CN111043551A - Photoelectric module - Google Patents

Abstract

The invention is suitable for the technical field of electrical devices, and provides a photoelectric module which comprises an optical component and a power supply component, wherein the optical component is composed of a plurality of light source plates, the power supply component is composed of a plurality of power supply functional modules, and the power supply functional modules are respectively arranged on the plurality of light source plates. Before assembly, a proper light source board can be selected for modularized free assembly and collocation, and a power supply function module capable of realizing the required function is arranged on the light source board, so that the flexibility is high, the function customization can be realized, and the resources are reasonably utilized; in the permanent use, if the condition that takes place part or whole light-emitting component or power function module damage, the light source board that corresponds the damage of removable down to replace the light source board that has damaged with new light source board, need not to change whole photovoltaic module, avoid useful resources's waste.

Description

Photoelectric module

Technical Field

The invention is suitable for the technical field of electrical devices, and particularly relates to a photoelectric module.

Background

In the field of illumination, the application of LED light-emitting products is attracting the eyes of people, and the LED as a novel green light source product is inevitably the trend of future development. In public places such as lighting engineering auxiliary lighting and the like, with the gradual development of LED lighting lamps, the LED lighting lamps gradually replace some traditional light source products, and some functional lamps such as induction lamps, dimming lamps, time-delay lamps and the like are also provided to meet the living demands of people.

In high-power LED lighting devices, the optoelectronic module is usually designed as an integrated optoelectronic module. The photoelectric module comprises a substrate, and a power supply module and an LED light-emitting module which are arranged on the substrate, wherein the power supply module drives the LED light-emitting module to work. Because of its simple structure, and only need with on the photoelectric module installs LED lighting apparatus's the base, with equipment such as lamp shade again can, need not too much consideration circuit design, production equipment is extremely convenient.

However, during the assembly process of the product, because the use requirements are inconsistent, the product is integrally provided with modules which are not needed to be used. In addition, the power module and the LED light-emitting module can generate heat, so that the service life of the product is short after long-term use; after the product is damaged, only the whole module can be replaced, and the good component materials cannot be reasonably utilized.

Disclosure of Invention

The invention provides a photoelectric module, and aims to solve the problem of unnecessary resource waste caused by the fact that an LED photoelectric module cannot be assembled in a modularized mode.

The invention is realized in such a way, and provides a photoelectric module, which comprises an optical component and a power supply component, wherein the optical component is composed of a plurality of light source plates, the power supply component is composed of a plurality of power supply functional modules, and the power supply functional modules are respectively arranged on the plurality of light source plates.

Furthermore, each light source board is provided with at least one power supply functional module.

Furthermore, a plurality of the light source boards are arranged end to end in a close and/or detachable mode.

Furthermore, the light source plates are arc-shaped, and the light source plates are closely attached end to form a circular ring or an oval.

Furthermore, the light source boards are respectively independent and arranged in an array.

Furthermore, at least one light emitting piece is arranged on the light source board.

Furthermore, the optical module further comprises a light-transmitting cover body used for covering the optical component, wherein the light-transmitting cover body comprises a protection bin for accommodating the power supply functional module and a lens correspondingly arranged with the light-emitting piece.

Furthermore, it is a plurality of the setting is hugged closely from beginning to end to the light source board, the integrative setting of printing opacity cover body, just printing opacity cover body shape is for with a plurality of the corresponding ring shape of shape or oval are formed in the setting is hugged closely from beginning to end to the light source board.

Furthermore, a plurality of the light source boards are respectively independent and are arranged in an array mode, the light-transmitting cover body is provided with a plurality of light source boards, the number of the light source boards is consistent with that of the light-transmitting cover body, and each light source board is covered with one light-transmitting cover body.

Furthermore, the power supply function module is detachably arranged on the light source board.

Furthermore, the power functional module comprises at least one of a rectification functional sub-module, a filtering functional sub-module, a power factor correction functional sub-module, an electromagnetic interference functional sub-module, a feedback functional sub-module, a delay functional sub-module, a dimming functional sub-module, an acousto-optic control functional sub-module and a Wi-Fi functional sub-module.

