CN213207766U - Can splice luminous lamps and lanterns - Google Patents

Abstract

The utility model discloses a can splice luminous lamps and lanterns, including first module and a plurality of second module, first module and a plurality of second module are connected, and first module and second module all include the frame, the luminescence unit, light guide plate and DALI controller, and the frame is connected mutually by a plurality of cell bodies end to end and is constituteed, the inside cavity of cell body, and be equipped with the opening towards the inside one side of cell body, and luminescence unit and DALI controller are connected, and all set up in the cell body, and the opening is used for clamping the light guide plate, is equipped with circular telegram interface group and signal interface group on the DALI controller. The utility model provides a can splice luminous lamps and lanterns according to above-mentioned content, realize the light demand of lamps and lanterns module to different chromatic light.

Description

Can splice luminous lamps and lanterns

Technical Field

The utility model relates to a lamps and lanterns field especially relates to a luminous lamps and lanterns can splice.

Background

The lamp is a lighting device and has the function of decoration. With the development of science and technology, people have higher and higher requirements on quality of life. Most of the existing lamps are independent, the lamp structure is single, the combination mode through the unit mode is less, the structure is heavier, the flexibility is insufficient, the combination change is not rich enough, the product lacks novelty, the combination can not be combined randomly to build specific change, and the requirement of consumers can not be met.

The DALI (Digital Addressable Lighting Interface) is a two-first bidirectional serial Digital communication protocol, a Digital Lighting control communication system developed by Lighting manufacturers due to energy-saving requirements, and the standardization of the DALI communication protocol accelerates the popularization and application of group control and intelligent Lighting energy-saving products. DALI is currently widely used in the field of lighting devices as a standard protocol for lighting interfaces. More of a person's needs are generally met by DALI.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can splice luminous lamps and lanterns realizes the light demand of lamps and lanterns module to different chromatic lights.

To achieve the purpose, the utility model adopts the following technical proposal:

a spliceable light emitting luminaire comprising a first module and a plurality of second modules, the first module and the plurality of second modules being connected;

the first module and the second module respectively comprise a frame, a light-emitting unit, a light guide plate and a DALI controller;

the frame is formed by connecting a plurality of groove bodies end to end, the groove bodies are hollow, and an opening is formed in one side facing the interior of the groove bodies; the light emitting unit is connected with the DALI controller and arranged in the groove body, and the opening is used for clamping the light guide plate; the DALI controller is provided with a power-on interface group and a signal interface group;

the power-on interface group and the signal interface group of the DALI controller in one tank body of the first module are respectively connected with the power-on interface group and the power signal interface group of an external power supply, the power-on interface group of the DALI controller in any other tank body of the first module is connected with the power-on interface group of the DALI controller in one tank body of the second module, and the signal interface group of the DALI controller in any other tank body of the first module is connected with the signal interface group of the DALI controller in one tank body of the second module.

Further, the power-on interface group comprises a live wire interface and a zero wire interface, and the signal interface group comprises a first color light signal wire interface and a second color light signal wire interface;

the first color light signal line interface, the second color light signal line interface, the live line interface and the zero line interface are sequentially arranged on the DALI controller.

Further, the live interface of the DALI controller in any other one of the slots of the first module is connected to the live interface of the DALI controller in one of the slots of the second module, and the neutral interface of the DALI controller in any other one of the slots of the first module is connected to the neutral interface of the DALI controller in one of the slots of the second module.

Specifically, the first color signal line interface of the DALI controller of any other one of the tanks of the first module is connected to the first color signal line interface of the DALI controller in one of the tanks of the second module, and the second color signal line interface of the DALI controller of any other one of the tanks of the first module is connected to the second color signal line interface of the DALI controller in one of the tanks of the second module.

For example, a fire wire hole, a zero wire hole, a first signal hole and a second signal hole are formed in the other side of the groove body of the frame, the fire wire hole corresponds to the fire wire interface, the zero wire hole corresponds to the zero wire interface, the first signal hole corresponds to the first color light signal line interface, and the second signal hole corresponds to the second color light signal line interface.

In some embodiments, the first color light signal line interface, the second color light signal line interface, the live line interface, and the neutral line interface are metal sheets, respectively.

Preferably, the light emitting unit is an LED strip, and the LED strip is arranged around the groove body.

In some embodiments, the light guide plate is an acrylic plate.

