CN108224133A - Modularization lamps and lanterns and its light emitting module - Google Patents

Abstract

The present invention relates to a kind of modularization lamps and lanterns and its light emitting modules.The modularization lamps and lanterns and its light emitting module,By cylinder-shaped magnet being set to be used as magnetic part in housing,And the magnetic part has multiple magnetic pole pieces circumferentially about,And magnetic pole is different between adjacent magnetic pole piece,Magnetic part can be around the axially free rotation of itself in housing,Thus when by two pieces of light emitting module assembly,Cylinder-shaped magnet can rotate to achieve the effect that there is a natural attraction between the sexes in housing,Particularly the magnetic pole piece of magnetic part is around the circumferentially disposed of magnetic part,Namely magnetic pole piece is in fan-shaped column or fan annulated column,Compared with such as blocky magnet magnetic part for the cylinder-shaped magnet or other shapes that different magnetic poles are presented at both ends,It can more easily rotate and achieve the effect that there is a natural attraction between the sexes,Without too many set direction,It is assembled random strong,And due to being that partial cylindrical surface attracts each other,Attraction is stronger,It is combined together after assembled more stable.

Description

Modularization lamps and lanterns and its light emitting module

Technical field

The present invention relates to field of light fittings, more particularly, to a kind of modularization lamps and lanterns and its light emitting module.

Background technology

Modularization lamps and lanterns are paid close attention to because it has the characteristics that shape self assembly by consumers in general.Initial modularization The light emitting module of lamps and lanterns often can only simply, limited quantity, be stacked to limited angle, between module and module only The gravity of module is only relied on to maintain the stability stacked, thus lacks between module and module and is effectively stably connected with mode, Cause the contacted reliability between the conductive strips on the outside of module also excessively poor.There are also modularization lamps and lanterns to pass through in inside Setting the mode of the magnet of square enhances the binding force between module and module, such as application number CN201520575049.X and Modular light in CN201620442343.8 patents, the light emitting module of such modularization lamps and lanterns is in assembly, module and module Between can also binding force be enhanced by the magnetic attraction of built-in magnet.However the inner magnet number of such modularization lamps and lanterns It measures limited, also there was only 2-3 block magnet, module and mould as the larger lamp module being made of for one multiple cells Magnetic attracting force between block is not still strong, and the contacted reliability of conductive strips is not still high, and the set direction of magnet Stronger, the limited angle of splicing of property, can not 360 ° arbitrarily splice and combine.And if increase magnet quantity, easily there is same module The situation that polylith magnet between interior or disparate modules interferes with each other, can reduce magnetic attracting force instead, can also influence splicing group Randomness during conjunction can only could enhance magnetic attracting force in specific stitching position, all be unfavorable for free splicing in this way. Thus, traditional modularization lamps and lanterns and its light emitting module are required for being further improved.

Invention content

Based on this, it is necessary to provide it is a kind of can enhance between module the modularization lamps and lanterns of assembled stability and randomness and Its light emitting module.

A kind of light emitting module of modularization lamps and lanterns, the light emitting module include housing and the light source that is located in the housing and Magnetic part, the lateral wall of the housing have two conductive strips for surrounding the lateral wall, the conductive strips and the light Source is electrically connected, and the magnetic part is cylinder-shaped magnet, and the magnetic part has multiple magnetic pole pieces, and adjacent magnetic circumferentially about Magnetic pole is different between the portion of pole, and the magnetic part can be around the axially free rotation of itself in the housing；Multiple light emitting modules Between can contact to be electrically connected by the conductive strips, and can be combined together by the magnetic part magnetic attraction.

The inner surface of the lateral wall is equipped with magnet mounting groove in one of the embodiments, and the magnetic part activity is set It puts in the magnet mounting groove, and the thickness that the position of the magnet mounting groove is corresponded on the lateral wall of the housing is not more than The thickness at other positions of lateral wall.

The notch position of the magnet mounting groove is equipped with Elastic buckle, the Elastic buckle in one of the embodiments, End be equipped with limit protrusion, the limit protrusion, which has, slips into inclined-plane, and the magnetic part is limited by the Elastic buckle in institute It states in magnet mounting groove.

The light emitting module is made of one or more cells in one of the embodiments, the cell it is each Lateral wall is correspondingly provided with the magnetic part.

The magnetic part is set on the middle part of each lateral wall of the cell in one of the embodiments,；The magnetism The length of part and the ratio of outer diameter are (0.8~1.3):1, it is preferred that the length of the magnetic part is equal to its outer diameter.