The light source module comprises an optical component and a power supply component, wherein the optical component comprises a plurality of light source plates, the power supply component comprises a plurality of power supply function modules, the power supply function modules are respectively arranged on the light source plates, and after the external power supply is connected, the power supply function modules can enable the light source plates to realize corresponding functions; in permanent use, if the condition of taking place light source board or power function module damage, the removable light source board that corresponds the damage to replace the light source board that has damaged with new light source board, need not to change whole photovoltaic module, avoid useful resources's waste.

Drawings

FIG. 1 is a schematic diagram of an optical assembly and power supply assembly provided by an embodiment of the present invention;

fig. 2 is a schematic diagram of a first implementation manner of an optoelectronic module according to an embodiment of the present invention;

fig. 3 is a first exploded view of a first implementation of an optoelectronic module according to an embodiment of the present invention;

fig. 4 is a second exploded view of a first implementation of an optoelectronic module according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a second implementation of an optical assembly and power supply assembly provided by an embodiment of the invention;

fig. 6 is a schematic diagram of a second implementation manner of an optoelectronic module according to an embodiment of the present invention;

fig. 7 is a first exploded view of a second implementation of an optoelectronic module according to an embodiment of the present invention;

fig. 8 is a second exploded view of a second implementation of the optoelectronic module according to an embodiment of the present invention;

fig. 9 is a schematic view of a light-transmitting cover covering a light source board of a second implementation manner of the optoelectronic module according to the embodiment of the present invention;

fig. 10 is an exploded view of a light-transmitting cover and a light source plate of a second implementation manner of an optoelectronic module according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further 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 invention and are not intended to limit the invention.

The photoelectric module provided by the invention is provided with the optical component and the power supply component, the optical component is composed of the plurality of light source plates 2, the power supply component is composed of the plurality of power supply function modules 21, the power supply function modules 21 are respectively arranged on the light source plates 2, after the external power supply is connected, the power supply function modules 21 can enable the light source plates 2 to realize corresponding functions, so that before assembly, proper light source plates 2 can be selected for modularization free assembly and collocation, the power supply function modules 21 capable of realizing required functions are arranged on the light source plates 2, the flexibility is high, function customization can be realized, and resources can be reasonably utilized; in the permanent use, if the condition of taking place light source board 2 or the damage of power functional module 21, the removable light source board 2 that corresponds the damage to replace the light source board 2 that has damaged with new light source board 2, need not to change whole photovoltaic module, avoid useful resources's waste.

Example one

Referring to fig. 1, an embodiment of the present invention provides an optoelectronic module, which includes an optical component and a power supply component, where the optical component is composed of a plurality of light source boards 2, the power supply component is composed of a plurality of power supply function modules 21, and the power supply function modules 21 are respectively disposed on the plurality of light source boards 2.

In one embodiment, each light source board 2 is provided with at least one power function module 21, and the power function module 21 provides a function for the corresponding light source board 2.

In another embodiment, at least one power function module 21 is disposed on at least one light source board 2, and the power function module 21 provides a function for the corresponding light source board 2, but there is a case that the power function module 21 is not disposed on at least one light source board 2.

Further, at least one light emitting member 22 is provided on the light source board 2.

In the use, external power source switches on light source board 2 and power function module 21 respectively, and power function module 21 transmits corresponding function signal to the circuit board on light source board 2, makes the circuit board output on the light source board 2 realize corresponding function and control illuminating part 22 and open and give out light.

Before assembling the optoelectronic module, a user selects a desired power functional module 21 and a light source board 2 corresponding to the power functional module 21, and then assembles each selected light source board 2 into a whole. Above-mentioned assembling process realizes the modular processing of light source board 2, and light source board 2 can freely assemble the collocation, and the flexibility is very high, can rationally select and assemble required light source board 2. Each light source board 2 has a power functional module 21 capable of realizing a desired function, and function customization is realized while assembling the light source boards 2 to control the light emitting members 22 to emit light according to the function.

