CN103851361A - Design method of honeycomb type LED (light emitting diode) lamp panel structure and modular light source module structure - Google Patents

Abstract

The invention relates to a design method of a honeycomb type LED lamp panel structure and a modular LED light source module structure. The design method of the honeycomb type LED lamp panel structure comprises the following steps of designing a honeycomb circuit board and designing a set of round composition board, wherein designing the set of round composition board comprises the steps of defining a central point and designing a round board and plurality of sector boards, specifically, defining the center of a regular hexagon on the honeycomb circuit board, which is provided with a plurality of regular hexagons, as the central point, designing the round board with the central point as the center, and radiating a plurality of cutting lines from the central point to the boundary of the round board to design the plurality of sector boards which can be combined randomly. The design method of the honeycomb LED lamp panel can help design honeycomb type LED lamp panel structures which can be freely combined into rounds in various sizes.

Description

The method for designing of cellular LED lamp panel structure and modularized light source modular structure

Technical field

The present invention relates to a kind of method for designing and modularized light emitting diode light source module structure of cellular LED lamp panel structure, particularly relate to a kind of method for designing and modularized light emitting diode light source module structure of the cellular LED lamp panel structure that can Optional assembling becomes various circles or annular.

Background technology

The light source all the time using in advertising lamp box is master mainly with fluorescent tube greatly, but along with the technology fast development of light emitting diode, light emitting diode is tending towards mass production gradually, therefore reduced the price of light emitting diode, add that the vibration strength that light emitting diode has is good, power saving environmental protection, volume is little, switching speed is fast ... etc. advantage, make light emitting diode there are the potentiality that replace fluorescent tube, and then become the light source of new generation of advertising lamp box.

But in order to meet the demand of all trades and professions, advertising lamp box has produced the pattern of various external forms and different size, but the LED light-source module that advertising lamp box miscellaneous all needs independent especially manufactured size to conform to, therefore considering after the cost of LED light-source module and the factor of price, manufacturer can manufacture the LED light-source module of multiple same sizes mostly simultaneously in a large number.But for the comparatively special LED light-source module of size, the particularly LED light-source module of circle or annular size, because market demand is low, therefore easily produces the problem of material stock.

In addition, LED light-source module in advertising lamp box is made up of multiple light emitting diode, and each light emitting diode has fixing rising angle and light direction, therefore the mode that light emitting diode is arranged, will affect brightness and the outgoing light homogeneity of LED light-source module.

When the arrangement mode of light emitting diode not at that time, just can reduce the brightness of a direction, while causing LED light-source module to be applied to advertising lamp box, can produce the luminance shortage of a direction, and make the pattern of certain part or printed words be difficult for identification, cause advertising lamp box cannot reach publicity effect of expection.

As can be seen here, above-mentioned existing LED light-source module, in method for designing, product structure and use, obviously still has inconvenience and defect, and is urgently further improved.In order to solve the problem of above-mentioned existence, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but have no for a long time applicable design is completed by development always, and conventional method and product do not have appropriate method and product to address the above problem, this is obviously the problem that the anxious wish of relevant dealer solves.Therefore how to found a kind of method for designing and modularized light emitting diode light source module structure thereof of new cellular LED lamp panel structure, real one of the current important research and development problem that belongs to, also becoming the current industry utmost point needs improved target.

Summary of the invention

The object of the invention is to, overcome the defect that existing LED light-source module exists, to comprise the following steps: to design a honeycomb circuit board and one group of circular group plywood of design by the method for designing of cellular LED lamp panel structure wherein and a kind of method for designing and modularized light emitting diode light source module structure thereof of new cellular LED lamp panel structure, technical problem to be solved are provided; Design one group of circular group plywood and comprise the following steps: to define a central point, design a circular slab and design multiple fanning strips, be able to design easily can bright dipping evenly and can be arbitrarily made with the cellular LED lamp panel structure of different circles or annular size, be very suitable for practicality.

