CN216047511U - Light controller - Google Patents

Abstract

The utility model provides a light controller, which comprises a power supply module and a light operation module, wherein the power supply module is provided with a power supply input end and a power supply output end, the power supply input end is used for being connected with an external power supply, and the power supply output end is electrically connected with the light operation module; the light operation module comprises an installation shell, a central processing unit, an operation signal input unit and a rotary connection unit for electrifying; the central processing unit, the operation signal input unit and the rotary connection unit are mounted on the mounting case; the central processing unit is electrically connected with the operation signal input unit and the rotary connecting unit, and the joint between the illuminating lamp and the light controller can rotate.

Description

Light controller

Technical Field

The utility model belongs to the technical field of lighting control, and particularly relates to a light controller.

Background

The illumination lamp is generally used as illumination. In order to improve the control convenience of the illuminating lamp, the illuminating lamp is usually connected with a lamp light controller, and the functions of on-off control, brightness adjustment, timing control and the like of the illuminating lamp can be realized through the lamp light controller. Through the connection of electric lines between light and the light controller, the junction between light and the light controller can not rotate, leads to the unstable of connection before light and the light controller easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a light controller, which aims to solve the technical problem that in the prior art, the connection between an illuminating lamp and the light controller cannot rotate, so that the unstable connection between the illuminating lamp and the light controller is easy to cause.

In order to achieve the purpose, the utility model adopts the technical scheme that: the lighting controller comprises a power supply module and a lighting operation module, wherein the power supply module is provided with a power supply input end and a power supply output end, the power supply input end is used for being connected with an external power supply, and the power supply output end is electrically connected with the lighting operation module;

the light operation module comprises an installation shell, a central processing unit, an operation signal input unit and a rotary connection unit for electrifying; the central processing unit, the operation signal input unit and the rotary connection unit are mounted on the mounting case;

the central processing unit is electrically connected to the operation signal input unit and the rotary connection unit.

Further, the rotary connection unit is at least one of a fifth round-head earphone male plug and a fifth round-head earphone female plug.

Further, the light controller further comprises a music rhythm unit electrically connected to the central processing unit.

Further, the operation signal input unit includes a lamp circuit board and a control component, the control component and the lamp circuit board are disposed on the mounting case, and the control component is electrically connected to the central processing unit through the lamp circuit board.

Furthermore, the control component is a control touch screen or a plurality of control keys;

when the control component is a plurality of control keys, the control keys are movably arranged on the mounting shell, the light circuit board is provided with a control contact, the control contact is arranged on one side of the control keys, the control keys are far away from or close to the light circuit board on the mounting shell, and when the control keys are close to the light circuit board, the control keys are contacted with the control contacts to enable the central processing unit to control the splicing luminous body;

when the control assembly is a control touch screen, the control touch screen is arranged on the installation shell, the control touch screen is electrically connected to the lighting circuit board, and the control touch screen is in communication connection with the central processing unit through the lighting circuit board.

Further, the operation signal input unit comprises a wireless communication unit which is connected with the central processing unit in a communication mode and is used for being connected with a mobile terminal in a wireless mode.

Furthermore, the operation signal input unit further comprises a remote operation device, the remote operation device comprises a connecting shell, an operation module, a remote communication module, a charging module and an adsorption module, and the remote communication module, the operation module, the charging module and the adsorption module are fixed on the connecting shell; the charging module is electrically connected with the operation module and the remote communication module, the charging module is used for supplying power to the operation module and the remote communication module, and the operation module is used for sending an operation signal to the central processing unit through the remote communication module;

the light operation module still includes adsorbs unit and charging unit, charging unit with adsorb the unit setting on the installation shell, the charging unit electricity is connected in the power output end, the connection shell passes through adsorb the module with adsorb between the unit adsorption and adsorb on the installation shell, work as the connection shell adsorbs when on the installation shell, power module passes through charging unit is right the module that charges.

Further, the charging unit is a wireless charging assembly or a charging needle assembly, and when the charging unit is the wireless charging assembly, the charging module is a wireless charging receiving assembly; when the charging unit is a charging needle assembly, the charging module is a charging contact assembly, and a charging contact pin of the charging needle assembly is used for contacting with a charging point of the charging contact assembly.

Further, the operation module comprises an operation unit, a processing unit and an operation circuit board, wherein the operation unit is electrically connected to the processing unit, and the processing unit is electrically connected to the remote communication module through the operation circuit board.

Further, the adsorption module is a first magnetic piece or a first magnetic receiving piece; when the adsorption module is the first magnetic piece, the adsorption unit is a second magnetic piece; when the adsorption module is the first magnetic part, the adsorption unit is a second magnetic part.