After the optoelectronic module is used for a long time, if part or all of the light emitting elements 22 or the power functional modules 21 are damaged, a user can detach one or more damaged light source boards 2 and replace the damaged light source boards 2 with new light source boards 2, wherein the power functional modules 21 on the light source boards 2 can be selected to be the same as the previous ones or be replaced with others according to the change of requirements. Then, a new light source board 2 is assembled with the old and usable light source board 2. Only one or more damaged light source boards 2 need to be detached, all the light source boards 2 do not need to be replaced, replacement and maintenance of the photovoltaic module can be achieved, the light source boards 2 which are not damaged yet can be reasonably utilized, and waste of useful resources is avoided.

In the embodiment of the present invention, the optional light emitting element 22 is a single LED lamp bead.

Example two

In the photovoltaic module provided by the second embodiment of the invention, the plurality of light source boards 2 are closely attached end to end and/or detachably connected.

Among them, there are the following cases:

①, referring to fig. 3 and 4, the light source boards 2 are closely arranged end to end, in the process of assembling the optoelectronic module, only the light source boards 2 are closely arranged end to end, and the light source boards 2 are not integrally formed with each other.

②, the light source boards 2 are detachably connected, in the process of assembling the optoelectronic module, each light source board 2 is selected, and each light source board 2 is assembled into a whole by a suitable connection mode (such as terminal connection or wire connection).

③, the light source boards 2 are closely arranged end to end and detachably connected, in the process of assembling the photoelectric module, each light source board 2 is selected, every two light source boards 2 are closely arranged end to end, and each light source board 2 is assembled into a whole through a proper connection mode (such as terminal connection or wire connection).

Wherein, to above-mentioned ① circumstances, light source board 2 is arc, and a plurality of light source boards 2 are hugged closely end to end and are set up the component shape and be ring shape or oval-shaped, certainly, also can, light source board 2 is rectangular shape, and a plurality of light source boards 2 are hugged closely end to end and are set up the component shape and be square.

EXAMPLE III

Referring to fig. 5, in the optoelectronic module according to the third embodiment of the present invention, the light source boards 2 are respectively independent and arranged in an array.

Wherein, each light source board 2 sets up independently respectively to arrange each light source board 2 in proper order, be the array setting. The light source plates 2 can be arranged in a strip shape, are mutually horizontal and independent and are arranged in an array.

Example four

Referring to fig. 2 to 4, in the optoelectronic module according to the fourth embodiment of the present invention, the optoelectronic module further includes a light-transmitting cover 1 for covering the optical component, and the light-transmitting cover 1 includes a protection chamber 11 for accommodating the power functional module 21 and a lens 12 disposed corresponding to the light-emitting element 22. The number of the protection bins 11 is consistent with the number of the power supply functional modules 21, and the protection bins 11 can respectively play a role in electric shock protection for the power supply functional modules 21. The number of lenses 12 is consistent with the number of glowing members 22, providing a diffuse, soft action to the light. When the light-transmitting cover body 1 is covered on the light source board 2, the protection bin 11 is correspondingly covered on the power functional module 21, and the lens 12 is correspondingly covered on the luminous element 22.

The light-transmitting cover body 1 and the protection cabin 11 are made of the same material, but the material includes but is not limited to PC, PMMA, PP, or the like.

In the embodiment of the present invention, the following two cases are provided:

①, referring to fig. 2 to 4, when the light source boards 2 are tightly attached and/or detachably connected, the light-transmitting cover body 1 is integrally arranged and shaped like a circular ring or an ellipse which is tightly attached to the light source boards 2 end to form a shape corresponding to the light source boards 2, so as to cover the light source boards 2.

In the actual use process, the light-transmitting cover body 1 covers the light source plate 2 and protects the light source plate, and under the ordinary condition, if the light-transmitting cover body is not damaged by external force, the light source plate cannot be damaged, so that the light source plate does not need to be replaced frequently.

