Scene type intelligent linkage lighting system
Technical Field
The invention relates to the technical field of illumination brightening, in particular to a scene type intelligent linkage illumination system.
Background
With the development of scientific technology and the improvement of the living standard of people, people put forward new requirements on the household lighting system, and the replacement of the traditional lighting system by the intelligent lighting system is a necessary step in the intelligent process of home furnishing. The traditional household lighting control mode generally controls the on and off of a circuit through a switch in the circuit, if the switch is on, an illuminating lamp is on, and if the switch is off, the illuminating lamp is off; in real life, people can also see a circular rotary control, and the brightness of light is controlled by changing power distribution parameters in a circuit.
The lighting in the traditional mode has many defects, the use is inconvenient, for example, the control mode is single, the control mode for realizing full switching is complex, and the operation is complex when all lighting lamps in a house are determined to be closed or not when the house is out.
Disclosure of Invention
In order to solve the technical problems, the invention provides a scene type intelligent linkage lighting system which comprises a main headlamp, wherein the main headlamp comprises a lamp shell and a servo motor, the lamp shell is a cylinder sleeve with openings at the upper end and the lower end, a transparent plate is fixedly arranged at the lower end of the lamp shell, a lamp cover cap is covered at the upper end of the lamp shell, a support column is integrally formed on the upper surface of the transparent plate, a rotating plate is arranged on the support column through a bearing and can rotate around the support column, a circle of lamp holes are machined in the edge of the rotating plate, LED lamps are arranged in the lamp holes, the LED lamps in different lamp holes have different light-emitting colors, a conductive spring is arranged above each lamp hole, a lamp mounting sleeve is arranged above each conductive spring, the top and the cylinder part of each lamp mounting sleeve are respectively connected with two stages of the LED lamps, a conductive copper circuit is fixedly arranged on each rotating plate, and two ends of each conductive spring are respectively connected with the, The conductive copper path is fixedly connected, the conductive copper path extends to the edge of the rotating plate, a mounting frame is fixedly mounted inside the sleeve, the middle of the mounting frame is provided with a hole and extends out of the sleeve barrel body, the inner wall of the sleeve barrel body is provided with a sliding groove, a first sleeve block is sleeved in the sleeve barrel body, the lower end of the first sleeve block is a flat surface with only one smooth bulge, the upper end of the first sleeve block is fixed on the servo motor, the outer wall of the first sleeve block is provided with a first sliding rib, the first sliding rib slides into the sliding groove, a second sleeve block is sleeved in the first sleeve block, the lower end profile of the second sleeve block is wavy, a through hole with internal threads is processed on the second sleeve block, external threads are processed on the rotating shaft of the servo motor, the rotating shaft of the servo motor is in threaded fit with the through hole of the second sleeve block, and a second sliding rib is arranged on the outer wall of the second sleeve block, the inner wall processing of first sleeve piece has the guide slot, the slip muscle of second slides in make the second sleeve piece can slide in first sleeve piece in the guide slot, it has motor box, battery case, controller module, electrically conductive brush and speed regulation module to go back fixed mounting in the sleeve, the battery is equipped with in the battery case, the fixed motor that is equipped with in the motor box, the pivot of motor is stretched out motor box external connection and is had the reduction gear, the moment output end of reduction gear is connected with power gear, fixed mounting has round gear ring on the outer wall of commentaries on classics board, power gear with the gear ring meshing, the motor passes through the wire and connects speed regulation module, speed regulation module passes through wire connection controller module, controller module passes through the wire and connects respectively the battery case with servo motor, mounting bracket, speed regulation module, The first sleeve block and the second sleeve block are made of conductive materials, the mounting frame and the conductive brush are respectively connected in series with two stages of the battery, the conductive brush is always in close contact with the conductive copper circuit in the rotating process of the rotating plate, the controller module comprises an infrared receiving module, and the infrared receiving module is used for receiving command signals of a remote controller and controlling the main headlamp to work.