The utility model has the advantages that:

1. the light-emitting unit and the DALI controller are arranged in the frame, the light-emitting unit is connected with the DALI controller, an external power supply provides electric energy for the light-emitting unit, the structure is simple and convenient, the light-emitting unit is convenient to emit light, and then a linear light source of the light-emitting unit is converted into a surface light source through the light guide plate, so that the lighting requirement is met;

2. through setting up first module and second module, the frame of first module is the polygon, can realize the electricity of first module and a plurality of second module and be connected, and first module and every second module all connect through the inside DALI controller of each module, adopt modular structure, easily standardized production can splice according to actual demand at will, and the marketization of being convenient for is used.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

fig. 2 is a schematic diagram of an explosive structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of FIG. 2 at a larger scale;

fig. 4 is a schematic structural diagram of a frame according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a DALI controller according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a first module according to an embodiment of the present invention;

wherein: the lighting device comprises a first module 1, a frame 11, a live wire hole 101, a null wire hole 102, a first signal hole 103, a second signal hole 104, an opening 111, a lighting unit 12, a light guide plate 13, a DALI controller 14, a power-on interface group 141, a live wire interface 1411, a null wire interface 1412, a signal interface group 142, a first color signal wire interface 1421, a second color signal wire interface 1422 and a second module 2.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", "inner", "outer end", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1-6, an embodiment of the present invention provides a spliceable light-emitting lamp, including a first module 1 and a plurality of second modules 2, where the first module 1 is connected to the plurality of second modules 2;

the first module 1 and the second module 2 each include a bezel 11, a light emitting unit 12, a light guide plate 13, and a DALI controller 14;

the frame 11 is formed by connecting a plurality of groove bodies end to end, the groove bodies are hollow, and one side facing the inside of the groove bodies is provided with an opening 111; the light emitting unit 12 and the DALI controller 14 are connected and arranged in the groove, and the opening 111 is used for clamping the light guide plate 13; the DALI controller 14 is provided with an electrifying interface group 141 and a signal interface group 142;

the energization interface group 141 and the signal interface group 142 of the DALI controller 14 in one of the tanks of the first module 1 are respectively connected to a power energization interface group and a power signal interface group of an external power supply, the energization interface group 141 of the DALI controller 14 in any other one of the tanks of the first module 1 is connected to the energization interface group 141 of the DALI controller 14 in one of the tanks of the second module 2, and the signal interface group 142 of the DALI controller 14 in any other one of the tanks of the first module 1 is connected to the signal interface group 142 of the DALI controller 14 in one of the tanks of the second module 2.

The lighting of the lighting unit 12 controlled by the DALI controller 14 does not belong to the protection contents of the present invention, which belongs to the prior art, and the structure of the first module 1 and the second module 2, the connection mode of the first module 1 and the plurality of second modules 2 belong to the protection contents of the present invention.

In this embodiment, the power supply power-on interface group and the power signal interface group of the external power supply are respectively connected to the power-on interface group 141 and the signal interface group 142 of the DALI controller 14 in the first module 1, the power-on interface group 141 and the signal interface group 142 of the DALI controller 14 in the first module 1 are connected to the power-on interface group 141 and the signal interface group 142 of the second module 2, when in operation, the external power supply transmits an electrical signal and a control signal to the first module 1, the first module 1 transmits an electrical signal and a control signal to the second module 2, the DALI controller 14 controls the color temperature and the color difference of the light-emitting unit 12, the light-emitting unit 12 emits light to illuminate the light guide plate 13, the light guide plate 13 changes the line light source of the light-emitting unit 12 into a surface light source, so as to meet the illumination requirement, and the first module 1 and the second module 2 can be combined at will, different groups are spliced, and the multi-scene application of modeling is randomly placed, so that the lamp is diversified in use, and the effect of improving the diversification of the application of the lamp is achieved.

The color temperature, that is, the DALI controller 14 may control the light emitting brightness of the light emitting unit 12, and the brightness of the light emitting unit 12 may be adjusted according to an application scene, and the color difference, that is, the DALI controller 14 may control the color depth change of the light emitting unit 12, so as to implement the function of dimming and color mixing of the light emitting unit 12, and the control of the DALI controller on the light temperature adjustment and the color difference is the prior art, and is not described herein again.

As shown in fig. 5, the power-on interface set 141 includes a hot interface 1411 and a neutral interface 1412, and the signal interface set 142 includes a first color signal line interface 1421 and a second color signal line interface 1422;

the first color light signal line interface 1421, the second color light signal line interface 1422, the live line interface 1411, and the neutral line interface 1412 are sequentially arranged on the DALI controller 14.

In this embodiment, the first color light signal line interface 1421, the second color light signal line interface 1422, the live line interface 1411, and the zero line interface 1412 of each DALI controller 14 are arranged in the same order, which is beneficial to interface docking between the first module 1 and the second module 2, so as to avoid an abnormality caused by a problem of interface model docking, and the connection efficiency is affected without checking the type of the interface and then correspondingly connecting, thereby achieving an effect of improving the module connection efficiency.

The first color signal line interface 1421 represents a yellow signal interface, and the second color signal line interface 1422 represents a white signal interface.

As shown in fig. 1 and 6, the live interface 1411 of the DALI controller 14 in any other one of the slots of the first module 1 is connected to the live interface 1411 of the DALI controller 14 in one of the slots of the second module 2, and the neutral interface 1412 of the DALI controller 14 in any other one of the slots of the first module 1 is connected to the neutral interface 1412 of the DALI controller 14 in one of the slots of the second module 2.

In this embodiment, the live wire interface 1411 and the neutral wire interface 14112 between the modules correspond to each other one by one, so as to ensure the reliability of electrical signal transmission.