The light controller provided by the utility model has the beneficial effects that: compared with the prior art, the connecting part between the illuminating lamp and the light controller can rotate and ensure that the illuminating lamp and the light controller are normally powered.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a first schematic structural diagram of a spliceable light emitter according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a spliceable light emitter according to an embodiment of the present invention;

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

fig. 4 is a schematic diagram of an exploded structure of a base according to an embodiment of the present invention;

fig. 5 is a first schematic structural diagram of a wall mount according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an internal structure of a wall mount according to an embodiment of the present invention;

fig. 7 is a second schematic view of an internal structure of a wall mount according to an embodiment of the present invention;

FIG. 8 is a schematic view of an internal structure of a terminating connector of a wall mount system according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a light controller according to an embodiment of the present invention;

fig. 10 is a schematic partial structural diagram of a light controller according to an embodiment of the present invention;

fig. 11 is a schematic partial structural diagram of a light controller according to an embodiment of the present invention;

fig. 12 is a schematic view of a partial structure of a light controller according to an embodiment of the present invention;

fig. 13 is a schematic view illustrating a partial structure of a light controller according to an embodiment of the present invention;

fig. 14 is a schematic partial structural diagram of a light controller according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1. the luminous bodies can be spliced; 11. a light emitting portion; 111. a housing; 112. a light emitting member; 1121. a circuit board; 1122. a light emitting lamp; 121. rotating the plug; 122. rotating the socket joint; 2. an external power supply; 3. a base; 31. a fixed seat; 32. a connecting assembly; 321. a bottom sleeve joint; 33. a bottom circuit board; 4. a light controller; 41. a power supply module; 42. a light operation module; 421. mounting a shell; 422. a central processing unit; 423. an operation signal input unit; 4231. a connecting shell; 4232. an operation module; 42321. an operation unit; 42322. a processing unit; 42323. operating the circuit board; 4233. a remote communication module; 4234. a charging module; 4235. an adsorption module; 4236. a light circuit board; 4237. a control component; 424. a rotary connection unit; 425. an adsorption unit; 426. a charging unit; 427. a musical rhythm unit; 4271. a sound receiver; 4272. a signal processor; 42721. a spectrum separation circuit; 42722. a digital signal conversion circuit; 42723. a digital filter shaping circuit; 42724. a control circuit; 5. mounting a seat on a wall; 51. a first connecting seat; 52. a second connecting seat; 53. wall-mounted plug connectors; 54. fitting a joint on a wall; 56. a first circuit board; 57. a second circuit board; 58. connecting a plug-in connector; 59. connecting the socket joint; 6. a terminating connector; 61. and (4) a bump.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the utility model.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1, fig. 3, fig. 5, fig. 9 and fig. 11, a spliceable light emitter 1 according to the present invention will now be described. The spliceable luminous body 1 comprises a luminous part 11 and a rotary splicing part; the light emitting part 11 comprises a shell 111 and a light emitting piece 112, wherein the light emitting piece 112 is fixed on the shell 111, the rotary plug-in part is fixed on the shell 111, and the rotary plug-in part is electrically connected with the light emitting body; the rotary inserting part comprises a rotary inserting head 121 and a rotary sleeve joint 122, the rotary inserting head 121 and the rotary sleeve joint 122 are respectively electrically connected to the luminous body, the rotary inserting head 121 and the rotary sleeve joint 122 are respectively fixed on the shell 111, the rotary inserting head 121 is used for being rotatably inserted on the rotary sleeve joint 122 of other connectable luminous bodies 1 or being rotatably inserted on the bottom sleeve joint 321 of the base 3 or the wall-mounted sleeve joint 54 of the wall-mounted base 5 or being sleeved on the remote-control sleeve joint of the light controller 4, and the rotary sleeve joint 122 is used for being sleeved on the rotary inserting head 121 of other connectable luminous bodies 1 or being sleeved on the bottom inserting head of the base 3 or being sleeved on the wall-mounted inserting head 53 of the wall-mounted base 5 or being sleeved on the rotary connecting unit 424 of the light controller 4.

Compared with the prior art, when the spliceable luminous body 1 is used and only one spliceable luminous body 1 is used, the rotary plug-in connector 121 of the spliceable luminous body 1 is plugged on the bottom sleeve connector 321 of the base 3, the base 3 is connected with the external power supply 2, the external power supply 2 supplies power to the spliceable luminous body 1 through the base 3, the spliceable luminous body 1 rotates on the base 3 through the matching of the rotary plug-in connector 121 and the bottom sleeve connector 321, the spliceable luminous body 1 keeps a normal power-on state in the rotating process, the luminous direction of the spliceable luminous body 1 is convenient to adjust, and different atmosphere effects are generated. The light-emitting body 1 capable of being spliced does not need to be spliced in the transportation process, and the transportation is convenient.