Each conductive strips include the electrically conducting contact and connecting portion that are arranged alternately, institute in one of the embodiments, Electrically conducting contact is stated for for contacting electrical connection, the adjacent conductive contact of the connecting portion electrical connection between two light emitting modules Portion, the surface of the electrically conducting contact protrudes from the surface of the connecting portion, the length of the connecting portion on the lateral wall Width more than the electrically conducting contact and the length no more than the electrically conducting contact, two conductive strips are described outer It is arranged in parallel on side wall and wherein the connecting portion of a conductive strips is corresponding with the electrically conducting contact position of another conductive strips.

Each conductive strips further include stability maintenance portion in one of the embodiments, and the stability maintenance portion connects with the conduction Contact portion connects and surface is flushed with the surface of the electrically conducting contact；

The light emitting module is additionally provided with compensation bone, the surface of the compensation bone and the electrically conducting contact on outer side wall Surface flushes.

The light emitting module is internally provided with circuit board in one of the embodiments, and the both ends of the circuit board are equipped with Conductive contact, the light source are located on the circuit board；

The light emitting module is internally provided at least two non-conductive sockets, and the surface of the non-conductive socket is equipped with and conductive bar Conductive coating with electrical connection, the both ends of the circuit board are respectively inserted into the non-conductive socket being electrically connected from different conductive strips To be electrically connected from different conductive strips.

Sounding component, the sounding component and the conductive bar are additionally provided in the housing in one of the embodiments, Band electrical connection.

A kind of modularization lamps and lanterns, including the light emitting module described in multiple any of the above-described embodiments, multiple light emitting modules In at least one described light emitting module be primary module, as in the light emitting module of primary module be equipped with control circuit board, switch and Power Supply Assembly, the control circuit board are electrically connected with the switch, the Power Supply Assembly, the light source and the conductive strips.

The modularization lamps and lanterns and its light emitting module of the present invention (can be solid by setting cylinder-shaped magnet in housing Or it is hollow) as magnetic part, and the magnetic part has multiple magnetic pole pieces, and adjacent magnetic pole circumferentially about Magnetic pole is different between portion, and magnetic part can spell in housing around the axially free rotation of itself, thus by two pieces of light emitting modules During dress, cylinder-shaped magnet can be rotated in housing to achieve the effect that there is a natural attraction between the sexes, and particularly the magnetic pole piece of magnetic part is in fan Shape column (corresponding solid cylinder-shaped magnet) or fan annulated column (corresponding hollow cylinder-shaped magnet), different magnetic are presented compared at both ends The cylinder-shaped magnet of pole or such as blocky magnet magnetic part of other shapes, inside same light emitting module or different light emitting modules it Between magnetic part without interfering with each other too much, different magnetic parts can turn to suitable position from adaptation and reach the effect that there is a natural attraction between the sexes Fruit, thus when 360 ° are optionally combined between different light emitting module can have magnetic attracting force that is stronger and stablizing, without carrying out Too many set direction, it is assembled random strong, and due to being that partial cylindrical surface attracts each other, attraction is stronger, after assembled It is combined together more stable, to be also beneficial in this way between raising conductive strips contacted reliability.

Further, each conductive strips of the invention include the electrically conducting contact and connecting portion that are arranged alternately, electrically conducting contact For for contacting electrical connection between two light emitting modules, connecting portion to be electrically connected adjacent electrically conducting contact, conductive on outer side wall The surface of contact site protrudes from the surface of connecting portion, and the length of connecting portion is more than the width of electrically conducting contact and is connect no more than conduction The length of contact portion, two conductive strips are arranged in parallel on outer side wall and the wherein connecting portion of a conductive strips and another conductive bar The electrically conducting contact position of band corresponds to, and in this way when being freely combined for 360 °, the conductive strips between different light emitting modules can Electrical contact is connected without powering off, and will not short circuit.Coordinate the magnetic part of the cylinder-shaped magnet of above-mentioned setting, compared with traditional Can only be spliced with the 2D of conductive strips or magnetic part run-in index or can only special angle (such as conductive strips are mutually perpendicular to) it is limited 3D splicings, can ensure between the different light emitting modules of modularization lamps and lanterns of the invention all to have under arbitrarily splicing angle compared with Attraction that is strong and stablizing, contacted reliability and the randomness of splicing so as to be more advantageous to improving during 3D combinations.

Further, magnetic part of the invention is set on the middle part of each lateral wall for the cell for forming light emitting module, thus Magnetic part rule distribution in entire light emitting module, light emitting modules different in this way can carry out in a manner that cell is aligned Splicing, can reduce interfering with each other for the magnetic part in different units lattice, ensure that different light emitting modules are being aligned with cell With best contact stabilization when mode is spliced.

Further, the length of magnetic part of the invention and the ratio of outer diameter are (0.8~1.3):1, it is preferred that magnetic part Length be equal to its outer diameter namely the present invention magnetic part length and outer diameter it is basically identical, magnetic part can be controlled in this way Length is unlikely to long to reduce interfering with each other between different magnetic parts, and can make attract each other two magnetic parts with All there is relative area big as possible to provide attraction big as possible when unspecified angle splices, further to improve different hairs Contact stabilization of the optical module in the range of 360 °.