The object of the invention to solve the technical problems realizes by the following technical solutions.The method for designing of a kind of cellular LED lamp panel structure proposing according to the present invention, it comprises the following steps: to design a honeycomb circuit board, it is on a circuit substrate, to be designed with the multiple regular hexagons that join continuously each other, and those orthohexagonal each summits are defined as a set-point; And one group of circular group plywood of design, it comprises the following steps: to define a central point, and central point is an orthohexagonal center; Design a circular slab, it is take central point as the center of circle, goes out circular slab take one first radius as radial design; And designing multiple fanning strips, it is to give off the border of many lines of cut to circular slab from central point isogonism, to design those fanning strips.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

The method for designing of aforesaid cellular LED lamp panel structure, further comprise at least one group of circular groups plywood of design, it comprises the following steps: to design at least one annular slab, it is take this central point as the center of circle, to be greater than at least one concentric circles of radial design of this first radius, to design at least one this annular slab; And designing multiple arcs, it is the external boundary that is extended to each this annular slab by those lines of cut, to design those arcs in each this annular slab.

The method for designing of aforesaid cellular LED lamp panel structure, wherein this first radius is 2 unit lengths, and this concentrically ringed radius is 3,4 or 5 unit lengths.

The method for designing of aforesaid cellular LED lamp panel structure, wherein the angle of this isogonism radiation is 30 degree, 60 degree, 90 degree, 120 degree or 180 degree.

The method for designing of aforesaid cellular LED lamp panel structure, wherein those lines of cut are by multiple these orthohexagonal sideline mid points.

The method for designing of aforesaid cellular LED lamp panel structure, further comprise design fool proof point, it is at the both sides of each this line of cut design one first fool proof point and one second fool proof point, and this second fool proof point is adjacent with this first fool proof point, this first fool proof point is vertical with this corresponding line of cut with the line between this second fool proof point.The object of the invention to solve the technical problems also realizes by the following technical solutions.The method for designing of a kind of cellular LED lamp panel structure proposing according to the present invention, it comprises the following steps: to design a honeycomb circuit board, it is on a circuit substrate, to be designed with the multiple regular hexagons that join continuously each other, and those orthohexagonal each summits are defined as a set-point; And design at least one group of circular groups plywood, and it comprises the following steps: to define a central point, and central point is an orthohexagonal center; Design at least one annular slab, it is take central point as the center of circle and take one first radius as radial design one is circular and at least one concentric circles, to design at least one annular slab on circuit substrate; And designing multiple arcs, it is to give off the external boundary of many lines of cut to each annular slab from central point isogonism, to design those arcs in each annular slab.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

The method for designing of aforesaid cellular LED lamp panel structure, wherein this first radius is 2 unit lengths, and this concentrically ringed radius is 3,4 or 5 unit lengths.

The method for designing of aforesaid cellular LED lamp panel structure, wherein the angle of this isogonism radiation is 30 degree, 60 degree, 90 degree, 120 degree or 180 degree.

The method for designing of aforesaid cellular LED lamp panel structure, wherein those lines of cut are by multiple these orthohexagonal sideline mid points.

The method for designing of aforesaid cellular LED lamp panel structure, further comprise design fool proof point, it is at the both sides of each this line of cut design one first fool proof point and one second fool proof point, and this second fool proof point is adjacent with this first fool proof point, this first fool proof point is vertical with this corresponding line of cut with the line between this second fool proof point.

The object of the invention to solve the technical problems realizes in addition more by the following technical solutions.A kind of modularized light emitting diode light source module structure proposing according to the present invention, it has: a cellular LED lamp panel structure, it is by the design of method for designing as the aforementioned and obtain; And multiple light emitting diodes, it is the multiple set-points that arrange one to one and be electrically connected on cellular LED lamp panel structure.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

Aforesaid modularized light emitting diode light source module structure, further comprise one group of first power connector end mouth and one group of second source connectivity port, it is one first fool proof point and the one second fool proof point that arranges respectively and be electrically connected on this cellular LED lamp panel structure.

The present invention compared with prior art has obvious advantage and beneficial effect.By technique scheme, method for designing and the modularized light emitting diode light source module structure thereof of the cellular LED lamp panel structure of the present invention at least have following advantages and beneficial effect:

One, the present invention can design the cellular LED lamp panel structure that can be assembled into different circles or annular size.