When at least two of the spliceable luminous bodies 1 are required to be used simultaneously, the spliceable luminous bodies 1 are connected in sequence. In the following, the following can be connected between the spliceable luminaires 1: the rotary sleeve joint 122 of one spliceable luminous body 1 is sleeved on the rotary plug-in joint 121 of the other spliceable luminous body 1. In the connected sequentially spliceable luminous body 1: the unconnected rotary union 122 is connected to the bottom socket connector of the base 3 or the unconnected rotary union 121 is connected to the bottom socket connector 321 of the base 3. After the sequentially connected spliceable luminous bodies 1 are connected to the base 3, the base 3 is connected with the external power supply 2, and the external power supply 2 supplies power to the sequentially connected spliceable luminous bodies 1 through the base 3. The luminous bodies 1 which are connected in sequence and can be spliced rotate on the base 3 through the matching of the rotary plug-in connector 121 and the bottom sleeve connector 321 or rotate on the base 3 through the matching of the rotary sleeve connector 122 and the bottom plug-in connector, the luminous bodies 1 which are connected in sequence and can be spliced keep a normal power-on state in the rotating process, the luminous directions of the luminous bodies 1 which are connected in sequence and can be spliced are convenient to adjust, and different atmosphere effects are generated. The adjacent spliceable luminous bodies 1 in the power-on state are rotatably adjusted through the matching of the rotary plug-in connector 121 and the rotary sleeve connector 122, so that the luminous directions of the adjacent spliceable luminous bodies 1 can be conveniently adjusted, and the spliceable luminous bodies 1 which are sequentially connected and arranged on the base 3 have more atmosphere effects.

Further, as a specific embodiment of the spliceable light emitter 1 provided by the utility model, the housing 111 is a cylindrical housing 111, a prismatic housing 111 or a U-shaped housing 111.

Specifically, when the housing 111 is a cylindrical housing 111, the rotary plug 121 and the rotary sleeve joint 122 are respectively fixed at both ends of the cylindrical housing 111; when the housing 111 is a prismatic housing 111, the rotary plug 121 and the rotary sleeve joint 122 are respectively fixed at two ends of the prismatic housing 111; when the housing 111 is a U-shaped housing 111, the rotary socket joint 121 and the rotary sleeve joint 122 fix a first end and a second end of the U-shaped housing 111, respectively.

Further, referring to fig. 1 and fig. 2, as an embodiment of the spliceable light emitter 1 provided by the present invention, in order to protect the light emitting element 112 and ensure the light emitting effect of the spliceable light emitter 1, the housing 111 is a transparent body, and the light emitting element 112 can be disposed in the transparent body.

Further, referring to fig. 1 and fig. 2, as a specific embodiment of the light emitting device 1 capable of being spliced provided by the present invention, the light emitting device 112 includes a circuit board 1121 and a plurality of light emitting lamps 1122 disposed on the circuit board 1121, the light emitting lamps 1122 are electrically connected to the circuit board 1121, the rotary plug 121 and the rotary sleeve connector 122 are respectively fixed to the circuit board 1121, and the rotary plug 121 and the rotary sleeve connector 122 are both electrically connected to the circuit board 1121.

Specifically, the circuit board 1121 is a flexible circuit board, an aluminum substrate, or a glass fiber board.

Specifically, when the housing 111 is a cylindrical housing 111, the circuit board 1121 is a first strip-shaped plate, and the light-emitting lamps 1122 are arranged along the length direction of the first strip-shaped plate. Preferably, the light emitting lamps 1122 are uniformly arranged along the length direction of the first strip plate. The first strip is disposed along the length of the cylindrical housing 111.

Specifically, when the housing 111 is a prismatic housing 111, the circuit board 1121 is a second strip-shaped plate, and the light-emitting lamps 1122 are arranged along the length direction of the second strip-shaped plate. Preferably, the light emitting lamps 1122 are uniformly arranged along the length direction of the second strip-shaped plate. The second strip plate is disposed along the length direction of the prismatic case 111.

Specifically, when the housing 111 is a U-shaped housing 111, the circuit board 1121 is a U-shaped plate, and the light emitting lamps 1122 are arranged along the length direction of the U-shaped plate. Preferably, the light emitting lamps 1122 are uniformly arranged along the U-shaped plate. The U-shaped plate is disposed along the length direction of the U-shaped housing 111.