Description of the drawings

Fig. 1 is the structure diagram of the light emitting module of an embodiment；

Fig. 2 is the structure diagram that two side cover plates are removed in Fig. 1；

Fig. 3 is the decomposition diagram of light emitting module in Fig. 1；

Fig. 4 is the assembling schematic diagram of part-structure in Fig. 1；

Fig. 5 is the assembling schematic diagram of the part-structure of the light emitting module as subordinate；

Fig. 6 is the structure diagram of magnetic part in Fig. 1；

Fig. 7 is the structure diagram of linear type light emitting module；

Fig. 8 is that "-" type light emitting module removes the structure diagram after a side cover plate；

Fig. 9 is the structure diagram of L-shaped light emitting module；

Figure 10 is that L-shaped light emitting module removes the structure diagram after a side cover plate；

Figure 11 is the structure diagram of zigzag light emitting module；

Figure 12 is that zigzag light emitting module removes the structure diagram after a side cover plate；

Figure 13 is the structure diagram of T-shaped light emitting module；

Figure 14 is that T-shaped light emitting module removes the structure diagram after a side cover plate；

Figure 15 is the structure diagram of matrix pattern light emitting module；

Figure 16 is that matrix pattern light emitting module removes the structure diagram after a side cover plate；

Figure 17 is the structure diagram of cross light emitting module；

Figure 18 is that cross light emitting module removes the structure diagram after a side cover plate；

Figure 19 is the structure diagram of the light emitting module of the "-" type primary module of other embodiment；

Figure 20 is that the "-" type primary module of other embodiment removes the structure diagram after a side cover plate；

Figure 21 is the structure diagram of the light emitting module with sounding component of other embodiment；

Figure 22 is the structure diagram that light emitting module removes after a side cover plate shown in Figure 21；

Figure 23 and Figure 24 splices schematic diagram for two light emitting modules in a manner that conductive strips are parallel；

When schematic diagram is spliced in Figure 25,26 and 27 for two light emitting modules in a manner that conductive strips are perpendicular；

Schematic diagram is spliced in Figure 28,29 and 30 for various sizes of light emitting module；

Figure 31 is the stereoscopic schematic diagram that multiple light emitting modules are spliced to form.

Specific embodiment

For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In attached drawing Give presently preferred embodiments of the present invention.But the present invention can realize in many different forms, however it is not limited to this paper institutes The embodiment of description.On the contrary, the purpose for providing these embodiments is to make the understanding to the disclosure more thorough Comprehensively.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all of technologies and scientific terms used here by the article is with belonging to technical field of the invention The normally understood meaning of technical staff is identical.Term used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein "and/or" includes one or more phases The arbitrary and all combination of the Listed Items of pass.

As depicted in figs. 1 and 2, the light emitting module 100 of an embodiment includes housing 110, the magnetic part being located in housing 110 120 and the conductive strips 130 that are located on housing 110.

The inside of housing 100 has accommodating chamber, and magnetic part 120 is located in accommodating chamber.Specifically, incorporated by reference to Fig. 1 to Fig. 4, Housing 110 includes the first cover board 111, the second cover board 112 and connection frame 113.First cover board 111 is set relatively with the second cover board 112 It puts, connection frame 113 is between the first cover board 111 and the second cover board 112.First cover board 111, the second cover board 112 and connection frame It is clamped by being buckled between 113, and is further fixed together by screw 114.First cover board 111 and the second cover board 112 have the side of sidewall portion that plate-like transparent or semitransparent cover plate main body portion and the side to cover plate main body portion extend.First Cover board 111, the second cover board 112 and connection frame 113 preferably make molding using nonconducting plastic material.First cover board 111 The lateral wall 115 of housing 110 is formed on the whole with the side of sidewall portion mating connection frame 113 of the second cover board 112.

Housing 110 is equipped with two conductive strips for surrounding lateral wall in the side of sidewall portion of each cover board and close each cover plate main body portion 130.Conductive strips 130 can also preferably be led using the plastic material of surface plating conductive layer (such as metal layer) or by metal etc. Electric material is fabricated directly into type.Conductive strips 130 protrude from the surface of the side of sidewall portion of each cover board, to be easy to and other light emitting modules On conductive strips be in contact.

In the present embodiment, it is equipped with band mounting groove 116 on the first cover board 111 and the second cover board 112.Band mounting groove 116 are opened in side of sidewall portion and surround and set close to cover plate main body portion.Conductive strips 130 are mounted in the band mounting groove 116.