Two, the present invention can make modularized light emitting diode light source module structure have the uniform advantage of bright dipping.

In sum, the invention relates to a kind of method for designing and modularized light emitting diode light source module structure thereof of cellular LED lamp panel structure.Wherein the method for designing of cellular LED lamp panel structure comprises the following steps: to design a honeycomb circuit board and one group of circular group plywood of design.Design one group of circular group plywood and comprise the following steps: to define a central point; Design a circular slab and design multiple fanning strips.An orthohexagonal center is defined as to central point having on multiple orthohexagonal honeycomb circuit boards, and design circular slab take central point as the center of circle, then from central point isogonism give off many lines of cut to the border of circular slab to design multiple fanning strips that can mutually combine arbitrarily.By enforcement of the present invention, can design the cellular LED lamp panel structure that can freely be assembled into different circular dimension.The present invention has significant progress technically, has obvious good effect, is really a new and innovative, progressive, practical new design.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, and for above and other object of the present invention, feature and advantage can be become apparent, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1 is the method for designing flow chart one of a kind of cellular LED lamp panel structure of the embodiment of the present invention.

Fig. 2 is a kind of honeycomb circuit board schematic diagram of the embodiment of the present invention.

Fig. 3 is that the one of the embodiment of the present invention designs a circular slab step schematic diagram.

Fig. 4 is that the one of the embodiment of the present invention designs multiple fanning strip step schematic diagrames.

Fig. 5 is that the one of the embodiment of the present invention designs at least one group of circular groups plywood step schematic diagram one.

Fig. 6 is that the one of the embodiment of the present invention designs at least one group of circular groups plywood step schematic diagram two.

Fig. 7 is the one design fool proof point step schematic diagram of the embodiment of the present invention.

Fig. 8 is the method for designing flowchart 2 of a kind of cellular LED lamp panel structure of the embodiment of the present invention.

Fig. 9 is that the one of the embodiment of the present invention designs one group of circular groups plywood step schematic diagram three.

Figure 10 is the combination schematic diagram one of a kind of multiple LED light source module structures of the embodiment of the present invention.

Figure 11 is the combination schematic diagram two of a kind of multiple LED light source module structures of the embodiment of the present invention.

Figure 12 is a kind of first power connector end mouth of the embodiment of the present invention and the fool-proof design schematic diagram of second source connectivity port.

Figure 13 is the mistake combination schematic diagram of a kind of multiple LED light source module structures of the embodiment of the present invention.

10: circuit substrate 11: regular hexagon

12: set-point 13: central point

14: circular 15: line of cut

16: fan-shaped 17: sideline mid point

18,18 ': concentric circles 19,19 ': arc

21: the second fool proof points of 20: the first fool proof points

23: line 50: LED light source module structure

51: cellular LED lamp panel structure 52: light emitting diode

53: the first power connector end mouths 54: second source connectivity port

55: screw 56: locking plate

R1: the first radius R 2, R2 ': the second radius

α: angle

The specific embodiment

Technological means and effect of taking for reaching predetermined goal of the invention for further setting forth the present invention, below in conjunction with accompanying drawing and preferred embodiment, to method for designing and its specific embodiment of modularized light emitting diode light source module structure, method, step, structure, feature and effect thereof of the cellular LED lamp panel structure proposing according to the present invention, be described in detail as follows.

Relevant aforementioned and other technology contents of the present invention, Characteristic can be known and present in the following detailed description coordinating with reference to graphic preferred embodiment.By the explanation of the specific embodiment, when obtaining one more deeply and concrete understanding for technological means and effect of reaching predetermined object and taking to the present invention, but appended graphic be only to provide with reference to the use of explanation, be not used for the present invention to be limited.

