wire interfaces.

The notch has all been seted up to controller top and bottom, and notch department is connected with protection component, and protection component includes the third plate body, and third plate body one end is connected with the second plate body, and second plate body center is provided with the second body of rod, and the floor is installed in the cooperation between second body of rod and the second plate body, and a plurality of floor are laid around the second body of rod side.

In the invention, a first snare is sleeved outside the third plate body, the first snare comprises a bending plate, the first snare is formed by connecting a plurality of layers of bending plates, the end part of a second rod body is connected with a first rod body, the end part of the first rod body is connected with a first plate body, and a plurality of through holes are distributed on the surface of the first plate body.

Further, a plurality of bending plates are stacked in proper order, the bending positions of upper and lower bending plates are different, and then the bending region between the upper and lower bending plates can form the gas pocket, this kind of beta structure shock resistance effect is better, and have great ventilation channel, be favorable to the air current around the controller shell to flow, help the heat dissipation, it is worth mentioning to go on fixed connection through the welding between the upper and lower bending plates, bending plate intermediate region is connected with a third plate body that corresponds rather than the middle part pore body, can strengthen the connectivity between second body of rod and the second plate body through the structure that sets up the floor, can also make external impact force at first strike first plate body and transmit second, third plate body consume energy, finally transmit to the bending plate, can further promote the protective effect to the controller shell that is equipped with the circuit board, because be used for biological use, biological lamps and lanterns and the controller that can destroy this product, set up the protection subassembly and can reduce the emergence of this condition.

According to the invention, the outer side of the lamp holder is clamped with the mounting frame, the mounting frame is of a cuboid structure with a slotted bottom, the mounting frame comprises vent holes arranged on the side face, the inner wall of the mounting frame is provided with trapezoid frame bodies extending towards the center, the lamp holders are arranged between the frame bodies in a matched mode, the controller and the protection assembly are respectively arranged in the lamp holders, and the controller is arranged on the side face of the lamp tube.

Further, a certain gap is reserved between the controller shell and the frame body, so that a flowing space of air flow is ensured, a heat dissipation effect is facilitated, and wires and the like mounted on the controller and the lamp tube can pass through holes or holes in the bending plate, so that the wires are limited through the parts, and the scattering of the wires is avoided. And when the circuit passes through each component of the protection assembly, the heat of the circuit when the current is transmitted is also relatively transmitted to each component of the protection assembly, so that the temperature of the surface of the controller is further reduced.

According to the invention, one side of a frame body is provided with an elastic piece, the elastic piece comprises a second rotating plate, two ends of the second rotating plate are provided with openings, the second rotating plate is rotationally connected with a first rotating plate, the middle of the second rotating plate is provided with a notch, a third rotating plate is cooperatively arranged at the notch, two ends of the third rotating plate are provided with openings, the third rotating plate is connected with the first rotating plate, the first rotating plate is in a convex shape, the first rotating plate, the second rotating plate and the third rotating plate are connected in an X shape, and springs are fixedly connected between the first rotating plates.

Further, the lamp can be quickly disassembled and assembled through the arrangement of the mounting frame, the lamp can be effectively fixed through the frame body structures on the two sides in the mounting frame, and the heat of the lamp can be discharged through the vent holes formed in the surface of the mounting frame, so that the heat dissipation of the lamp is facilitated. The trapezium structure of support body can effectively make lamps and lanterns joint to the mounting bracket in, the elastic component provides elastic support, and first rotating plate accepts the impact, can realize providing elastic support power to the support body in different regions, effectively realize the support body like this and the different regional effective butt of lamps and lanterns, for example lamps and lanterns side is the arc, present lamps and lanterns side or indent or evagination on the market can not use the structure of same to go joint lamps and lanterns, can destroy the lamps and lanterns side like this, this problem has been solved to the design scheme of present case. The rack body is arranged, so that the lamp and the mounting rack are effectively connected, heat generated by the lamp can be absorbed by the rack body and the like, and the heat is radiated from the side, so that the situation that the service life of the lamp filament is reduced due to overhigh local temperature caused by concentrated downward heat of the lamp is avoided; the mounting frame and the mounting mode of the frame body and the lamp effectively enable the irradiation area of the lamp to be controlled below the mounting frame, so that the illumination of the lamp to the side range of the mounting frame is reduced, and the illumination is concentrated.