The conductive strips 130 of the present embodiment are also to the side extension where cover plate main body portion, and around cover plate main body portion Periphery is set.Conductive strips 130 are equipped with mounting hole 117 to the part that cover plate main body portion side extends, and are equipped with peace inwardly Column 118 is filled, screw 114 passes through the mounting hole 117 of a conductive strips 130 and 118 spiral shell of mounting post of another conductive strips Line connects, and the first intermediate cover board 111, the second cover board 112 are further locked together with connecting frame 113.It is preferred that , in the present embodiment, the mounting hole that screw 114 is supplied to pass through also is provided on the first cover board 111 and the second cover board 112 (in figure not Mark), can improve on the whole in this way the first cover board 111, the second cover board 112, connection frame 113 and two conductive strips 130 it Between the stability assembled.

Further, conductive strips 130 are equipped with conductive column 119 inwardly to the part that cover plate main body portion side extends.It should The surface of conductive column 119 has conductive layer, which is electrically connected with conductive strips 130.Preferably, conductive column 119 surface Conductive layer is the coating structure being integrally formed with the conductive layer of conductive strips 130.Conductive column 119 is equipped with non-conductive socket 1192, the both ends of the circuit board 140 in the light emitting module 100 are respectively equipped with conductive contact, and the both ends of circuit board 140 are respectively inserted in It in the non-conductive socket 1192, and is electrically connected with conductive column 119, so as to which the electric current on conductive strips 130 can be conducted to circuit board 140 or circuit board 140 on electric current can conduct to conductive strips 130.By setting conductive column 119, and conductive insert is set Slot 1192 is directly electrically connected by with circuit board 140 in a manner of clamping, can remove the trouble that setting conducting wire connects, structure design essence from Ingeniously.

In the present embodiment, for light emitting module 100 on the whole in cube structure, mounting hole 117 and mounting post 118 have two Group, two groups of mounting holes 117 and mounting post 118 are diagonally positioned, and conductive column 119 also has two groups, and two groups of conductive columns 119 are also in pair Angle is set.Conductive column 119 is arranged in parallel with mounting post 118.

Fig. 1~light emitting module shown in Fig. 4 100 is is internally provided with circuit board 140, switch 150, interface 160 and chargeable The primary module of power supply 170.Switch 150, interface 160 and rechargable power supplies 170 are electrically connected respectively with circuit board 140.As main mould Light source can be set inside the light emitting module 100 of block, and light source directly connect with circuit board electricity 140, by external power supply or can fill Power supply 170 is powered on to illuminate.As shown in figure 5, for other light emitting modules 101 as slave module, structure is led with being used as 100 structure of light emitting module of module is essentially identical, and conductive strips 102 are by the conductive column 103 that is integrally electroplated with it and are fastened on Inside light emitting module 101 and the circuit board 104 for contacting and being electrically connected with conductive column 103 and internal light source (not shown) are electrically connected It connects, when two conductive strips 102 are connected via two electrodes of other conductive strips and the power supply of primary module, light source igniting or logical Control circuit control is crossed to glisten.Preferably, there are multiple, multiple light sources as the light source inside the light emitting module of slave module Two conductive strips 130 and the operative scenario of the Different electrodes connection of power supply are corresponded to respectively, in order to which different light emitting modules are not with With direction and angle be optionally combined after can shine, and can also correspond to when being connected with the Different electrodes of power supply, light source With different mode of operation.

In other embodiments, the structure of housing 110 is not limited to described above, the embodiment as shown in Figure 19 and Figure 20 In, relative to the first cover board 111 and the second cover board 112 in Fig. 3, the first cover board 811 and the second cover board in Figure 19 and Figure 20 812 can also be about one piece of platy structure on the whole, without the side of sidewall portion, correspondingly, can be plated and are formed with by surface The conductive strip 830 of conductive layer forms conductive pane and directly as a part for side wall, and outside is collectively formed with connecting frame 820 Wall, and can be directly realized by and contact electrical connection with elements such as internal circuit boards, it please specifically join and describe below.

As shown in fig. 6, in the present embodiment, magnetic part 120 is cylinder-shaped magnet, can be solid cylinder-shaped magnet, It can also be hollow cylinder-shaped magnet.Magnetic part 120 circumferentially about (in figure with the arrow curve shown in direction) have it is multiple Magnetic pole piece 122.Magnetic pole is different between adjacent magnetic pole piece 122.Magnetic part 120 can be around the axial direction of itself certainly in housing 110 By rotating.In specific embodiment shown in Fig. 6, there are two the magnetic pole pieces 122 of magnetic part 120, and each magnetic pole piece 122 is in semicolumn Shape, two magnetic pole pieces 122 are symmetrical arranged.It is understood that in other embodiments, the magnetic pole piece 122 of magnetic part 120 is not limited to two It is a, such as can be four or more, magnetic pole difference between adjacent magnetic pole piece 122.