Fig. 1 is the method for designing flow chart one of a kind of cellular LED lamp panel structure of the embodiment of the present invention.Fig. 2 is a kind of honeycomb circuit board schematic diagram of the embodiment of the present invention.Fig. 3 is that the one of the embodiment of the present invention designs a circular slab step schematic diagram.Fig. 4 is that the one of the embodiment of the present invention designs multiple fanning strip step schematic diagrames.Fig. 5 is that the one of the embodiment of the present invention designs at least one group of circular groups plywood step schematic diagram one.Fig. 6 is that the one of the embodiment of the present invention designs at least one group of circular groups plywood step schematic diagram two.

Fig. 7 is the one design fool proof point step schematic diagram of the embodiment of the present invention.Fig. 8 is the method for designing flowchart 2 of a kind of cellular LED lamp panel structure of the embodiment of the present invention.Fig. 9 is that the one of the embodiment of the present invention designs one group of circular groups plywood step schematic diagram three.Figure is the 10 combination schematic diagrames one that are a kind of multiple LED light source module structures of the embodiment of the present invention.Figure 11 is the combination schematic diagram two of a kind of majority LED light source module structure of the embodiment of the present invention.Figure 12 is a kind of first power connector end mouth of the embodiment of the present invention and the fool-proof design schematic diagram of second source connectivity port.Figure 13 is the mistake combination schematic diagram of a kind of multiple LED light source module structures of the embodiment of the present invention.

Refer to shown in Fig. 1, the method for designing S100 of a kind of cellular LED lamp panel structure of the embodiment of the present invention, it comprises the following steps: to design a honeycomb circuit board (step S10) and one group of circular group plywood of design (step S20).Wherein, one group of circular group plywood of design (step S20) comprises the following steps: to define a central point (step S21), design one circular slab (step S22) and designs multiple fanning strips (step S23).

Shown in Fig. 2, design a honeycomb circuit board (step S10), it is on a circuit substrate 10, to be designed with the multiple identical regular hexagon 11 joining continuously each other, those orthohexagonal each summits are defined as a set-point 12, all have circuit to connect structure so that set-point 12 can be provided with electronic component between these set-points 12.

Shown in Fig. 3, definition one central point (step S21) defines a central point 13 on circuit substrate 10, and it is above-mentioned a certain regular hexagon 11 center.

Design a circular slab (step S22), then take central point 13 as the center of circle, on circuit substrate 10, draw a circle 14 take one first radius R 1 as radius, to design the scope of circular slab.

Shown in Fig. 4, design multiple fanning strips (step S23), it is to give off many lines of cut 15 from central point 13 isogonisms, line of cut 15 is extended to the border of circular slab simultaneously, circle 14 and every two lines of cut 15 are intersected and form one fan-shaped 16, on circuit substrate 10, design whereby those fanning strips, in same circular 14 designed go out fanning strip form one group of circular group plywood.Wherein the angle [alpha] of isogonism radiation can be 30 degree, 60 degree, 90 degree, 120 degree or 180 degree.Especially when angle [alpha] is that when 60 degree, 120 are spent or 180 spend, those lines of cut 15 can pass through the sideline mid point 17 of multiple regular hexagons 11.The fanning strip of designing with method for designing S100 can be arbitrarily made with the circle of different sizes.

As shown in Figure 1, the method for designing S100 of a kind of cellular LED lamp panel structure of the embodiment of the present invention further comprises at least one group of circular groups plywood of design (step S30), and it comprises the following steps: to design at least one annular slab (step S31) and designs multiple arcs (step S32).

Shown in Fig. 5, design at least one annular slab (step S31), it is take central point 13 as the center of circle, for example, designs at least one concentric circles 18 with the radius (the second radius R 2) that is greater than the first radius R 1.In the time only designing a concentric circles 18, between circle 14 and concentric circles 18, form an annular slab.Wherein the first radius R 1 can be 2 unit lengths, and the second radius R 2 can be 3,4 or 5 unit lengths.

Shown in Fig. 6, if while for example, being designed with two concentric circles 18 and 18 ' to be greater than the radius (the second radius R 2 and R2 ') of the first radius R 1, just can make circular 14 and concentric circles 18 between form an annular slab (dotted region), and also make to form between two concentric circles 18 and 18 ' another annular slab (wire region) simultaneously.