Further, as a specific embodiment of the light emitting body 1 capable of being spliced provided by the present invention, the light emitting lamp 1122 is a patch lamp or a lamp bead.

Further, as a specific embodiment of the light-emitting body 1 capable of being spliced provided by the present invention, the rotary plug 121 is a first round-head male plug of an earphone, and the rotary socket 122 is a first round-head female plug of an earphone.

Specifically, first round-head earphone male plug is first four-wire earphone male plug, and first round-head earphone female plug is first four-wire earphone female plug.

Referring to fig. 1, fig. 3 and fig. 4, the present invention further provides a base 3, wherein the base 3 includes a fixing base 31 and a connecting assembly 32, and the connecting assembly 32 is used for detachably connecting the spliceable light emitting body 1 and the external power source 2. The connection assembly 32 includes a bottom plug connector or/and a bottom sleeve connector 321. When the connecting assembly 32 comprises at least two bottom plug connectors, at least one bottom plug connector is arranged vertically upwards, the bottom plug connectors are fixed on the fixing seat 31, and the bottom plug connectors are electrically connected; when the connecting assembly 32 includes at least two bottom sleeve joints 321, at least two bottom sleeve joints 321 are arranged, at least one bottom sleeve joint 321 is arranged vertically upward, the bottom sleeve joint 321 is fixed on the fixing seat 31, and the bottom sleeve joints 321 are electrically connected; when the connection assembly 32 includes the bottom plug connector and the bottom sleeve connector 321, the bottom plug connector is at least provided with one, the bottom sleeve connector 321 is at least provided with one, at least one of the bottom plug connector and the bottom sleeve connector 321 is vertically arranged upwards, the bottom plug connector and the bottom sleeve connector 321 are fixed on the fixed seat 31, and the bottom plug connector is electrically connected with the bottom sleeve connector 321.

Specifically, the fixing seat 31 is provided with a placing surface for contacting with a horizontal surface.

Specifically, the horizontal plane is the surface of the ground, the desktop or the suspended plate body.

According to the base 3 provided by the utility model, the base 3 is simple in structure and convenient to use, and the spliced luminous body 1 can rotate after being connected to the base 3, so that the luminous direction of the spliced luminous body 1 can be conveniently adjusted. When the control of the spliceable light 1 is required, the control can be performed by connecting the rotary connecting unit 424 of the light controller 4, and then the control of the spliceable light 1 is performed by the light controller 4.

Further, as a specific embodiment of the base 3 provided by the present invention, the fixing seat 31 is a plastic seat or a metal seat.

Further, referring to fig. 3 and fig. 4, as an embodiment of the base 3 provided by the present invention, the base 3 further includes a bottom circuit board 33, the bottom circuit board 33 is fixed on the fixing base 31, and the connecting component 32 is electrically connected to the fixing base 31.

Specifically, one bottom plug connector is provided, a plurality of bottom sleeve connectors 321 are provided, and the bottom plug connectors are used for simultaneously performing communication connection on all the bottom sleeve connectors 321 through the bottom circuit board 33.

Specifically, a plurality of bottom connectors are provided, one bottom sleeve connector 321 is provided, and the bottom sleeve connector 321 performs communication connection on all the bottom connectors through the bottom circuit board 33.

Specifically, two bottom casing joints 321 are provided, and the two bottom casing joints 321 are connected in communication through the bottom circuit board 33.

Further, referring to fig. 3 and fig. 4, as an embodiment of the base 3 provided by the present invention, the bottom circuit board 33 is fixed in the fixing seat 31, and the connecting component 32 is embedded in the base 3.

Further, as a specific embodiment of the base 3 provided by the present invention, the bottom plug connector is a second round-head earphone male plug, and the bottom sleeve connector 321 is a second round-head earphone female plug.

Specifically, the second round-head earphone male plug is a second four-wire earphone male plug, and the second round-head earphone female plug is a second four-wire earphone female plug.

Referring to fig. 2, 5, 6 and 7, the present invention further provides a wall mount 5, wherein the wall mount 5 includes a first connector base 51, a second connector base 52, a wall mount connector 53 and a wall mount connector 54, the wall mount connector 53 is disposed on the first connector base 51, the wall mount connector 54 is disposed on the second connector base 52, the first connector base 51 is rotatably disposed on the second connector base 52, the wall mount connector 53 is electrically connected to the wall mount connector 54, and the first connector base 51 rotates on the second connector base 52 to drive the wall mount connector 53 to move away from or close to the wall mount connector 54.