Further, the light-transmitting cover body 1 is provided with a preassembly structure 13, and the preassembly structure 13 is arranged at a position corresponding to the connection position of each light source board 2. In practical use, the light source boards 2 can be assembled into a whole by matching with the preassembly structure 13, and the integrally assembled light source boards 2 and the light-transmitting cover body 1 are assembled into a whole.

The pre-assembly structure 13 includes a wire holder 131 disposed on the surface of the light-transmitting cover 1 and a boss 132 extending toward the central axis of the light-transmitting cover 1, wherein the wire holder 131 has wire holes 1311 at two ends thereof, and the boss 132 has at least one terminal hole 1321.

In actual use, mounting holes are formed at two ends of the light source board 2 and at corresponding positions of the wiring holes 1311, then wires are used to pass through one mounting hole and the wiring hole 1311 corresponding to the mounting hole and enter the other adjacent wiring hole 1311 and the mounting hole corresponding to the wiring hole 1311, and then the wires are spot-welded to complete the fixation of the wires. In the above manner, the same operation is performed on each group of two adjacent light source boards 2 and the wire holder 131 on the light-transmitting cover body 1, that is, the assembly and fixation of the adjacent light source boards 2 and the assembly and fixation of the light source boards 2 and the light-transmitting cover body 1 are realized. Alternatively, the light source board 2 and the light-transmitting cover 1 are assembled and fixed by a terminal connection method by punching a terminal in the terminal hole 1321. Of course, there are other assembling and fixing manners, such as hot melt connection, snap connection, screw connection, etc., to realize the assembling and fixing of the adjacent light source boards 2 and the light-transmitting cover body 1.

② referring to fig. 6 to 10, when the light source boards 2 are respectively independent and arranged in an array, the light-transmitting cover body 1 is provided with a plurality of light source boards 2, and the number of the light-transmitting cover body is the same as that of the light source boards 2, and each light source board 2 covers one light-transmitting cover body 1.

In the assembling process, the light-transmitting cover body 1 is firstly covered on the corresponding light source board 2, and then the assembled light-transmitting cover body 1 and the light source board 2 are arranged in the accommodating groove 31 of the mounting seat 3. Or, the light source boards 2 are first installed in the accommodating grooves 31 of the mounting base 3, and then the light-transmitting cover bodies 1 are covered on the corresponding light source boards 2.

In the embodiment of the present invention, the number of the light-transmitting enclosure 1 is selected and defined according to the number of the light source boards 2. For example, four optional light source boards 2 are provided, and four light-transmitting cover bodies 1 are correspondingly selected according to the number of the light source boards 2.

Referring to fig. 9 and 10, further, the light source board 2 includes a first mounting board 23 and a second mounting board 24 fixedly connected to the first mounting board 23, the power supply function module 21 is disposed on a surface of the second mounting board 24, and the light emitting member 22 is disposed on a surface of the first mounting board 23.

The first mounting plate 23 is formed in a rectangular shape so that the luminous members 22 are arranged and placed, and the second mounting plate 24 is also formed in a rectangular shape so that the power functional module 21 is fixedly placed.

For the convenience of production and processing, the first mounting plate 23 and the second mounting plate 24 are preferably integrally formed.

Referring to fig. 7 to 10, further, a plurality of limiting holes 14 and fixing holes 13 are disposed on the first mounting plate 23 and the light-transmitting cover 1, and a plurality of limiting posts 312 adapted to the limiting holes 14 and a plurality of fixing posts 311 adapted to the fixing holes 13 are disposed in the accommodating groove 31.

In the assembling process, the light-transmitting cover body 1 is firstly covered on the light source board 2, then the light-transmitting cover body 1 and the light source board 2 which are integrally assembled are placed in the accommodating groove 31 of the mounting seat 3, the limiting column 312 penetrates through the limiting hole 14 and the fixing column 311 penetrates through the fixing hole 13, and the light-transmitting cover body 1 and the light source board 2 are fixed in the accommodating groove 31.

