CN217899650U - Ultra-thin magnetic rail system adaptive to different multi-lighting lamps and lighting equipment - Google Patents

Abstract

The application provides a track system and lighting apparatus are inhaled to ultra-thin magnetism of many illumination lamps and lanterns of adaptation difference. The ultrathin magnetic rail system adaptive to different lighting lamps comprises a linear rail, a power supply module and a lighting lamp. The first magnetic adsorption body is arranged on the track body, and the linear conductive strips are arranged on the inner wall of the track body. The second magnetic adsorption body and the elastic propping conductive part are respectively arranged on the insertion frame, the insertion frame is inserted in the track body and is used for enabling the second magnetic adsorption body to be magnetically adsorbed and connected with the first magnetic adsorption body, the elastic propping conductive part is elastically propped and electrically connected with the linear conductive strip, and the connecting wire is respectively electrically connected with the elastic propping conductive part and the power driver. The electricity taking module is inserted on the track body and is electrically connected with the linear conductive strip. The ultra-thin magnetic rail system adaptive to different lighting lamps has lower requirement on installation specialty and higher installation efficiency.

Description

Ultra-thin magnetic rail system adaptive to different multi-lighting lamps and lighting equipment

Technical Field

The utility model relates to a technical field of illumination especially relates to a track system and lighting apparatus are inhaled to ultra-thin magnetism of different many illumination lamps and lanterns of adaptation.

Background

The LED lamp driver is a power supply adjustment electronic device for driving an LED to emit light or driving an LED module assembly to normally work, the LED driver is generally a one-to-one servo device, an input end of the LED driver is directly electrically connected with a mains supply, an output end of the LED driver is directly connected with the LED lamp, in the linear track lamp, the output end of the power driver is generally electrically connected with the LED lamp for welding at a track of the corresponding linear track lamp, namely the output end of the power driver and the track of the linear track lamp need to be welded and fixed during preassembling, the welding greatly increases the installation specialty of the linear track lamp and reduces the installation efficiency of the linear track lamp, and when various LED lamps need to be installed simultaneously, the power driver needs to be sequentially welded on the various LED lamps, so that the installation difficulty is increased and the installation efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide a track system and lighting apparatus are inhaled to ultra-thin magnetism of the different many illumination lamps and lanterns of adaptation that the installation specialty requirement is lower and the installation effectiveness is higher.

The purpose of the utility model is realized through the following technical scheme:

an ultra-thin magnetic rail system adapted to a plurality of different lighting fixtures, comprising:

the linear track comprises a track body, a first magnetic adsorption body and linear conductive strips, wherein the first magnetic adsorption body is arranged on the track body, and the linear conductive strips are arranged on the inner wall of the track body;

the power supply module comprises a plug-in frame, a second magnetic adsorption body, an elastic propping conductive part, a connecting wire and a power driver, wherein the second magnetic adsorption body and the elastic propping conductive part are respectively arranged on the plug-in frame, the plug-in frame is plugged in the track body and is used for magnetically attracting and connecting the second magnetic adsorption body and the first magnetic adsorption body, the elastic propping conductive part is elastically propped and electrically connected with the linear conductive strip, and the connecting wire is respectively electrically connected with the elastic propping conductive part and the power driver; and

the lighting lamp comprises a power taking module and a lighting module, wherein the power taking module is inserted into the track body and electrically connected with the linear conductive strips, the lighting module comprises a grille lamp, a ceiling lamp, a spotlight, a wall lamp, a down lamp, a floodlight and/or a ceiling lamp, and the grille lamp, the pendent lamp, the spotlight, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are electrically connected with the power taking module.

In one embodiment, the inner wall of the track body is provided with a slot, the linear bus bar comprises an insulating embedding part and a bus bar body, the insulating embedding part is embedded into the slot, and the bus bar body is arranged on the insulating embedding part, so that a space is arranged between the bus bar body and the track body.

In one embodiment, an embedding groove is formed in the outer side of the insulating embedding piece, the opening of the embedding groove is consistent with the opening direction of the clamping groove, and the bus bar body is embedded in the embedding groove.

In one embodiment, the linear track includes two linear conductive strips, the two linear conductive strips are respectively disposed on two opposite inner walls of the track body, the power supply module includes two elastic supporting conductive portions, the two elastic supporting conductive portions are respectively disposed on the plug frame, and the two elastic supporting conductive portions are in one-to-one correspondence with the two linear conductive strips and elastically support and electrically connect the two linear conductive strips.