Magnet mounting groove 1132 is equipped in housing 110 on lateral wall 115.It is set at the notch position of magnet mounting groove 1132 Flexible buckle 1134.The end of Elastic buckle 1134 is equipped with limit protrusion (being mark in figure), which, which has, is convenient for What magnetic part 120 slipped into slips into inclined-plane, and after magnetic part 120 is slipped into magnet mounting groove 1132, magnetic part 120 can be by the elasticity 1134 limiting of buckle is in magnet mounting groove 1132.By setting Elastic buckle 1134, magnetic part 120 can be prevented in luminous mould 100 civil strike turmoil of block is run, and can such as prevent the different magnetic parts in same light emitting module are spontaneous to attract each other and be gathered in one Rise, so as to greatly simplify the assembly difficulty of light emitting module, run chaotically after assembling can also be avoided in the process magnetic part of use and It flocks together or is interfered and assembled by the magnetic part in different light emitting modules.In the present embodiment, magnetic part 120 is in magnetic It is activity setting in iron mounting groove 1132.The activity setting refers to that cylindrical magnetic part 120 can be around the axis of itself It is freely rotated, and width (or internal diameter) limitation of magnet mounting groove 1132 makes magnetic part 120 not may be reversed.Preferably, magnetic part 120 extending direction for being axially perpendicular to conductive strips 130 on respective outer wall.Further, the lateral wall 115 of housing 110 exists Thickness close to the position of magnet mounting groove 1132 is less than the thickness at 115 other positions of lateral wall.Specifically, as shown in Fig. 2, magnetic Iron mounting groove 1132 is located in connection frame 113, and the thickness of connection frame 113 is less than the side wall of the first cover board 111 and the second cover board 112 The thickness in portion.

Can be contacted in multiple light emitting module assembly, between adjacent two light emitting modules by conductive strips 130 and Electrical connection, and can be combined together by 120 magnetic attraction of magnetic part, the thickness of connection frame 113 is less than 111 He of the first cover board The thickness of the side of sidewall portion of second cover board 112 in this way when two light emitting module assembly contact, can improve the suction of magnetic part 120 Gravitation is prevented because of the too thick reduction magnetic attracting force of wall thickness.

The light emitting module 100 by the housing 110 setting cylinder-shaped magnet be used as magnetic part 120, and the magnetic part 120 There are multiple magnetic pole pieces 122 circumferentially about, and magnetic pole is different between adjacent magnetic pole piece 122, magnetic part 120 is in housing 110 It is interior can be around the axially free rotation of itself, thus when by two pieces of light emitting module assembly, cylinder-shaped magnet can be in housing 110 Interior rotation to achieve the effect that there is a natural attraction between the sexes, particularly the magnetic pole piece of magnetic part 120 around the circumferentially disposed of magnetic part 120 namely Magnetic pole piece 122 is in fan-shaped column (corresponding solid cylinder-shaped magnet) or fan annulated column (corresponding hollow cylinder-shaped magnet), compared with The cylinder-shaped magnet of different magnetic poles or such as blocky magnet magnetic part of other shapes is presented in both ends, can more easily be rotated up to It is assembled random strong without too many set direction to the effect that there is a natural attraction between the sexes, and due to being that partial cylindrical surface is mutually inhaled Draw, attraction is stronger, is combined together after assembled more stable.

Light emitting module of the present invention can be made of a rectangular cell or by multiple rectangular Cell form, light emitting module 100 and light emitting module shown in fig. 5 101 as shown in Figure 1 is by a unit lattice Into；Again as shown in fig. 7, the light emitting module 200 is the linear type Tetris shape being made of four cells 202；For another example Shown in Fig. 9, which is the L-shaped Tetris shape being made of four cells 302；Again as shown in figure 11, The light emitting module 400 is the zigzag Tetris shape being made of four cells 402；Again as shown in figure 13, the mould that shines Block 500 is the T-shaped Tetris shape being made of four cells 502；Again as shown in figure 15, which is The matrix pattern Tetris shape being made of four cells 602；Again as shown in figure 17, which is by five The cross Tetris shape that cell 702 is formed.Cell as described herein is the shape angle from each light emitting module Degree illustrates the outer shape of each light emitting module, and the particular hardware for being not limited to each light emitting module is formed, light emitting module 200, 300th, 400,500,600 and 700 it is regarded as what is be made of multiple cells, but each light emitting module is substantially one whole Body.Fig. 1~17 are example, it is appreciated that in other embodiments, the shape of light emitting module can be varied, is not limited to Described in face.