Through the cooperation of spacing hole 14 and spacing post 312, help the user to find the position of assembling accurately, avoid repeated many times can realize assembling of light source board 2 and printing opacity cover body 1. And through the cooperation of fixed orifices 13 and fixed column 311, help light source board 2 to assemble with the printing opacity cover body 1 after firm reliable, avoid taking place to break away from the condition that drops each other in the use.

Referring to fig. 6 and 7, the optoelectronic module further includes a bracket 5 detachably disposed on the mounting base 3 and an optical diffusion plate 4 disposed between the mounting base 3 and the bracket 5, the bracket 5 can support, fix and fix the whole, and the optical diffusion plate 4 can play a role in soft light and insulation.

Referring to fig. 6 and 7, the end corner of the mounting seat 3 is provided with a buckle 32, and the end corner of the bracket 5 is provided with a slot adapted to the buckle 32. Assemble earlier to the printing opacity cover body 1, light source board 2 and mount pad 3 and fix, place on mount pad 3 at 4 gomphosis of optics diffuser plate afterwards, advance the draw-in groove through buckle 32 lock at last, fix support 5 on mount pad 3, realize that the holistic equipment of photovoltaic module is fixed.

Of course, the light-transmitting cover body 1 may also be designed into other structural types according to practical situations, and the details are not repeated herein.

EXAMPLE five

Referring to fig. 1 to 10, in the optoelectronic module according to the fifth embodiment of the present invention, the optoelectronic module further includes a mounting base 3 having a receiving groove 31, and the substrate assembly is disposed in the receiving groove 31.

After the required light source board 2 is selected and assembled into a whole, the light source board 2 assembled into a whole is installed in the accommodating groove 31 of the installation seat 3, and then the light-transmitting cover body 1 covers the light source board 2, so that the photoelectric module can be integrally fixed through the fixed installation seat 3.

Referring to fig. 3, when the plurality of light source boards 2 are closely arranged end to end and/or detachably connected, the shape of the accommodating groove 31 of the mounting base 3 is a circular ring shape or an oval shape corresponding to the shape of the plurality of light source boards 2, so that the light source boards 2 are conveniently arranged in the accommodating groove 31.

Referring to fig. 7, when the light source plates 2 are respectively independent and arranged in an array, the receiving groove 31 of the mounting base 3 is square for the light source plates 2 to be mounted.

Of course, the mounting base 3 may also be designed into other structural types according to practical situations, and the details are not repeated herein.

EXAMPLE six

In the photovoltaic module provided in the sixth embodiment of the present invention, the power functional module 21 is detachably disposed on the light source board 2. The power supply functional module 21 meeting the requirement can be selected in advance, and then the power supply functional module 21 is arranged on the light source board 2 to control the light emitting piece 22 on the light source board 2 to meet the requirement. For example, two power functional modules 21 having a delay function and a dimming function are mounted on the light source board 2, and the power functional modules 21 can delay and dim the respective light emitting elements 22. If the condition that power function module 21 destroys takes place in the use, can dismantle power function module 21 from light source board 2 alone, change new power function module 21 again, avoid changing whole light source board 2 that corresponds with power function module 21 to further improve the reasonable utilization ratio of resource.

Specifically, the power supply function module 21 may be mounted on the light source board 2 in a patch or plug-in manner.

Further, the luminous member 22 is detachably provided on the light source board 2. If the condition that the illuminating member 22 is damaged occurs in the using process, the illuminating member 22 can be detached from the light source plate 2 independently, and then a new illuminating member 22 is replaced, so that the whole light source plate 2 corresponding to the illuminating member 22 is prevented from being replaced, and the reasonable utilization rate of resources is further improved.

Specifically, the luminous member 22 may be attached to the light source board 2 in a patch or insert manner.

EXAMPLE seven

In the optoelectronic module according to the seventh embodiment of the present invention, the power functional module 21 includes at least one of a rectification functional sub-module, a filtering functional sub-module, a power factor correction functional sub-module, an electromagnetic interference functional sub-module, a feedback functional sub-module, a delay functional sub-module, a dimming functional sub-module, an acousto-optic control functional sub-module, and a Wi-Fi functional sub-module.