In one embodiment, the inserting frame is provided with an installation groove, the second magnetic adsorption body is arranged in the installation groove, and the second magnetic adsorption body is in contact with the first magnetic adsorption body.

In one embodiment, the bottom of the track body is provided with a limiting groove, and the first magnetic adsorption body is slidably arranged on the limiting groove.

In one embodiment, the outer wall of the track body is provided with a mounting wing plate.

In one embodiment, the bottom of the rail body and/or the mounting wing plate is provided with a mounting hole.

In one embodiment, the end of the insertion frame is provided with a groove.

An illumination device comprises the ultrathin magnetic attraction track system which is adapted to different illumination lamps in any embodiment.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a track system is inhaled to ultra-thin magnetism of different many illumination lamps and lanterns of adaptation, make the connecting wire respectively with elasticity top hold conductive part and power driver electricity be connected, and elasticity top hold the conductive part setting on the grafting frame, elasticity top hold the conductive part and the electricity is connected when the grafting frame is pegged graft at the track this internal linear busbar elasticity top, and then make the grille lamp in the illumination module, the ceiling lamp, the shot-light, a wall lamp, the down lamp, floodlight and/or ceiling lamp are pegged graft when the track body with linear busbar be connected when having realized illumination module and power driver's electricity and be connected, the track of having avoided power driver's the takeover end and linear track lamp need carry out welded fastening when the preassembleing, and the problem of the installation specialty of linear track lamp has been increased greatly in the welding and the installation effectiveness of linear track lamp has been reduced, and the grille lamp in the illumination module has been realized, the ceiling lamp, the shot-light, the wall lamp, the shot-light, the down lamp, floodlight and/or ceiling lamp are connected with power driver's while electricity, can better adaptation different many illumination lamps and lanterns, the installation effectiveness of linear track lamp has further been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of an ultra-thin magnetic rail system adapted to different lighting lamps according to an embodiment of the present invention;

FIG. 2 is an exploded view of the ultra-thin magnetically attracted track system of FIG. 1 adapted to a plurality of different lighting fixtures;

FIG. 3 is a partial view of the ultra-thin magnetically attracted rail system of the adapted multiple lighting fixture of FIG. 2 at location A;

FIG. 4 is a partial view of the ultra-thin magnetically attracted rail system of FIG. 1 adapted to a plurality of different lighting fixtures;

fig. 5 is another partial view of the ultra-thin magnetically attracted rail system of fig. 1 adapted to a plurality of different lighting fixtures.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application also provides an ultra-thin magnetic rail system of the different multi-lighting lamp fitting. The ultrathin magnetic rail system adaptive to different lighting lamps comprises a linear rail, a power supply module and a lighting lamp. The linear track comprises a track body, a first magnetic adsorption body and linear conducting strips, wherein the first magnetic adsorption body is arranged on the track body, and the linear conducting strips are arranged on the inner wall of the track body. The power supply module comprises an inserting frame, a second magnetic adsorption body, an elastic propping conductive part, a connecting wire and a power driver, wherein the second magnetic adsorption body and the elastic propping conductive part are respectively arranged on the inserting frame, the inserting frame is inserted into the track body and is used for enabling the second magnetic adsorption body to be magnetically adsorbed and connected with the first magnetic adsorption body, the elastic propping conductive part is also used for enabling the elastic propping conductive part to be elastically propped and electrically connected with the linear conductive strip, and the connecting wire is respectively electrically connected with the elastic propping conductive part and the power driver. The lighting lamp comprises a power taking module and a lighting module, the power taking module is inserted into the track body and is electrically connected with the linear conductive strip, the lighting module comprises a grille lamp, a ceiling lamp, a spot lamp, a wall lamp, a down lamp, a floodlight and/or a ceiling lamp, and the grille lamp, the ceiling lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are electrically connected with the power taking module.

The ultrathin magnetic track system of the lighting lamp with different adaptations enables the connecting wire to be respectively and electrically connected with the elastic propping and conducting part and the power driver, the elastic propping and conducting part is arranged on the inserting frame, the linear conducting strips are elastically propped and electrically connected when the elastic propping and conducting part is inserted into the track body of the inserting frame, and then the grille lamp, the ceiling lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are connected with the linear conducting strips when the elastic propping and conducting part is inserted into the track body, so that the electric connection between the lighting module and the power driver is realized, the problems that the connection end of the power driver and the track of the linear track lamp need to be welded and fixed during preassembling are avoided, the installation specialty of the linear track lamp is greatly increased through welding, the installation efficiency of the linear track lamp is reduced, the simultaneous electric connection between the grille lamp, the spot lamp, the wall lamp, the down lamp, the flood lamp and/or the ceiling lamp and the power driver in the lighting module can be well adapted to the lighting lamp, and the lighting lamp with different lighting lamp can be better, and the installation efficiency of the linear track lamp can be further improved.