Compared with the prior art, the invention has the following technical effects: the elastic piece can provide elastic support, so that the lamps with different structures can be fixedly clamped with the frame body, and meanwhile, the lamp structure is prevented from being damaged; the mounting frame, the mounting frame body and the lamp are mounted in a manner that the irradiation area of the lamp is effectively controlled below the mounting frame, and the illumination of the lamp to the side range of the mounting frame is reduced, so that the illumination concentration is realized; the protection component is arranged to protect the core component, meanwhile, the impact resistance effect of the bending plate structure below the protection component is better, and the bending plate structure is provided with a larger ventilation channel, so that the airflow around the shell is facilitated, and the heat dissipation is facilitated.

Drawings

FIG. 1 is a schematic diagram of the structure of the AI intelligent biorhythmic time light controller according to the present invention when the controller is connected to a wall surface;

FIG. 2 is a schematic diagram of the AI intelligent biorhythmic time light controller according to the invention;

FIG. 3 is a schematic diagram of a controller according to the present invention;

FIG. 4 is a schematic diagram of a connection structure between a protection component and a controller according to the present invention;

FIG. 5 is a schematic view of a bending plate structure according to the present invention;

FIG. 6 is an enlarged view of the area A in FIG. 5;

FIG. 7 is a schematic side cross-sectional view of a mounting bracket according to the present invention;

fig. 8 is a schematic structural view of an elastic member according to the present invention.

Reference numerals illustrate 10-first slide rail; 11-a second slide rail; 12-an electric motor; 13-a drive controller; 14-a sliding plate; 15-sliding blocks; 20-mounting rack; 21-vent holes; 22-a frame body; 30-lamp tube; 31-lamp holders; 40-protecting component; 41-a first plate body; 42-through holes; 43-a first rod body; 44-a second rod body; 45-rib plates; 46-a second plate; 47-a third plate; 471-first snare; 472-bending plate; 48-a controller; 481-notch; 482-a controller housing; 483—a light wire interface; 484-push-button switch; 485-a power interface; 486-circuit board; 50-an elastic member; 51-a first rotating plate; 52-a second rotating plate; 53-a third rotating plate; 54-spring.

Detailed Description

Example 1:

referring to fig. 1-2, the present invention provides an AI intelligent biorhythmic time light controller, comprising: the intelligent biological rhythm time lamplight controller can be used for connecting a first sliding rail 10 on a wall surface, the bottom of the first sliding rail 10 is slidably connected with a second sliding rail 11, a lamp tube 30 is arranged below the second sliding rail 11, lamp holders 31 are arranged on two sides of the lamp tube 30, a controller 48 is arranged in the lamp holders 31, the controller 48 comprises a cylindrical controller shell 482, a circuit board 486 is arranged in the controller shell 482, the circuit board 486 comprises a power input end, an LED switch loop, a lamplight running program memory and a microprocessor, and the lamplight power and the illumination time can be adaptively controlled by an AI intelligent biological rhythm time lamplight controller through programs.

Further, as shown in fig. 1, the circuit board 486 mainly plays a role of a control unit, the circuit board 486 can be used for controlling the driving controller 13, the driving controller 13 can control the motor 12 to rotate forward and backward so as to realize the translational movement of the sliding plate 14 and the sliding block 15 on the second sliding rail 11, the second sliding rail 11 can perform the relative movement relative to the first sliding rail 10, further realize the two-dimensional movement of the lamp on a limited plane, and play a role in controlling the illumination range of the lamp.

Referring to fig. 3, in the present invention, a key switch 484 is provided on a side of a controller housing 482, a light wire interface 483 is provided side by side on both left and right sides of the key switch 484, and a power interface 485 is provided on one side of the light wire interface 483.

Referring to fig. 4, the top and bottom of the controller 48 are provided with notches 481, the notch 481 is connected with a protection component 40, the protection component 40 includes a third plate 47, one end of the third plate 47 is connected with a second plate 46, a second rod body 44 is arranged at the center of the second plate 46, rib plates 45 are cooperatively installed between the second rod body 44 and the second plate 46, and a plurality of rib plates 45 are circumferentially arranged on the side surface of the second rod body 44.

In the present invention, a first snare 471 is sleeved outside the third plate 47, the first snare 471 includes a bending board 472, the first snare 471 is formed by connecting multiple layers of bending boards 472, the end of the second rod 44 is connected with the first rod 43, the end of the first rod 43 is connected with the first plate 41, and a plurality of through holes 42 are distributed on the surface of the first plate 41.