Design multiple arcs (step S32), it is the external boundary that is extended to each annular slab by those lines of cut 15, design those arcs to intersect by circle 14, concentric circles 18 and two lines of cut 15 arcs 19 that form in each annular slab, or intersecting by two concentric circles 18 and 18 ' and two line of cut 15 arc 19 ' forming designs those arcs.The arc of designing with method for designing S100 can be arbitrarily made with the annulars of different sizes, and in same annular slab designed go out arc form one group of circular groups plywood.

Refer to shown in Fig. 1 and Fig. 7, the method for designing S100 of a kind of cellular LED lamp panel structure of the embodiment of the present invention may further include design fool proof point (step S40), it is at the both sides of each line of cut 15 design one first fool proof point 20 and one second fool proof point 21, and it is 20 adjacent that the second fool proof point 21 and the first fool proof are put, and the first fool proof point 20 is vertical with corresponding line of cut 15 with the line 23 between the second fool proof point 21.

Above-mentioned example can first be designed one group of circular group plywood, then designs at least one group of circular groups plywood again.But the method for designing S200 of the cellular LED lamp panel structure of another kind of the embodiment of the present invention also can directly design at least one group of circular groups plywood.

Refer to shown in Fig. 8, the method for designing S200 of a kind of cellular LED lamp panel structure of the embodiment of the present invention comprises the following steps: to design a honeycomb circuit board (step S210) and designs at least one group of circular groups plywood (step S220).Design at least one group of circular groups plywood (step S220) and comprise the following steps: to define a central point (step S221); Design at least one annular slab (step S222) and design multiple arcs (step S223).

It is identical with aforesaid step S10 and step S21 respectively designing a honeycomb circuit board (step S210) and defining a central point (step S221), therefore do not repeat separately.

As shown in Figure 5, design at least one annular slab (step S222), if only design an annular slab, just first on circuit substrate 10 take central point 13 as the center of circle and take one first radius R 1 as radial design one circle 14, design circular 14 concentric circles 18 with the second radius R 2, to design the annular slab forming between circle 14 and concentric circles 18 simultaneously.

As shown in Figure 6, in the time will designing multiple annular slab, can design after the circle 14 that radius is the first radius R 1, design respectively multiple concentric circles 18 of circular 14 and the 18 ', the second radius R 2 and R2 ' with the second radius R 2 and R2 ' again and can be greater than the first radius R 1 or be less than the first radius R 1.No matter how the relation of the second radius R 2 and R2 ' and the first radius R 1 is, the annular slab of designing must be by circular 14 with adjacent concentric circles 18 or 18 ' institute forms, or formed by two adjacent concentric circles 18 and 18 ' institute.

All be greater than the first radius R 1 as example take the second radius R 2 and R2 ', can design the annular slab (wire region) between annular slab (dotted region) or two concentric circles 18 and 18 ' forming between circle 14 and concentric circles 18.Wherein the first radius R 1 can be 2 unit lengths, and the second radius R 2 or R2 ' can be 3,4 or 5 unit lengths.

Refer to shown in Fig. 9, be less than the first radius R 1 and the second radius R 2 ' is greater than the first radius R 1 as example take the second radius R 2, can design circular 14 with concentric circles 18 between the annular slab (wire region) that forms or circular 14 and concentric circles 18 ' between the annular slab (dotted region) of formation.

As shown in Figure 5, design multiple arcs (step S223), if only design an annular slab, step S223 gives off the external boundary of many lines of cut 15 to annular slab from central point 13 isogonisms, intersect to design by circle 14, concentric circles 18 and two lines of cut 15 arcs 19 that form in annular slab, to design those arcs.

As shown in Figure 6, in the time designing multiple annular slab, all be greater than the first radius R 1 as example take the second radius R 2 and R2 ', step S223 gives off the external boundary of many lines of cut 15 to each annular slab from central point 13 isogonisms, intersect to design by circle 14, concentric circles 18 and two lines of cut 15 arcs 19 that form in each annular slab, to design those arcs, or intersect by two concentric circles 18 and 18 ' and two line of cut 15 arc 19 ' forming, to design those arcs.