It should be noted that the power driver is a general power driver on the market, and the structure of the power driver is not protected in the present application, but only the connection relationship and the position relationship of the power driver are protected; the elastic abutting conductive part and the linear conductive strip are elastically abutted, namely the elastic abutting conductive part abuts against one side of the linear conductive strip in an elastic deformation mode, and the elastic abutting conductive part provides a supporting acting force for the linear conductive strip on the side.

For better understanding the ultra-thin magnetic rail system of the different many lighting fixtures of adaptation of this application, the following further explains the ultra-thin magnetic rail system of the different many lighting fixtures of adaptation of this application:

referring to fig. 1 to 5, an embodiment of an ultra-thin magnetic rail system 10 adapted to different lighting fixtures includes a linear rail 100, a power supply module 200, and a lighting fixture 300. The linear track 100 includes a track body 110, a first magnetic adsorber 120 and a linear conductive strip 130, wherein the first magnetic adsorber 120 is disposed on the track body 110, and the linear conductive strip 130 is disposed on an inner wall of the track body 110. The power supply module 200 includes a plug frame 210, a second magnetic adsorber 220, an elastic conductive portion 230, a connection line 240 and a power driver (not shown), where the second magnetic adsorber 220 and the elastic conductive portion 230 are respectively disposed on the plug frame 210, the plug frame 210 is plugged in the track body 110 for magnetically attracting the second magnetic adsorber 220 to the first magnetic adsorber 120, and for elastically supporting and electrically connecting the elastic conductive portion 230 to the linear conductive strip 130, and the connection line 240 is respectively electrically connected to the elastic conductive portion 230 and the power driver. The lighting lamp 300 comprises a power taking module 310 and a lighting module 320, wherein the power taking module 310 is inserted in the track body 110 and electrically connected with the linear conductive bar 130, the lighting module 320 comprises a grille lamp, a ceiling lamp, a spot lamp, a wall lamp, a down lamp, a floodlight and/or a ceiling lamp, and the grille lamp, the ceiling lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are electrically connected with the power taking module 310.

The ultrathin magnetic track system 10 for adapting different lighting lamps enables the connecting wire 240 to be respectively and electrically connected with the elastic propping conductive part 230 and the power driver, the elastic propping conductive part 230 is arranged on the inserting frame 210, and the linear conductive strip 130 elastically props and is electrically connected when the inserting frame 210 is inserted into the track body 110, so that the grille lamp, the pendant lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp in the lighting module 320 are elastically propped and are electrically connected when being inserted into the track body 110 and connected with the linear conductive strip 130, thereby avoiding the problems that the connection end of the power driver and the track of the linear track lamp need to be welded and fixed when being preassembled, greatly increasing the installation specialty of the linear track lamp and reducing the installation efficiency of the linear track lamp, realizing simultaneous electrical connection of the grille lamp, the pendant lamp, the spot lamp, the down lamp, the wall lamp, the floodlight and/or the ceiling lamp in the lighting module 320 and the power driver, better adapting to different lighting lamps, and further improving the installation efficiency of the linear track lamp.

Referring to fig. 2, fig. 3 and fig. 4 together, in one embodiment, the inner wall of the track body 110 is provided with a slot 101, the linear conductive strip 130 includes an insulation embedded part 131 and a conductive strip body 132, the insulation embedded part 131 is embedded into the slot 101, the conductive strip body 132 is disposed on the insulation embedded part 131, so that a gap is disposed between the conductive strip body 132 and the track body 110, thereby preferably achieving stable connection between the conductive strip body 132 and the track body 110, further ensuring connection stability of the conductive strip body 132, and preferably ensuring electrical connection stability between the conductive strip body 132 and the elastic supporting conductive part 230 and the illumination module 320, respectively.

Referring to fig. 2, fig. 3 and fig. 4, in one embodiment, the embedding groove 103 is formed on the outer side of the insulating embedding member 131, the opening of the embedding groove 103 is in the same direction as the opening of the card slot 101, and the conductive strip body 132 is embedded in the embedding groove 103, so as to better improve the embedding stability of the conductive strip body 132, further ensure the connection stability of the conductive strip body 132, and better ensure the electrical connection stability of the conductive strip body 132 with the elastic supporting conductive portion 230 and the lighting module 320.