Referring to fig. 4-5-6, further, a plurality of bending plates 472 are stacked in turn and bending areas on the bending plates 472 form ventilation holes through the upper bending plates 472 and the lower bending plates 472, the folding structure has better impact resistance effect, and has a larger ventilation channel, which is beneficial to the airflow around the controller housing 482, and is beneficial to heat dissipation, it is worth mentioning that the upper bending plates 472 and the lower bending plates 472 are fixedly connected through welding, the middle area of the bending plates 472 is connected with a third plate 47 corresponding to the middle hole body thereof, the connection tightness between the second rod body 44 and the second plate 46 can be enhanced through the structure of the rib plates 45, the external impact force can be firstly impacted to the first plate 41 and transmitted to the second third plate body to consume energy, and finally transmitted to the bending plates 472, so that the protection effect on the controller housing 482 provided with the circuit board 486 can be further improved, because the protection effect on the controller housing 482 is used for biological use, the lamps and the controller of the product can be damaged, and the occurrence of the situation can be reduced through the arrangement of the protection component 40.

In the invention, the outer side of a lamp holder 31 is clamped with a mounting frame 20, the mounting frame 20 is of a cuboid structure with a slotted bottom, the mounting frame 20 comprises vent holes 21 arranged on the side face, the inner wall of the mounting frame 20 is provided with a trapezoid frame body 22 extending towards the center, the lamp holders 31 are matched and arranged between the frame bodies 22, a controller 48 and a protection component 40 are respectively arranged in the lamp holders 31, and the controller 48 is arranged on the side face of a lamp tube 30.

Further, a certain gap is left between the controller housing 482 and the frame 22 to ensure a flowing space of the air flow, which contributes to a heat dissipation effect, and wires or the like mounted to the controller 48 and the lamp tube 30 can pass through the through holes 42 or the holes on the bending plate 472, and the wires are limited by these components to avoid the scattering of the wires. And when the circuit passes through each component of the protection assembly 40, the heat generated when the circuit transmits the current is also relatively transmitted to each component of the protection assembly 40, so that the temperature of the surface of the controller 48 is further reduced, and in addition, each component of the protection assembly 40 has a certain amount of heat when bearing heat dissipation, and the protection assembly can retract after touching a living organism, so that the damage to the living organism is avoided.

Example 2:

the difference between this embodiment and embodiment 1 is that, referring to fig. 7-8, in the present invention, an elastic member 50 is installed on one side of the frame 22, the elastic member 50 includes a second rotating plate 52, two ends of the second rotating plate 52 are opened for processing, and are rotatably connected with a first rotating plate 51, a gap is opened in the middle of the second rotating plate 52, a third rotating plate 53 is cooperatively installed at the gap, two ends of the third rotating plate 53 are opened for processing and are connected with the first rotating plate 51, the first rotating plate 51 is in a shape of "convex", the first rotating plate 51, the second rotating plate 52 and the third rotating plate 53 are connected in a shape of "X", and springs 54 are fixedly connected between the first rotating plates 51.

Referring to fig. 7-8, further, the lamp can be quickly assembled and disassembled through the installation of the installation frame 20, the lamp can be effectively fixed through the frame 22 structures on two sides in the installation frame 20, and the heat of the lamp can be discharged through the vent holes 21 formed in the surface of the installation frame 20, so that the heat dissipation of the lamp is facilitated. The trapezoid structure of the frame body 22 can effectively enable the lamp to be clamped into the mounting frame 20, the elastic piece 50 provides elastic support, the first rotating plate 51 receives impact, elastic support force can be provided for the frame body 22 in different areas, effective abutting of the frame body 22 and different areas of the lamp can be effectively achieved, for example, the side face of the lamp is arc-shaped, some side faces of the lamp are concave or convex, the lamp cannot be clamped by the same structure, the side face of the lamp can be damaged, and the problem is solved by the design scheme. By arranging the frame body 22, the effective connection between the lamp and the mounting frame 20 is realized, the frame body 22 and the like can be used for absorbing the heat generated by the lamp and radiating the heat from the side, so that the situation that the service life of the lamp filament is reduced due to overhigh local temperature caused by the concentrated downward heat of the lamp is avoided; the mounting frame 20, the mounting frame body 22 and the lamp are mounted in a manner that the irradiation area of the lamp is effectively controlled below the mounting frame 20, and the illumination of the lamp to the lateral range of the mounting frame 20 is reduced, so that the illumination concentration is realized.