Furthermore, the intelligent linkage lighting system further comprises a plurality of small lamps, the structure of each small lamp is the same as that of the main headlamp, an infrared emission module is further arranged in a controller module of the main headlamp, and an infrared emission module in the main headlamp can transmit an instruction to the small lamps through infrared rays to control the small lamps to work.
Further, the servo motor is fixed on the lampshade cover.
Further, a buffer rubber is filled between the inner wall of the motor box and the motor.
An intelligent linkage lighting method comprises the following working modes:
(1) the remote controller outputs a first-level control instruction to the infrared receiving module of the main headlamp through infrared to control the main headlamp to work, the first-level control instruction has three modes, and the three modes are output through different keys on the remote controller, namely a first mode: only controlling a circuit of a battery, an installation frame, a second sleeve block, the top of a lamp installation sleeve, an LED lamp, a cylinder part of the lamp installation sleeve, a conductive spring, a conductive copper circuit and a conductive brush to be connected, and controlling the LED lamp where the lamp installation sleeve contacted with the wavy tip part at the lower end of the second sleeve block is positioned to emit light; in the second mode: on the basis of the connection of the loop in the first mode, the controller module is controlled to close a working circuit of the motor through an instruction, the motor starts to rotate to drive the rotating plate to start to rotate, the lamp mounting sleeve alternately passes through a wavy tip part and a wavy depressed part at the lower end of the second sleeve block in the rotating process, when the lamp mounting sleeve passes through the wavy tip part, the second sleeve block is attached to the top of the lamp mounting sleeve, the LED lamp is electrified to emit light, when the lamp mounting sleeve passes through the wavy depressed part, the second sleeve block is separated from the top of the lamp mounting sleeve, the LED lamp is powered off, and the LED lamps with different colors alternately emit light; the third mode: on the basis of a second mode, the servo motor is controlled to rotate by a certain angle through an instruction so that the second sleeve block moves upwards to be separated from the lamp mounting sleeve, a smooth bulge at the lower end of the first sleeve block is attached to the top of the lamp mounting sleeve, a flat surface at the lower end of the first sleeve block cannot contact with the lamp mounting sleeve, and when the rotating plate rotates, the LED lamps below the smooth bulge are turned on, other LED lamps are turned off, so that the specific positions of the headlamps alternately emit light with different colors;
(2) the remote controller outputs a secondary control instruction to the infrared receiving module of the main headlamp through infrared, controls the controller module of the main headlamp to generate an instruction, sends the instruction to the infrared receiving module of the small lamp through the infrared transmitting module of the main headlamp, controls the small lamp and the main headlamp to work synchronously, outputs the primary control instruction through the remote controller, and selects the three modes.
The invention has the beneficial effects that:
the invention designs a linkage lighting system, which can obtain different lighting effects through control, realize common daily lighting functions and colorful color-changing lighting functions, and is suitable for lighting environments such as family lighting, party lighting or bar lighting.
Drawings
Fig. 1 is a schematic structural view of a main headlight according to the invention;
FIG. 2 is a schematic structural view of a lamp mounting sleeve;
FIG. 3 is a schematic top view of the rotating plate;
FIG. 4 is a schematic structural view of the mounting bracket;
FIG. 5 is a schematic view of a first sleeve block;
fig. 6 is a schematic structural view of the second sleeve block.
Detailed Description
The present invention will be further described with reference to the following examples.