When the wall mount 5 is used, the wall mount 5 is fixed on a preset plane, the rotary plug 121 capable of splicing the luminous body 1 is inserted into the wall mount socket 54, and the rotary socket 122 capable of splicing the luminous body 1 is sleeved on the wall mount plug 53, so that the convenience of arranging the splicing luminous body 1 on the preset plane is improved.

When the wall mount 5 is connected with two splicing illuminants 1, the light controller 4 is connected with the splicing illuminants 1. When the wall mount 5 is connected with a spliceable light 1, the light controller 4 can be connected to the spliceable light 1 or the wall mount 5.

The preset plane is a wall surface, a glass wall surface, a door surface or a ceiling.

Specifically, the first connecting seat 51 or the second connecting seat 52 is fixed on a preset plane by screws, so that the detachable installation of the wall mounting seat 5 is realized; a magnetic body (not shown) is fixed on the first connecting seat 51 or/and the second connecting seat 52, a magnet receiving body (not shown) is fixed on the preset plane, and the first connecting seat 51 or the second connecting seat 52 is adsorbed on the magnet receiving body, so that the adsorption type installation of the wall installation seat 5 is realized, and the installation and the disassembly are convenient; the first connecting seat 51 or the second connecting seat 52 is adhered to a preset plane, so that the wall mounting seat 5 is convenient to mount.

Further, referring to fig. 5 and 6, as a wall mount 5 provided by the present invention, the wall mount 5 includes a first circuit board 56, a second circuit board 57, a connection plug 58 and a connection sleeve connector 59, the first circuit board 56 and the connection sleeve connector 59 are disposed on the second connection base 52, the second circuit board 57 and the connection plug 58 are disposed on the second connection base 52, the wall mount plug 53 is electrically connected to the connection sleeve connector 59 through the first circuit board 56, the wall mount sleeve connector 54 is electrically connected to the connection plug 58 through the second circuit board 57, the connection plug 58 is inserted into the connection sleeve connector 59, and the first connection base 51 and the second connection base 52 are rotatably connected through the cooperation of the connection plug 58 and the connection sleeve connector 59. The first circuit board 56, the second circuit board 57, the connection plug 58 and the connection sleeve 59 not only realize the rotary connection between the first connection socket 51 and the second connection socket 52, but also ensure the electrical connection between the wall-mounted plug 53 and the wall-mounted plug 54.

Specifically, after the splicing luminous body 1 is connected to one wall mount 5, one end of the splicing luminous body 1 far away from the wall mount 5 is connected to other wall mounts 5 or the end-sealed connecting piece 6.

Further, as a specific embodiment of the wall mount 5 provided by the present invention, the connection plug 58 is a fourth round-head male plug of the earphone, and the connection socket 59 is a fourth round-head female plug of the earphone.

Specifically, the fourth round-head earphone male plug is a fourth four-wire earphone male plug, and the fourth round-head earphone female plug is a fourth four-wire earphone female plug.

Referring to fig. 7 and 8, the present invention further provides a wall mounting system, which includes the end-capping connecting member 6, the wall mounting base 5 and the light emitting body 1, wherein the end-capping connecting member 6 is used for being fixed on a vertical plane, and the end-capping connecting member 6 is further used for being clamped at any end of the light emitting body 1. When the end-capping connecting piece 6 is clamped at one end of the spliceable light-emitting body 1, the rotary plug 121 is positioned in the end-capping connecting piece 6 or the rotary sleeve joint 122 is positioned in the end-capping connecting piece 6.

When installing this wall dress system, connect the one end that can splice luminous body 1 earlier at wall dress seat 5, will splice luminous body 1 again and keep away from the one end joint of wall dress seat 5 on end-capping connecting piece 6, make the tip that can splice luminous body 1 not expose in the air when circular telegram, improve the security that can splice luminous body 1 and use.

Specifically, the end-capped connector 6 is a plastic connector or a wood connector.

Further, referring to fig. 7 and 8, as a specific embodiment of the wall mounting system provided by the present invention, the end-sealing connecting piece 6 is provided with a protrusion 61, the end portions of the light-emitting bodies 1 that can be spliced are provided with clamping grooves, and the protrusion 61 is clamped in the clamping grooves.

Referring to fig. 9, 10 and 11, the present invention further provides a light controller 4, wherein the light controller 4 includes a power module 41 and a light operation module 42, the power module 41 has a power input end and a power output end, the power input end is used for connecting an external power supply 2, and the power output end is electrically connected to the light operation module 42; the light operation module 42 includes a mounting case 421, a central processing unit 422, an operation signal input unit 423, and a rotary connection unit 424 for energization; the central processing unit 422, the operation signal input unit 423, and the rotation connection unit 424 are mounted on the mounting case 421; the central processing unit 422 is electrically connected to the operation signal input unit 423 and the rotation connection unit 424.