As shown in fig. 1 and 6, the first color signal line interface 1421 of the DALI controller 14 of any other one of the tanks of the first module 1 is connected to the first color signal line interface 1421 of the DALI controller 14 in one of the tanks of the second module 2, and the second color signal line interface 1422 of the DALI controller 14 of any other one of the tanks of the first module 1 is connected to the second color signal line interface 1422 of the DALI controller 14 in one of the tanks of the second module 2.

In this embodiment, the first color signal line interfaces 1421 and the second color signal line interfaces 1422 between the modules are in one-to-one correspondence, respectively, so as to ensure the reliability of control signal transmission.

As shown in fig. 3, a fire wire hole 101, a zero wire hole 102, a first signal hole 103 and a second signal hole 104 are formed in the other side of the tank body of the frame 11, the fire wire hole 101 corresponds to the fire wire interface 1411, the zero wire hole 102 corresponds to the zero wire interface 1412, the first signal hole 103 corresponds to the first color light signal line interface 1421, and the second signal hole 104 corresponds to the second color light signal line interface 1422.

In this embodiment, the two live wire interfaces 1411 of two modules are connected through the live wire hole 101 in a butt joint manner, the two zero wire interfaces 1412 of two modules are connected through the zero wire hole 102 in a butt joint manner, the two first color signal wire interfaces 1421 of two modules are connected through the first signal hole 103 in a butt joint manner, and the two second color signal wire interfaces 1422 of two modules are connected through the second signal hole 104 in a butt joint manner.

As shown in fig. 1, the first color signal line interface 1421, the second color signal line interface 1422, the live line interface 1411, and the neutral line interface 1412 are metal sheets, respectively.

In this embodiment, the transmission of the electrical signal and the control signal between the modules is specifically the channel metal sheet conduction electrical signal and the transmission control signal.

As shown in fig. 2, the light emitting unit 12 is an LED strip, and the LED strip is disposed around the groove.

In this embodiment, the LED strip is installed in the groove body, and the LDE strip is a side light emitting structure, so as to realize light guide illumination of the light guide plate 13.

As shown in fig. 2, the light guide plate 13 is an acrylic plate.

In this embodiment, the light guide plate 13 is an acrylic plate, and the acrylic plate 13 can present different patterns under the action of the LED strip.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (8)

1. A spliceable light emitting lamp, comprising: the system comprises a first module and a plurality of second modules, wherein the first module is connected with the plurality of second modules;

the first module and the second module respectively comprise a frame, a light-emitting unit, a light guide plate and a DALI controller;

the frame is formed by connecting a plurality of groove bodies end to end, the groove bodies are hollow, and an opening is formed in one side facing the interior of the groove bodies; the light emitting unit is connected with the DALI controller and arranged in the groove body, and the opening is used for clamping the light guide plate; the DALI controller is provided with a power-on interface group and a signal interface group;

the power-on interface group and the signal interface group of the DALI controller in one tank body of the first module are respectively connected with the power-on interface group and the power signal interface group of an external power supply, the power-on interface group of the DALI controller in any other tank body of the first module is connected with the power-on interface group of the DALI controller in one tank body of the second module, and the signal interface group of the DALI controller in any other tank body of the first module is connected with the signal interface group of the DALI controller in one tank body of the second module.

2. The tileable lighting fixture of claim 1, wherein: the power-on interface group comprises a live wire interface and a zero wire interface, and the signal interface group comprises a first color light signal wire interface and a second color light signal wire interface;

the first color light signal line interface, the second color light signal line interface, the live line interface and the zero line interface are sequentially arranged on the DALI controller.

3. The tileable lighting fixture of claim 2, wherein: the live interface of the DALI controller in any other one of the slots of the first module is connected to the live interface of the DALI controller in one of the slots of the second module, and the neutral interface of the DALI controller in any other one of the slots of the first module is connected to the neutral interface of the DALI controller in one of the slots of the second module.

4. The tileable lighting fixture of claim 2, wherein: the first color signal line interface of the DALI controller of any other one of the tanks of the first module is connected with the first color signal line interface of the DALI controller in one of the tanks of the second module, and the second color signal line interface of the DALI controller of any other one of the tanks of the first module is connected with the second color signal line interface of the DALI controller in one of the tanks of the second module.

5. The tileable lighting fixture of claim 2, wherein: the other side of the groove body of the frame is provided with a fire wire hole, a zero wire hole, a first signal hole and a second signal hole, the fire wire hole corresponds to the fire wire interface, the zero wire hole corresponds to the zero wire interface, the first signal hole corresponds to the first color light signal wire interface, and the second signal hole corresponds to the second color light signal wire interface.

6. The tileable lighting fixture of claim 2, wherein: the first color light signal line interface, the second color light signal line interface, the live wire interface and the zero line interface are respectively metal sheets.

7. The tileable lighting fixture of claim 1, wherein: the light-emitting unit is an LED lamp strip which is arranged along the groove body in a surrounding mode.

8. The tileable lighting fixture of claim 1, wherein: the light guide plate is an acrylic plate.

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