Further, as shown in Fig. 2, Fig. 8, Figure 10, Figure 12, Figure 14, Figure 16, Figure 18, each unit lattice of light emitting module are formed The inside of lateral wall be equipped with the magnetic part, in this way in two light emitting module assembly, its magnetic attraction can be improved Binding force.Further, the distance between adjacent magnetic part is equal to the length of side of cell (between magnetic part as described herein Distance refers to the stroke distances around connection frame, and particularly the centre of two magnetic parts is around the stroke distances of connection frame), such as Magnetic part can be correspondingly arranged to the middle part of the lateral wall of each unit lattice, in this way in assembly, it is possible to the side of cell Length is translated for a unit, so that different light emitting modules ensure in assembly on each lateral wall being in contact Magnetic part can be just opposite, assembled so as to stablize, and reduces and easily collapses due to magnetic part misplaces and occurs and attract not in place Happen.

For the light emitting module at the middle part of lateral wall that magnetic part is correspondingly arranged to each unit lattice, the length of magnetic part with The ratio of outer diameter is (0.8~1.3):1, it is preferred that the length of magnetic part is equal to its outer diameter.Namely control magnetic part length with Outer diameter is basically identical, and the length of magnetic part can be controlled to be unlikely to long mutually dry between different magnetic parts to reduce in this way It disturbs, and can make attract each other two magnetic parts that all there is relative area big as possible to provide when splicing with unspecified angle Attraction big as possible, further to improve contact stabilization of the different light emitting modules in the range of 360 °.

Light emitting module shown in Fig. 1, Fig. 5, Fig. 7, Fig. 9, Figure 11, Figure 13, Figure 15 and Figure 17 be a kind of corresponding size slightly Big modularization lamps and lanterns design, internal and the structures such as to be conductively connected similar in addition to outer shape；Shown in Figure 19 and Figure 20 Light emitting module be a kind of smaller modularization lamps and lanterns of corresponding size to design, the smaller light emitting module of other sizes is except outside It is internal and the structures such as to be conductively connected also all similar with the light emitting module shown in Figure 19 and Figure 20 outside shape.

For the light emitting module being made of multiple cells shown in Fig. 7, Fig. 9, Figure 11, Figure 13, Figure 15 and Figure 17, to scheme For light emitting module 200 shown in 7, Fig. 7 and Fig. 8 please be join, which is made of four cells, conductive strips 230 are equipped with conductive horizontal frame 232 to the part that cover plate main body portion side extends around each unit lattice, and conductive horizontal frame 232 will be each Cover board is divided into multiple windows.Conductive strips 230 are provided inwardly with non-conductive socket 234.Circuit board 240 inside light emitting module 200 Both ends are respectively equipped with conductive contact, and be plugged in respectively in the non-conductive socket 234 of two conductive strips 230 with corresponding conduction Band 230 forms electrical connection.For the smaller light emitting module of size shown in Figure 19 and Figure 20, conductive strips 830 are in inside It is again provided with the non-conductive socket 834 for power circuit board grafting.

The present invention sets conductive contact by setting non-conductive socket in the inside of light emitting module, and at the both ends of circuit board, In this way when the both ends of circuit board are inserted into the non-conductive socket that is electrically connected respectively with two conductive strips, circuit board can be directly with two Conductive strips form electrical connection, without being connected by numerous and diverse connection structure such as conducting wire, are conducive to rational deployment internal structure, Conducting wire etc. is avoided to influence light extraction, and the contact stabilization of grafting is good, it is easy for installation, it is easy to make without processes such as welding.

Continue below using Fig. 1~light emitting module 100 shown in Fig. 4 being made of a cell as example to the mould that shines The structure of block is further detailed.

As shown in Figure 3 and Figure 4, each conductive strips 130 include the electrically conducting contact 131 being arranged alternately and connecting portion 132.It is excellent Choosing, the sum of length of an electrically conducting contact 131 and a connecting portion 132 is equal to the length of side of a cell.Two shine It can be contacted and be electrically connected by electrically conducting contact 131 between module.Connecting portion 132 is electrically connected adjacent electrically conducting contact 131.It is conductive The surface of contact site 131 protrudes from the surface of connecting portion 132 namely each conductive strips 130 are rough shapes, Huo Zhelian Socket part 132 around cover plate main body portion set and there is no connecting portion 132 on outer side wall 115, in a word on outer side wall 115, The surface of electrically conducting contact 131 needs to protrude from the surface of connecting portion 132, so that connecting portion 132 is ensureing that electrical connection is adjacent Can also be played while electrically conducting contact 131 prevent because splice it is improper occur it is short-circuit.The length of connecting portion 132 is more than The width of electrically conducting contact 131 and the length for being not more than electrically conducting contact 131.Two conductive strips 130 are parallel on outer side wall 115 It sets and wherein the connecting portion 132 of a conductive strips 130 is corresponding with 131 position of electrically conducting contact of another conductive strips 130.This It is corresponding with 131 position of electrically conducting contact of another conductive strips 130 to locate the wherein connecting portion 132 of a conductive strips 130 Refer to any connecting portion at least section of half length of a wherein conductive strips 130 and the conduction of another conductive strips 130 131 position of contact site corresponds to.Further, the end of the corresponding electrically conducting contact 131 of two conductive strips 130 collinearly flush or Person has part overlapping, and during ensureing that different light emitting modules splice, electrically conducting contact 131 can be contacted effectively, avoid the occurrence of presence The situation of contact and open circuit can not be corresponded to.