A scene type intelligent linkage lighting system comprises a main headlamp, wherein the main headlamp comprises a lamp shell 1 and a servo motor 2. The lamp housing 1 is a cylinder sleeve with openings at the upper end and the lower end, and the transparent plate 3 is fixedly mounted at the lower end of the lamp housing 1, so that the LED light can penetrate out of the transparent plate. The upper end of the lamp housing 1 is covered with a lamp cover cap 4. The upper surface integrated into one piece of transparent plate 3 is equipped with support column 5, installs through bearing 6 on the support column 5 and changes board 7, changes board 7 and can rotate around support column 5. The edge processing of changeing board 7 has round lamp hole 8, all installs LED lamp 9 in every lamp hole 8, and LED lamp 9 and 8 clearance fit in lamp hole for LED lamp 9 can stretch out the lamp hole or shrink into in the lamp hole. The LED lamps in different lamp holes 8 have different light emitting colors. Conductive spring 10 is installed to the lantern hole 8 top, and conductive spring 10's effect has two: first, the function of conducting electricity is achieved, and second, the function of generating elastic force is used for retracting the LED lamp 9 into the lamp hole 8. As a preferred embodiment: a latex sheet (not shown) is arranged at the outlet of the lower end of the lamp hole 8, one side of the latex sheet is bonded on the edge of the lamp hole 8, and the other side is a free end. When the LED lamp is pushed out from the lamp hole 8, the LED lamp pushes the latex sheet open, so that the LED lamp is exposed, and when the LED lamp retracts into the lamp hole, the latex sheet covers the lamp hole due to the elastic recovery of the latex sheet in the initial state. A lamp mounting sleeve 11 is mounted above the conductive spring 10, and the top 12 and the barrel 13 of the lamp mounting sleeve are respectively connected with two stages of the LED lamps 9. The rotating plate 7 is fixedly provided with a conductive copper circuit 14, and two ends of the conductive spring 10 are respectively fixedly connected with the barrel part 13 of the lamp mounting sleeve and the conductive copper circuit 14. The conductive copper tracks 14 extend to the edge 15 of the rotating plate. The mounting frame 16 is fixedly mounted inside the sleeve, and the middle of the mounting frame 16 is provided with a hole and extends out of the sleeve body 17. The inner wall of the pipe sleeve barrel 17 is provided with a sliding groove 18, and a first sleeve block 19 is sleeved in the pipe sleeve barrel 17. The lower end of the first sleeve block 19 is a flat surface 21 with only one smooth bulge 20, and the upper end of the first sleeve block 19 is fixed on the servo motor 2. The outer wall of the first sleeve block 19 is provided with a first sliding rib 22, and the first sliding rib 22 slides into the sliding groove 18. The first sleeve block 19 is internally provided with a second sleeve block 23, and the lower end profile of the second sleeve block 23 is a wave-shaped 24. The second sleeve piece 23 is provided with an internally threaded through hole 25. An external thread is processed on the rotating shaft of the servo motor 2, and the rotating shaft of the servo motor 2 is matched with the through hole 25 of the second sleeve block through a thread. The outer wall of the second sleeve block is provided with a second sliding rib 26, the inner wall of the first sleeve block 19 is provided with a guide groove 27, and the second sliding rib 26 slides into the guide groove 27 to enable the second sleeve block 23 to slide in the first sleeve block 19. When the servo motor 2 rotates, the second sleeve block 23 moves upwards to be separated from contact with the lamp mounting sleeve or moves downwards to press the lamp mounting sleeve through the action of the threads. And a motor box 28, a battery box 29, a controller module 30, a conductive brush 31 and a rotating speed adjusting module 32 are fixedly arranged in the barrel sleeve. The battery case 29 houses a battery. The motor 33 is fixedly arranged in the motor box 28, and the buffer rubber is filled between the inner wall of the motor box 28 and the motor 33 to prevent the main headlight from being driven to rotate by the vibration generated by the rotation of the motor 33. The rotating shaft of the motor 33 extends out of the motor box 28 and is connected with a speed reducer 34, and the torque output end of the speed reducer 34 is connected with a power gear 35. A ring of gear rings 36 is fixedly arranged on the outer wall of the rotating plate 7. The power gear 35 is engaged with the gear ring 36, so that the power gear 35 rotates to drive the rotating plate 7 to rotate. The motor 33 is connected with the rotating speed adjusting module 32 through a lead, the rotating speed adjusting module 32 is connected with the controller module 30 through a lead, the controller module outputs a signal to control the rotating speed adjusting module 32 to adjust the rotating speed of the motor, the controller module outputs a signal to adjust the rotating speed adjusting module 32 and is controlled by the remote controller, namely, if the controller module receives a rotating speed adjusting instruction sent by the remote controller, the controller module outputs a signal to the rotating speed adjusting module 32 to adjust the motor. The controller module 30 is connected to the battery box 29 and the servo motor 2 through wires, respectively. The mounting frame 16, the first sleeve piece 19 and the second sleeve piece 23 are all made of conductive materials. The mounting frame 16 and the conductive brush 31 are respectively connected in series with two stages of the battery (not shown in the series-connected conducting wire diagram), and the conductive brush 31 and the conductive copper circuit 14 are always in close contact in the rotation process of the rotating plate 7, so that good electrical contact is kept. The controller module 30 includes an infrared receiving module therein, and the infrared receiving module is used for receiving an instruction signal of a remote controller and controlling the main headlight to work.