Referring to fig. 2, fig. 3 and fig. 4, in one embodiment, the linear track 100 includes two linear conductive strips 130, the two linear conductive strips 130 are respectively disposed on two opposite inner walls of the track body 110, the power supply module 200 includes two elastic supporting conductive portions 230, the two elastic supporting conductive portions 230 are respectively disposed on the plug frame 210, and the two elastic supporting conductive portions 230 are in one-to-one correspondence with and elastically support and electrically connect the two linear conductive strips 130.

Referring to fig. 3, fig. 4 and fig. 5, in one embodiment, the insertion frame 210 is provided with a mounting groove 201, the second magnetic adsorber 220 is disposed in the mounting groove 201, and the second magnetic adsorber 220 is in contact with the first magnetic adsorber 120, so as to better achieve the connection stability between the second magnetic adsorber 220 and the insertion frame 210, further better ensure the stable connection between the insertion frame 210 and the track body 110, further ensure the connection stability of the conductive bar body 132, and better ensure the electrical connection stability between the conductive bar body 132 and the elastic supporting conductive portion 230 and the lighting module 320.

Referring to fig. 2, fig. 3 and fig. 4, in one embodiment, the bottom of the track body 110 is provided with a limiting groove 102, and the first magnetic adsorber 120 is slidably disposed on the limiting groove 102, so as to achieve fast replacement of the first magnetic adsorber 120, improve the convenience of the ultra-thin magnetic attraction track system 10 adapted to different lighting fixtures, improve the connection stability of the first magnetic adsorber 120, better ensure stable connection between the plug frame 210 and the track body 110, further ensure the connection stability of the conductive bar body 132, and better ensure the electrical connection stability between the conductive bar body 132 and the elastic supporting conductive part 230 and the lighting module 320, respectively.

In one embodiment, the outer wall of the track body is provided with the installation wing plate, which is beneficial to the installation of the ultrathin magnetic rail system which is suitable for different lighting lamps.

In one embodiment, the bottom of the track body and/or the installation wing plate is/are provided with installation holes, so that the installation of the ultrathin magnetic attraction track system which is suitable for different lighting lamps is facilitated.

In one embodiment, the end of the inserting frame is provided with the groove, so that the inserting frame can be detached from the track body, and the use convenience of the ultrathin magnetic track system adaptive to different lighting lamps is improved.

The present application further provides a lighting device. An embodiment of the lighting device includes the ultra-thin magnetically attracted rail system adapted to different lighting fixtures of any of the above embodiments. Further, referring to fig. 1 to 5, the ultra-thin magnetic rail system 10 adapted to different lighting fixtures includes a linear rail 100, a power supply module 200, and a lighting fixture 300. The linear track 100 includes a track body 110, a first magnetic adsorber 120 and a linear conductive strip 130, wherein the first magnetic adsorber 120 is disposed on the track body 110, and the linear conductive strip 130 is disposed on an inner wall of the track body 110. The power supply module 200 includes a plug frame 210, a second magnetic adsorber 220, an elastic conductive portion 230, a connection line 240 and a power driver, wherein the second magnetic adsorber 220 and the elastic conductive portion 230 are respectively disposed on the plug frame 210, the plug frame 210 is plugged into the track body 110 for magnetically attracting the second magnetic adsorber 220 to the first magnetic adsorber 120, and for elastically propping and electrically connecting the elastic conductive portion 230 to the linear conductive strip 130, and the connection line 240 is respectively electrically connected to the elastic conductive portion 230 and the power driver. The lighting lamp 300 comprises a power taking module 310 and a lighting module 320, wherein the power taking module 310 is inserted in the track body 110 and electrically connected with the linear conductive bar 130, the lighting module 320 comprises a grille lamp, a ceiling lamp, a spot lamp, a wall lamp, a down lamp, a floodlight and/or a ceiling lamp, and the grille lamp, the ceiling lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are electrically connected with the power taking module 310.