Conductive strips 130 with above structure can allow two light emitting modules parallel with conductive strips Mode is spliced, and as shown in figure 23 and figure 24, when two light emitting modules splice in a manner that conductive strips are parallel, two shine The axial direction of mould magnetic part in the block is parallel, and in splicing, each magnetic part can be suitable to turn to around the axial rotation of itself Position achievees the effect that there is a natural attraction between the sexes；The situation without short circuit can also be spliced in a manner that conductive strips are perpendicular, As shown in Figure 25,26 and 27, when two light emitting modules splice in a manner that conductive strips are perpendicular, in two light emitting modules Magnetic part it is axially vertical, splicing when each magnetic part can also be put down around the axial rotation of itself with turning to suitable position Weigh attraction, achievees the effect that there is a natural attraction between the sexes.In short, the conductive strips between the different light emitting modules of the present invention can be with unlimited Any angle in the range of parallel and vertical 360 ° contacts electrical connection, coordinates the magnetism of the cylinder-shaped magnet of above-mentioned setting Part can only be spliced or can only special angle (such as conductive strips phase compared with traditional with the 2D of conductive strips or magnetic part run-in index Limited 3D mutually vertically) splices, and can ensure arbitrarily splicing between the different light emitting modules of modularization lamps and lanterns of the invention All there is attraction that is stronger and stablizing under angle, the contacted reliability and splicing so as to be more advantageous to improving during 3D combinations It is random.It is understood that in other embodiments, which can also be the banded structure of a surfacing, in this way When two pieces of light emitting modules splice, as long as splicing in a manner that conductive strips are parallel.

Further, each conductive strips 130 further include stability maintenance portion 133.Stability maintenance portion 133 is connect with electrically conducting contact 131 and table Face is flushed with the surface of electrically conducting contact 131.Such as in Fig. 3 and specific embodiment shown in Fig. 4, stability maintenance portion 133 connects with conduction Contact portion 131 forms L-shaped.By setting stability maintenance portion 133, the contact surface of entire conductive strips 130 in assembly, can be increased Product prevents from, because placing not pancake collapse, improving assembled stability.In addition, stability maintenance portion 133 is also used as electrically conducting contact 131 Further extension, so as to can also be electrically connected between various sizes of light emitting module, as shown in Figure 28, Figure 29 and Figure 30.

In Fig. 3 and specific embodiment shown in Fig. 4, electrically conducting contact 131, connecting portion 132 and stabilizers 133 are integrated Molding conduction mount structure.

Further, light emitting module 100 is equipped on the first cover board 111 of both sides and the side of sidewall portion of the second cover board 112 and mends Repay bone 180.The surface of compensation bone 180 is flushed with the surface of conductive strips 130.Such as in Fig. 1 and specific embodiment shown in Fig. 2 In, compensation bone 180 also L-shaped structure.Bone 180 is compensated by setting, the contact of two light emitting modules can be further improved Area, so as to improve assembled stability.

It is understood that in other embodiments, the conductive strips 130 of the light emitting module 100 can not have stability maintenance portion 133 and/ Or compensation bone 180.

As shown in figure 31, the modularization lamps and lanterns 10 of an embodiment, including shining described in multiple any of the above-described embodiments Module.Preferably, it is at least different there are two the shape of light emitting module in multiple light emitting modules.Multiple light emitting modules can be spelled freely Dress is combined into different shape and structure, and flexibility is high.

At least one light emitting module is primary module in multiple light emitting modules.Light emitting module 100 as shown in Figure 1 be based on Module.As circuit board 140, switch 150, interface 160 and the chargeable electricity that control is equipped in the light emitting module 100 of primary module 170 grade components of source.Circuit board 140 and switch 150, interface 160, rechargable power supplies 170, light source and conductive strips 130 etc. are electrically connected It connects.It is understood that in other embodiments, it can also be without chargeable power supply 170, the mode that direct external power supply can be used supplies Electricity；Or it without interface 160, is directly powered using chargeable power supply 170.