Referring to fig. 2, 4 or 9, the rotary connection unit 424 is used to connect directly to the wall mount 5 or the base 3 or the spliceable light emitter 1. The power module 41 supplies power to the wall mount 5 or the base 3 or the tileable luminaire 1 directly through the rotary unit. The junction between the illuminating lamp and the light controller 4 can be rotated, and the normal power supply of the illuminating lamp and the light controller 4 is ensured.

Specifically, when the rotary connection unit 424 is directly connected to the wall mount 5, the rotary connection unit 424 and the wall mount 5 are conveniently connected, the light emitter 1 capable of being spliced is rotatably connected to the wall mount 5, so that the power module 41 energizes the light emitter 1 capable of being spliced on the wall mount 5, and meanwhile, the central processing unit 422 controls the light emitter 1 capable of being spliced through the rotary connection unit 424 and the wall mount 5;

when the rotary connection unit 424 is directly connected to the base 3, the spliceable light-emitting body 1 is rotatably connected to the base 3, so that the power module 41 energizes the spliceable light-emitting body 1 on the base 3, and meanwhile, the central processing unit 422 controls the spliceable light-emitting body 1 through the rotary connection unit 424 and the base 3;

when the rotary connection unit 424 is directly connected to the spliceable light emitter 1, the power module 41 is powered on the spliceable light emitter 1, and meanwhile, the central processing unit 422 controls the spliceable light emitter 1 through the rotary connection unit 424.

Specifically, the mounting case 421 is a plastic case or a metal case.

Further, as the light controller 4 provided by the present invention, the rotary connection unit 424 is at least one of a fifth round-head earphone male plug and a fifth round-head earphone female plug.

When the rotary connection unit 424 is the male plug of fifth button head earphone, the male plug of fifth button head earphone is connected to the female plug of second four-wire earphone of the base 3 or to the female plug of first four-wire earphone which can splice the luminous body 1.

When the rotary connection unit 424 is a fifth round female plug of earphone, the fifth round female plug of earphone is connected to the second four-wire male plug of the base 3 or the first four-wire male plug of earphone capable of being spliced with the luminous body 1.

When the rotary connection unit 424 includes the fifth round-head earphone male plug and the fifth round earphone female plug, the user selects any one of the fifth round-head earphone male plug and the fifth round earphone female plug to use.

Specifically, the fifth round-head earphone male plug is a fifth fourth-line earphone male plug, and the fifth round-head earphone female plug is a fifth fourth-line earphone female plug.

Further, referring to fig. 10 and 13, as the light controller 4 provided by the present invention, the operation signal input unit 423 includes a light circuit board 4236 and a control assembly 4237, the control assembly 4237 and the light circuit board 4236 are disposed on the mounting case 421, the control assembly 4237 is electrically connected to the central processing unit 422 through the light circuit board 4236, and a user operates the control assembly 4237 to enable the central processing unit to control the spliceable light emitter 1 through the rotary connection unit 424, so as to implement the power on/off function and the dimming brightness adjustment function of the spliceable light emitter 1.

Specifically, the control component 4237 is a control touch screen or a plurality of control keys, when the control component 4237 is a plurality of control keys, the control keys are movably arranged on the installation shell 421, the light circuit board 4236 is provided with control contacts, the control contacts are arranged on one sides of the control keys, the control keys are far away from or close to the light circuit board 4236 on the installation shell 421, and when the control keys are close to the light circuit board 4236, the control keys are in contact with the control contacts to enable the central processing unit 422 to control the spliceable light emitter 1. When the control component 4237 is a control touch screen, the control touch screen is disposed on the mounting housing 421, the control touch screen is electrically connected to the lighting circuit board 4236, the control touch screen is communicatively connected to the central processing unit 422 through the lighting circuit board 4236, and a user operates the control touch screen to enable the central processing unit 422 to control the spliceable light emitter 1.

Preferably, the central processing unit 422 is a first light management device or a first light management chip.

Further, as a light controller 4 provided by the present invention, the operation signal input unit 423 includes a wireless communication unit communicatively connected to the central processing unit 422, and the wireless communication unit is used for wirelessly connecting to the mobile terminal.

Specifically, the mobile terminal is a mobile phone or a tablet device.

Specifically, the wireless communication unit is a wifi unit or a bluetooth unit. Preferably, the first wifi unit is a first wifi device or a first wifi chip; the first Bluetooth unit is a first Bluetooth device or a first Bluetooth chip.