A plurality of power functional modules 21 may be integrally provided to control the light emitting member 22 to emit light according to different functional roles. For example, a rectifying function sub-module and a filtering function sub-module are disposed on one of the light source boards 2, and after an external power is connected, the rectifying function sub-module and the filtering function sub-module can respectively perform rectifying and filtering functions on the light emitting member 22, so as to control the light emitting member 22 to emit light better.

The photoelectric module provided by the invention is provided with the optical component and the power supply component, the optical component is composed of the plurality of light source plates 2, the power supply component is composed of the plurality of power supply function modules 21, the power supply function modules 21 are respectively arranged on the light source plates 2, after the external power supply is connected, the power supply function modules 21 can enable the light source plates 2 to realize corresponding functions, so that before assembly, proper light source plates 2 can be selected for modularization free assembly and collocation, the power supply function modules 21 capable of realizing required functions are arranged on the light source plates 2, the flexibility is high, function customization can be realized, and resources can be reasonably utilized; in the permanent use, if the condition of taking place light source board 2 or the damage of power functional module 21, the removable light source board 2 that corresponds the damage to replace the light source board 2 that has damaged with new light source board 2, need not to change whole photovoltaic module, avoid useful resources's waste. In addition, power function module 21 can be dismantled and set up on light source board 2, can realize freely loading and unloading of power function module 21, select the power function module 21 of required function effect to install on light source board 2, if the condition of power function module 21 damage takes place in the use, can dismantle power function module 21 from light source board 2 alone, power function module 21 that changes again newly, avoid changing whole light source board 2 that corresponds with power function module 21, in order to further improve the rational utilization ratio of resource. Moreover, the power functional module 21 includes a plurality of types, which can realize the integrated arrangement of the power functional module 21 including different functional functions, so as to control the light-emitting member 22 to emit light according to different functional functions.

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 invention, 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 (11)

1. The utility model provides a photoelectric module, its characterized in that includes optical assembly and power supply module, optical assembly comprises a plurality of light source boards, power supply module comprises a plurality of power function module, power function module sets up respectively in a plurality of on the light source board.

2. The optoelectronic module of claim 1 wherein each of the light source boards has at least one of the power functional modules disposed thereon.

3. The optoelectronic module of claim 1 wherein the plurality of light source boards are disposed end-to-end in close proximity and/or removably attached.

4. The optoelectronic module of claim 3, wherein the light source plates are circular arc-shaped, and the plurality of light source plates are closely attached end to form a circular or elliptical shape.

5. The optoelectronic module of claim 1 wherein the plurality of light source boards are individually and in an array.

6. The optoelectronic module of claim 1 wherein the light source board has at least one light emitting element disposed thereon.

7. The optoelectronic module of claim 6 further comprising a light transmissive cover covering the optical assembly, the light transmissive cover including a protective cavity housing the power functional module and a lens disposed in correspondence with the light emitting element.

8. The optoelectronic module of claim 7, wherein the plurality of light source boards are disposed end to end in a close-fitting manner, the light-transmissive cover is integrally disposed, and the light-transmissive cover is shaped like a circular ring or an ellipse corresponding to the shape of the plurality of light source boards which are disposed end to end in a close-fitting manner.

9. The optoelectronic module of claim 7, wherein a plurality of the light source boards are respectively disposed independently and in an array, and a plurality of the light transmissive covers are disposed, and the number of the light source boards is the same as that of the light transmissive covers, and each of the light source boards covers one of the light transmissive covers.

10. The optoelectronic module of any one of claims 1 to 9 wherein the power functional module is removably disposed on the light source board.

11. The optoelectronic module of any one of claims 1 to 9 wherein the power functional module includes at least one of a rectification functional sub-module, a filtering functional sub-module, a power factor correction functional sub-module, an electromagnetic interference functional sub-module, a feedback functional sub-module, a delay functional sub-module, a dimming functional sub-module, an acousto-optic control functional sub-module, and a Wi-Fi functional sub-module.

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