In addition, in other embodiments, as shown in figs. 21 and 22, sounding component is also provided in light emitting module 900 980.The sounding component 980 has the components such as loud speaker and memory, can be used for playing music, story, poem etc..It is preferred that , acoustic aperture 917 is additionally provided with out on housing 910, this goes out the loud speaker setting of the further preferably corresponding sounding component 980 of acoustic aperture 917. The sounding component 980 is electrically connected with conductive strips 930, can set the conductive bar when conductive strips 930 and other light emitting modules Electrical conductive communication during band parallel contact, sounding component 980 sends out a kind of sound, when leading for conductive strips 930 and other light emitting modules During electric band perpendicular contact, sounding component 980 does not make a sound or sends out other sound.Further, it is also possible to by sounding component 980 With light source couples, make while sounding, light source igniting or flash of light.

The modularization lamps and lanterns 10 of present embodiment can contact to be electrically connected by the conductive strips on each light emitting module, and It can be combined together by magnetic part magnetic attraction and combination is stable, with assembled random height, flexible structure is changeable and spells Fill the advantages that stability is good.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Embodiment described above only expresses the several embodiments of the present invention, and description is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that those of ordinary skill in the art are come It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of light emitting module of modularization lamps and lanterns, which is characterized in that the light emitting module includes housing and is located at the housing Interior light source and magnetic part, the lateral wall of the housing have two conductive strips for surrounding the lateral wall, the conductive bar Band is electrically connected with the light source, and the magnetic part is cylinder-shaped magnet, and the magnetic part has multiple magnetic pole pieces circumferentially about, And magnetic pole is different between adjacent magnetic pole piece, the magnetic part can be around the axially free rotation of itself in the housing；It is more It can be contacted to be electrically connected by the conductive strips between a light emitting module, and the magnetic part magnetic attraction knot can be passed through It is combined.

2. light emitting module as described in claim 1, which is characterized in that the inner surface of the lateral wall is equipped with magnet mounting groove, The magnetic part is movably arranged in the magnet mounting groove, and the magnet mounting groove is corresponded on the lateral wall of the housing The thickness at position is not more than the thickness at other positions of lateral wall.

3. light emitting module as claimed in claim 2, which is characterized in that the notch position of the magnet mounting groove is equipped with elastic card Button, the end of the Elastic buckle are equipped with limit protrusion, and the limit protrusion, which has, slips into inclined-plane, and the magnetic part is by the bullet Property buckle limiting in the magnet mounting groove.

4. light emitting module according to any one of claims 1 to 3, which is characterized in that the light emitting module is by one or more A cell is formed, and each lateral wall of the cell is correspondingly provided with the magnetic part.

5. light emitting module as claimed in claim 4, which is characterized in that the magnetic part is set on each lateral wall of the cell Middle part；The length of the magnetic part and the ratio of outer diameter are (0.8~1.3):1, it is preferred that the length of the magnetic part is equal to Its outer diameter.

6. light emitting module according to any one of claims 1 to 3, which is characterized in that each conductive strips include alternating The electrically conducting contact and connecting portion of setting, the electrically conducting contact is used for for contacting electrical connection between two light emitting modules, described Connecting portion is electrically connected adjacent electrically conducting contact, and the surface of the electrically conducting contact protrudes from the connection on the lateral wall The surface in portion, the length of the connecting portion are more than the width of the electrically conducting contact and no more than the length of the electrically conducting contact Degree, two conductive strips are arranged in parallel on the lateral wall and the wherein connecting portion of a conductive strips and another conductive bar The electrically conducting contact position of band corresponds to.

7. light emitting module as claimed in claim 6, which is characterized in that each conductive strips further include stability maintenance portion, the dimension Steady portion is connect with the electrically conducting contact and surface is flushed with the surface of the electrically conducting contact；

The light emitting module is additionally provided with compensation bone, the surface of the compensation bone and the surface of the electrically conducting contact on outer side wall It flushes.

8. light emitting module according to any one of claims 1 to 3, which is characterized in that the light emitting module is internally provided with Circuit board, the both ends of the circuit board are equipped with conductive contact, and the light source is located on the circuit board；

The light emitting module is internally provided at least two non-conductive sockets, and the surface of the non-conductive socket is equipped with to be charged with conductive bar The conductive coating of connection, the both ends of the circuit board be respectively inserted into the non-conductive socket being electrically connected from different conductive strips with Different conductive strips electrical connections.

9. light emitting module according to any one of claims 1 to 3, which is characterized in that sounding group is additionally provided in the housing Part, the sounding component are electrically connected with the conductive strips.

10. a kind of modularization lamps and lanterns, which is characterized in that including multiple such as luminous mould according to any one of claims 1 to 9 Block, at least one described light emitting module is primary module in multiple light emitting modules, as being set in the light emitting module of primary module Have control circuit board, switch and a Power Supply Assembly, the control circuit board and the switch, the Power Supply Assembly, the light source and The conductive strips electrical connection.