Further, referring to fig. 10, 12 and 13, as the light controller 4 provided by the present invention, the operation signal input unit 423 further includes a remote operation device, the remote operation device includes a connection shell 4231, an operation module 4232, a remote communication module 4233, a charging module 4234 and an adsorption module 4235, and the remote communication module 4233, the operation module 4232, the charging module 4234 and the adsorption module 4235 are fixed on the connection shell 4231; the charging module 4234 is electrically connected to the operation module 4232 and the remote communication module 4233, the charging module 4234 is used for supplying power to the operation module 4232 and the remote communication module 4233, and the operation module 4232 is used for sending an operation signal to the central processing unit 422 through the remote communication module 4233; the light operation module 42 further includes a suction unit 425 and a charging unit 426, the charging unit 426 and the suction unit 425 are disposed on the mounting case 421, the charging unit 426 is electrically connected to the power output terminal, the connection case 4231 is sucked on the mounting case 421 by suction between the suction module 4235 and the suction unit 425, and when the connection case 4231 is sucked on the mounting case 421, the power module 41 charges the charging module 4234 through the charging unit 426. The user can control the spliceable luminous body 1 through the remote operation device, the remote communication module 4233 is not required to be connected with a mobile terminal, the remote communication module 4233 automatically matches with a wireless communication unit, and the trouble that the mobile terminal matches with the wireless communication unit is reduced.

Specifically, the charging unit 426 is a wireless charging assembly or a charging pin assembly, and when the charging unit 426 is a wireless charging assembly, the charging module 4234 is a wireless charging receiving assembly; when the charging unit 426 is a charging pin assembly, the charging module 4234 is a charging contact assembly, and a charging pin of the charging pin assembly is used for contacting with a charging point of the charging contact assembly.

Specifically, the operation module 4232 includes an operation unit 42321, a processing unit 42322, and an operation circuit board 42323, the operation unit 42321 is electrically connected to the processing unit 42322, and the processing unit 42322 is electrically connected to the remote communication module 4233 through the operation circuit board 42323. Preferably, the processing unit 42322 is a touch screen unit or a key unit. When the processing unit 42322 is a key unit, the operation circuit board 42323 is provided with a key contact, the key unit is movably arranged on the connection shell 4231, the key contact is positioned in the connection shell 4231 and on one side of the key unit, the key unit is far away from or close to the key contact, the key contact is in communication connection with the processing unit 42322 through the operation circuit board 42323, and a user controls the processing unit 42322 to form an operation signal through the contact of the key unit and the key contact. When the processing unit 42322 is a touch screen unit, the touch screen unit is electrically connected to the operation circuit board 42323, the touch screen unit is electrically connected to the processing unit 42322 through the operation circuit board 42323, and a user controls the processing unit 42322 through the touch screen unit to form an operation signal. The remote communication module 4233 is used for wireless connection with a remote operation device.

Preferably, the remote communication module 4233 is a second wifi unit or a second bluetooth unit. Preferably, the second wifi unit is a second wifi device or a second wifi chip; the second Bluetooth unit is a second Bluetooth device or a second Bluetooth chip.

Preferably, the processing unit 42322 is a second light management device or a second light management chip.

Further, as the light controller 4 provided by the present invention, the adsorption module 4235 is a first magnetic member or a first magnetized member; when the adsorption module 4235 is a first magnetic member, the adsorption unit 425 is a second magnetic member; when the adsorption module 4235 is a first magnetic member, the adsorption unit 425 is a second magnetic member.

When the adsorption module 4235 is the first magnetic piece, the user can adsorb the remote operation device on the magnetized article with the magnetized function, so that the adsorption convenience of the remote operation device is improved. Preferably, the magnetically susceptible item is a refrigerator or a seat with a metal backrest or a table with a metal shelf.

Specifically, the first magnetic member and the second magnetic member are both first magnets. The first magnetic receiving piece and the second magnetic receiving piece are both iron sheets or second magnets with the polarity opposite to that of the first magnets. Preferably, when the second magnetic member is an iron sheet, the metal shell is an iron shell, and the second magnetic member is integrally provided with the iron shell.

Further, as shown in fig. 11 and 14, the light controller 4 provided as the present invention further includes a musical rhythm unit 427, and the musical rhythm unit 427 is electrically connected to the central processing unit 422.

The musical rhythm unit 427 is used for collecting sound signals, the musical rhythm unit 427 is used for receiving the sound signals to output control signals along with the change of the sound signals, and the central processing unit 422 is used for controlling the light emitting state of the light emitting part 11 of the spliceable light emitting body 1 according to the control signals.

Specifically, the lighting state includes a change in lighting and a change in color.