The lighting equipment uses the ultrathin magnetic track system 10 adaptive to different lighting lamps, realizes simultaneous electrical connection of the grille lamp, the ceiling lamp, the spot lamp, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp and the power driver, can be well adaptive to different lighting lamps, and further improves the installation efficiency of the lighting equipment.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a track system 10 is inhaled to ultra-thin magnetism of different many illumination lamps and lanterns of adaptation phase, make connecting wire 240 respectively with elasticity top hold conductive part 230 and power driver electricity be connected, and elasticity top hold conductive part 230 sets up on grafting frame 210, elasticity top hold and the electricity is connected to linear busbar 130 elasticity top when grafting frame 210 pegs graft in track body 110, and then make the grille lamp in the illumination module 320, the ceiling lamp, the shot-light, the wall lamp, floodlight and/or wall lamp peg graft when track body 110 with linear ceiling lamp 130 when being connected, realized illumination module 320 and power driver's electricity is connected promptly, the track of having avoided power driver's the end of connecing and linear track lamp need carry out welded fastening when the track of preassembleing the track lamp, and the welding has greatly increased the installation specialty of linear track lamp and has reduced the problem of the installation effectiveness of linear track lamp, and realized the while in the illumination module 320, the ceiling lamp, the downlight, the shot-light, the grille, the floodlight and/or ceiling lamp is connected with power driver's electricity, can be better the linear track lamp of different illumination lamps and light linear adaptation phase, the further improved the linear track lamp efficiency.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a track system is inhaled to ultra-thin magnetism of many different illumination lamps and lanterns of adaptation which characterized in that includes:

the linear track comprises a track body, a first magnetic adsorption body and linear conductive strips, wherein the first magnetic adsorption body is arranged on the track body, and the linear conductive strips are arranged on the inner wall of the track body;

the power supply module comprises a plug-in frame, a second magnetic adsorption body, an elastic propping conductive part, a connecting wire and a power driver, wherein the second magnetic adsorption body and the elastic propping conductive part are respectively arranged on the plug-in frame, the plug-in frame is plugged in the track body and is used for magnetically attracting and connecting the second magnetic adsorption body and the first magnetic adsorption body, the elastic propping conductive part is elastically propped and electrically connected with the linear conductive strip, and the connecting wire is respectively electrically connected with the elastic propping conductive part and the power driver; and

the lighting lamp comprises a power taking module and a lighting module, wherein the power taking module is inserted into the track body and electrically connected with the linear conductive strips, the lighting module comprises a grille lamp, a ceiling lamp, a spotlight, a wall lamp, a down lamp, a floodlight and/or a ceiling lamp, and the grille lamp, the pendent lamp, the spotlight, the wall lamp, the down lamp, the floodlight and/or the ceiling lamp are electrically connected with the power taking module.

2. The ultra-thin magnetic rail system of claim 1, wherein the rail body has a slot on an inner wall thereof, the linear bus bar comprises an insulating embedding member and a bus bar body, the insulating embedding member is embedded into the slot, and the bus bar body is disposed on the insulating embedding member, such that a space is provided between the bus bar body and the rail body.

3. The ultra-thin magnetically-attracted rail system adapted to different lighting fixtures as claimed in claim 2, wherein an embedding slot is formed in an outer side of the insulating embedding member, an opening of the embedding slot is aligned with an opening of the engaging slot, and the conductive bar body is embedded in the embedding slot.

4. The ultra-thin magnetic track system of claim 1, wherein the linear track comprises two linear conductive strips, the two linear conductive strips are respectively disposed on two opposite inner walls of the track body, the power supply module comprises two elastic supporting conductive portions, the two elastic supporting conductive portions are respectively disposed on the socket frame, and the two elastic supporting conductive portions are in one-to-one correspondence with the two linear conductive strips and are elastically supported and electrically connected to the two linear conductive strips.

5. The ultra-thin magnetic rail system of claim 1, wherein the socket frame has a mounting groove, the second magnetic material is disposed in the mounting groove, and the second magnetic material is in contact with the first magnetic material.

6. The ultra-thin magnetic attraction track system adapted to different lighting fixtures as claimed in claim 5, wherein the bottom of the track body is provided with a limiting groove, and the first magnetic attraction body is slidably disposed on the limiting groove.

7. The ultra-thin magnetically attracted rail system of claim 1, wherein the rail body has a mounting wing plate on the outer wall.

8. The ultra-thin magnetically attracted rail system of claim 7, wherein the bottom of the rail body and/or the mounting wings are provided with mounting holes.

9. The ultra-thin magnetic rail system adapted to different lighting fixtures of claim 1, wherein the end of the socket frame is formed with a groove.

10. A lighting device comprising the ultra-thin magnetically attractive rail system of any one of claims 1 to 9 adapted to a plurality of different lighting fixtures.

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