As shown in Figure 9, in the time designing multiple annular slab, be less than the first radius R 1 and the second radius R 2 ' is greater than the first radius R 1 as example take the second radius R 2, step S223 gives off the external boundary of many lines of cut 15 to each annular slab from central point 13 isogonisms, can in each annular slab, design by circle 14, concentric circles 18 and two lines of cut 15 and intersect the arcs 19 that form, to design those arcs, or intersect by circle 14, concentric circles 18 ' and two lines of cut 15 arcs 19 ' that form, to design those arcs.The arc of designing with method for designing S200 can be arbitrarily made with the annulars of different sizes, and in same annular slab designed go out arc form one group of circular groups plywood.

The method for designing S200 of a kind of cellular LED lamp panel structure of the embodiment of the present invention also may further include design fool proof point (step S230), and it is identical with aforesaid step S40, therefore do not repeat separately.

Refer to shown in Figure 10 and Figure 11, a kind of modularized light emitting diode light source module structure 50 of the embodiment of the present invention, it has: cellular LED lamp panel structure 51 and a multiple light emitting diode 52.

Cellular LED lamp panel structure 51 is the cellular LED lamp panel structures that obtained by the method for designing design of above-mentioned any example.Wherein cellular LED lamp panel structure 51 can become according to Demand Design fanning strip or the arc of different sizes, the fanning strip of same size can be combined into circle (for example Figure 11) mutually, and the arc of same size can be combined into annular (for example Figure 11) mutually, and fanning strip and annular slab can also be together to form larger circle (for example Figure 10) according to user's demand.Can expand thus the range of application of LED light source module structure 50, therefore for the special light source module of size, can replace integrated production method by assembling mode, to reduce manufacturing cost and to reduce stock.

In addition, on cellular LED lamp panel structure 51, be designed with multiple set-points, at least one the first fool proof point and at least one the second fool proof point according to above-mentioned method for designing.Wherein multiple set-points are to arrange to form the regular hexagon mutually connecting continuously.

52 of multiple light emitting diodes are the multiple set-points that arrange one to one and be electrically connected on cellular LED lamp panel structure 51.Due to regular hexagon mode arranging light emitting diode 52, therefore the spacing of each light emitting diode 52 equates, therefore can reach the uniform effect of bright dipping.

Shown in Figure 12, it is to arrange respectively and be electrically connected at one first fool proof point and the one second fool proof point on cellular LED lamp panel structure 51 by screw 55 that LED light source module structure 50 also may further include one group of first power connector end mouth 53 and one group of second source connectivity port 54, the first power connector end mouth 53 and second source connectivity port 54.

In the time that two LED light source module structures 50 are assembled mutually, collocation locking plate 56 connects the first power connector end mouth 53 and second source connectivity port 54, making the first power connector end mouth 53 and the second source connectivity port 54 of mutual corresponding combination is identical polarity, to avoid producing the problem of misconnection polarity.And the locking plate 56 of metal material can make 50 of two LED light source module structures form electric connection.In addition, half hexagon 11 on each cellular LED lamp panel structure 51 can be combined into complete regular hexagon 11 mutually at two LED light source module structure 50 places of being bonded with each other.

Refer to shown in Figure 13, the first power connector end mouth 53 and second source connectivity port 54 also can form a kind of foolproof function.The first power connector end mouth 53 and second source connectivity port 54 on the LED light source module structure 50 of different size have different setting positions, therefore in the time there is wrong joint in LED light source module structure 50, the first corresponding power connector end mouth 53 and second source connectivity port 54 also cannot correspondence together, be so the design of fool proof.

The method for designing of the cellular LED lamp panel structure of the embodiment of the present invention can be designed the circular or annular cellular LED lamp panel structure that can freely form various sizes, can produce bright dipping evenly and can freely form the modularized light emitting diode light source module structure for circular or annular advertising lamp box with this cellular LED lamp panel structure.