Specifically, the musical rhythm unit 427 includes a sound receiver 4271 and a signal processor 4272, the sound receiver 4271 is electrically connected to the signal processor 4272, and the signal processor 4272 is electrically connected to the central processing unit 422. The sound receiver 4271 is used for receiving sound signals, and the signal processor 4272 is used for outputting control signals along with the change of the sound signals.

Preferably, the signal processor 4272 comprises a spectrum separation circuit 42721, a digital signal conversion circuit 42722, a digital filter shaping circuit 42723 and a control circuit 42724, the sound receiver 4271 is electrically connected to the spectrum separation circuit 42721, the digital signal conversion circuit 42722, the digital filter shaping circuit 42723 and the control circuit 42724, and the sound signal outputs a control signal which changes synchronously with the sound signal after being subjected to spectrum separation, digital signal conversion and digital filter shaping.

More preferably, the sound receiver 4271 is a piezoelectric microphone MIC or a smart speaker.

Specifically, musical note unit 427 is a musical note device, a musical note chip, or a musical note circuit.

Referring to fig. 1, fig. 3 and fig. 4, the utility model further provides a lamp, which includes the light-emitting body 1 and the base 3.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A light controller is characterized by comprising a power supply module and a light operation module, wherein the power supply module is provided with a power supply input end and a power supply output end, the power supply input end is used for being connected with an external power supply, and the power supply output end is electrically connected with the light operation module;

the light operation module comprises an installation shell, a central processing unit, an operation signal input unit and a rotary connection unit for electrifying; the central processing unit, the operation signal input unit and the rotary connection unit are mounted on the mounting case;

the central processing unit is electrically connected to the operation signal input unit and the rotary connection unit.

2. The light controller of claim 1, wherein the rotary connection unit is at least one of a fifth round-head earphone male plug and a fifth round-head earphone female plug.

3. A light controller as claimed in claim 1, wherein said light controller further comprises a musical rhythm unit, said musical rhythm unit being electrically connected to said central processing unit.

4. A light controller according to claim 1, wherein the operation signal input unit includes a light circuit board and a control module, the control module and the light circuit board are disposed on the mounting case, and the control module is electrically connected to the central processing unit through the light circuit board.

5. A light controller according to claim 4, wherein the control component is a control touch screen or a plurality of control keys;

when the control component is a plurality of control keys, the control keys are movably arranged on the mounting shell, the light circuit board is provided with a control contact, the control contact is arranged on one side of the control keys, the control keys are far away from or close to the light circuit board on the mounting shell, and when the control keys are close to the light circuit board, the control keys are contacted with the control contacts to enable the central processing unit to control the splicing luminous body;

when the control assembly is a control touch screen, the control touch screen is arranged on the installation shell, the control touch screen is electrically connected to the lighting circuit board, and the control touch screen is in communication connection with the central processing unit through the lighting circuit board.

6. The light controller of claim 4, wherein the operation signal input unit comprises a wireless communication unit, the wireless communication unit is communicatively connected to the central processing unit, and the wireless communication unit is used for wirelessly connecting to a mobile terminal.

7. The light controller of claim 4, wherein the operation signal input unit further comprises a remote operation device, the remote operation device comprises a connection housing, an operation module, a remote communication module, a charging module and a suction module, and the remote communication module, the operation module, the charging module and the suction module are fixed on the connection housing; the charging module is electrically connected with the operation module and the remote communication module, the charging module is used for supplying power to the operation module and the remote communication module, and the operation module is used for sending an operation signal to the central processing unit through the remote communication module;

the light operation module still includes adsorbs unit and charging unit, charging unit with adsorb the unit setting on the installation shell, the charging unit electricity is connected in the power output end, the connection shell passes through adsorb the module with adsorb between the unit adsorption and adsorb on the installation shell, work as the connection shell adsorbs when on the installation shell, power module passes through charging unit is right the module that charges.

8. The light controller of claim 7, wherein the charging unit is a wireless charging assembly or a charging pin assembly, and when the charging unit is a wireless charging assembly, the charging module is a wireless charging receiving assembly; when the charging unit is a charging needle assembly, the charging module is a charging contact assembly, and a charging contact pin of the charging needle assembly is used for contacting with a charging point of the charging contact assembly.

9. The light controller of claim 7, wherein the operating module comprises an operating unit, a processing unit and an operating circuit board, the operating unit being electrically connected to the processing unit, the processing unit being electrically connected to the remote communication module through the operating circuit board.

10. The light controller of claim 7, wherein the absorption module is a first magnetic member or a first magnetized member; when the adsorption module is the first magnetic piece, the adsorption unit is a second magnetic piece; when the adsorption module is the first magnetic part, the adsorption unit is a second magnetic part.

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