In order to achieve the linkage effect, as a preferable scheme, the intelligent linkage lighting system further comprises a plurality of small lamps, the structure of each small lamp is the same as that of the main headlamp, an infrared emission module is further arranged in a controller module of the main headlamp, and the infrared emission module in the main headlamp can transmit an instruction to the small lamps through infrared rays to control the small lamps to work.
The intelligent linkage lighting system comprises the following working modes:
(1) the remote controller outputs a first-level control instruction to the infrared receiving module of the main headlamp through infrared to control the main headlamp to work, the first-level control instruction has three modes, and the three modes are output through different keys on the remote controller, namely a first mode: only controlling a circuit of a battery, an installation frame, a second sleeve block, the top of a lamp installation sleeve, an LED lamp, a cylinder part of the lamp installation sleeve, a conductive spring, a conductive copper circuit and a conductive brush to be connected, and controlling the LED lamp where the lamp installation sleeve contacted with the wavy tip part at the lower end of the second sleeve block is positioned to emit light; in the second mode: on the basis of the connection of the loop in the first mode, the controller module is controlled to close a working circuit of the motor through an instruction, the motor starts to rotate to drive the rotating plate to start to rotate, the lamp mounting sleeve alternately passes through a wavy tip part and a wavy depressed part at the lower end of the second sleeve block in the rotating process, when the lamp mounting sleeve passes through the wavy tip part, the second sleeve block is attached to the top of the lamp mounting sleeve, the LED lamp is electrified to emit light, when the lamp mounting sleeve passes through the wavy depressed part, the second sleeve block is separated from the top of the lamp mounting sleeve, the LED lamp is powered off, and the LED lamps with different colors alternately emit light; the third mode: on the basis of a second mode, the servo motor is controlled to rotate by a certain angle through an instruction so that the second sleeve block moves upwards to be separated from the lamp mounting sleeve, a smooth bulge at the lower end of the first sleeve block is attached to the top of the lamp mounting sleeve, a flat surface at the lower end of the first sleeve block cannot contact with the lamp mounting sleeve, and when the rotating plate rotates, the LED lamps below the smooth bulge are turned on, other LED lamps are turned off, so that the specific positions of the headlamps alternately emit light with different colors;
(2) the remote controller outputs a secondary control instruction to the infrared receiving module of the main headlamp through infrared, controls the controller module of the main headlamp to generate an instruction, sends the instruction to the infrared receiving module of the small lamp through the infrared transmitting module of the main headlamp, controls the small lamp and the main headlamp to work synchronously, outputs the primary control instruction through the remote controller, and selects the three modes.
The technical solutions provided by the present invention are described in detail above, and for those skilled in the art, the ideas according to the embodiments of the present invention may be changed in the specific implementation manners and the application ranges, and in summary, the content of the present description should not be construed as limiting the present invention.