The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, but not in order to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, when can utilizing the technology contents of above-mentioned announcement to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be not depart from technical solution of the present invention content, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (13)

1. a method for designing for cellular LED lamp panel structure, is characterized in that it comprises the following steps:

Design a honeycomb circuit board, it is on a circuit substrate, to be designed with the multiple regular hexagons that join continuously each other, and those orthohexagonal each summits are defined as a set-point; And

Design one group of circular group plywood, it comprises the following steps:

Define a central point, this central point is this orthohexagonal center;

Design a circular slab, it is take this central point as the center of circle, goes out this circular slab take one first radius as radial design; And

Design multiple fanning strips, it is to give off the border of many lines of cut to this circular slab from this central point isogonism, to design those fanning strips.

2. the method for designing of cellular LED lamp panel structure according to claim 1, is characterized in that it further comprises at least one group of circular groups plywood of design, and it comprises the following steps:

Design at least one annular slab, it is take this central point as the center of circle, to be greater than at least one concentric circles of radial design of this first radius, to design at least one this annular slab; And

Design multiple arcs, it is the external boundary that is extended to each this annular slab by those lines of cut, to design those arcs in each this annular slab.

3. the method for designing of cellular LED lamp panel structure according to claim 2, it is characterized in that wherein this first radius is 2 unit lengths, and this concentrically ringed radius is 3,4 or 5 unit lengths.

4. the method for designing of cellular LED lamp panel structure according to claim 1 and 2, the angle that it is characterized in that wherein this isogonism radiation is 30 degree, 60 degree, 90 degree, 120 degree or 180 degree.

5. the method for designing of cellular LED lamp panel structure according to claim 1 and 2, is characterized in that wherein those lines of cut are by multiple these orthohexagonal sideline mid points.

6. the method for designing of cellular LED lamp panel structure according to claim 1 and 2, it is characterized in that it further comprises design fool proof point, it is at the both sides of each this line of cut design one first fool proof point and one second fool proof point, and this second fool proof point is adjacent with this first fool proof point, this first fool proof point is vertical with this corresponding line of cut with the line between this second fool proof point.

7. a method for designing for cellular LED lamp panel structure, it comprises the following steps:

Design a honeycomb circuit board, it is on a circuit substrate, to be designed with the multiple regular hexagons that join continuously each other, and those orthohexagonal each summits are defined as a set-point; And

Design at least one circular groups plywood, it comprises the following steps:

Define a central point, this central point is this orthohexagonal center;

Design at least one annular slab, it is take this central point as the center of circle and take one first radius as radial design one is circular and at least one concentric circles, to design at least one this annular slab on this circuit substrate; And

Design multiple arcs, it is to give off the external boundary of many lines of cut to each this annular slab from this central point isogonism, to design those arcs in each this annular slab.

8. the method for designing of cellular LED lamp panel structure according to claim 7, it is characterized in that wherein this first radius is 2 unit lengths, and this concentrically ringed radius is 3,4 or 5 unit lengths.

9. the method for designing of cellular LED lamp panel structure according to claim 7, the angle that it is characterized in that wherein this isogonism radiation is 30 degree, 60 degree, 90 degree, 120 degree or 180 degree.

10. the method for designing of cellular LED lamp panel structure according to claim 7, is characterized in that wherein those lines of cut are by multiple these orthohexagonal sideline mid points.

The method for designing of 11. cellular LED lamp panel structures according to claim 7, it is characterized in that it further comprises design fool proof point, it is at the both sides of each this line of cut design one first fool proof point and one second fool proof point, and this second fool proof point is adjacent with this first fool proof point, this first fool proof point is vertical with this corresponding line of cut with the line between this second fool proof point.

12. 1 kinds of modularized light emitting diode light source module structures, is characterized in that it has:

One cellular LED lamp panel structure, it is to be obtained by the method for designing design according to the cellular LED lamp panel structure described in arbitrary claim in claim 1 to 11; And

Multiple light emitting diodes, it is the multiple set-points that arrange one to one and be electrically connected on this cellular LED lamp panel structure.

13. modularized light emitting diode light source module structures according to claim 12, it is characterized in that it further comprises one group of first power connector end mouth and one group of second source connectivity port, it is one first fool proof point and the one second fool proof point that arranges respectively and be electrically connected on this cellular LED lamp panel structure.

Images