Example 3:

the difference between the present embodiment and embodiment 1 is that the present embodiment provides an LED tri-proof light manufactured by Sha Lang technology limited in Shenzhen city, the model is SL-P65X5-50-X, the present invention improves the components of the controller 48 on the basis of the product, so that the light fixture can form the effect of the intelligent switch light under the control of the controller 48 to adapt to the circadian rhythm of living beings, and the specific working principle is as follows: firstly, by observing the work and rest time of a certain organism, calculating and analyzing to count the sleep time and the average activity time of the organism into the circuit board 486, loading the controller 48 with the recorded information into the lamp for use, and observing whether the controller is consistent with the work and rest time of the organism, it is worth mentioning that the brightness of the lamp changes along with the change of the work and rest time, the brightness of the lamp can be gradually weakened until the rest time period of the organism is extinguished, and the time period of the organism which is about to be active is gradually lightened, so that on one hand, the lamp filament can be protected from being burnt due to the fact that a large amount of current is instantaneously passed, and on the other hand, the electricity can be saved. Meanwhile, a sound control switch is arranged in the controller 48, and a lamp turning-on function can be realized through biological sound even in an unlit time period so that workers can find out sudden conditions in time.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims

1. AI intelligence biorhythms time light controller includes: the first sliding rail (10) capable of being used for connecting the wall surface, the bottom of the first sliding rail (10) is connected with the second sliding rail (11) in a sliding way, a lamp tube (30) is arranged below the second sliding rail (11), lamp holders (31) are arranged on two sides of the lamp tube (30), the LED lamp is characterized in that a controller (48) is arranged in the lamp holders (31), the controller (48) comprises a cylindrical controller shell (482), a circuit board (486) is arranged in the controller shell (482), the circuit board (486) comprises a power input end, an LED switch loop, a lamp light running program memory and a microprocessor,

a key switch (484) is arranged on the side surface of the controller shell (482), lamp wire interfaces (483) are arranged on the left side and the right side of the key switch (484) side by side, a power interface (485) is arranged on one side of the lamp wire interfaces (483),

the top and the bottom of the controller shell (482) are connected with a protection component (40), the protection component (40) comprises a third plate body (47), one end of the third plate body (47) is connected with a second plate body (46), the center of the second plate body (46) is provided with a second rod body (44), a rib plate (45) is arranged between the second rod body (44) and the second plate body (46) in a matching way,

a first snare (471) is sleeved outside the third plate body (47), the first snare (471) comprises a bending plate (472), the first snare (471) is formed by stacking a plurality of layers of bending plates (472) up and down,

the utility model discloses a lamp stand, including lamp stand (31) outside joint has mounting bracket (20), mounting bracket (20) are bottom grooved cuboid structure, mounting bracket (20) are including setting up air vent (21) in the side, mounting bracket (20) inner wall is provided with trapezoidal support body (22) to central extension, the cooperation is provided with lamp stand (31) between support body (22), leave the clearance between controller shell (482) and support body (22), be equipped with the electric wire on controller (48) and fluorescent tube (30), the electric wire can pass through hole (42) and the hole on bent plate (472).

2. The AI intelligent biorhythmic time light controller according to claim 1, wherein an elastic piece (50) is installed on one side of the frame body (22), the elastic piece (50) comprises a second rotating plate (52), two ends of the second rotating plate (52) are opened for treatment, a first rotating plate (51) is rotatably connected, a notch is formed in the middle of the second rotating plate (52), a third rotating plate (53) is installed at the position of the notch in a matched mode, two ends of the third rotating plate (53) are opened for treatment and connected with the first rotating plate (51), and a spring (54) is fixedly connected between the first rotating plates (51) which are arranged up and down.

3. The AI intelligent biorhythmic time light controller according to claim 2, wherein the upper and lower surfaces of the elastic member (50) are fixedly connected with the inner walls of the frame body (22) and the mounting frame (20), respectively.

4. The AI intelligent biorhythmic time light controller according to claim 1, wherein a sliding plate (14) is sleeved on the second sliding rail (11), a mounting frame (20) is fixedly connected to the lower end of the sliding plate (14), a sliding block (15) is arranged on the upper surface of the mounting frame (20), the sliding block (15) is slidably connected with the second sliding rail (11), the sliding block (15) is arranged on two sides of the sliding plate (14), and a motor (12) and a driving controller (13) are respectively arranged on the upper surface of the sliding plate (14).