CN113639226A

CN113639226A - Novel ready-package lamp structure

Info

Publication number: CN113639226A
Application number: CN202110982901.5A
Authority: CN
Inventors: 周涛
Original assignee: Shanghai Yuanchip Botao Energy Technology Co ltd
Current assignee: Shanghai Yuanchip Botao Energy Technology Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-12

Abstract

The invention discloses a novel fast-assembling lamp structure, which comprises: a conductive track fixed to the ceiling; and the lamp unit is positioned below the conductive track, at least one quick conductive connecting piece is fixedly arranged on the lamp unit at intervals along the length direction, and the lamp unit is arranged on the conductive track in a sliding mode through the at least one quick conductive connecting piece and is electrically connected with the conductive track through the at least two quick conductive connecting pieces. The lamp unit is arranged on the conductive track in a sliding mode through the at least one quick conductive connecting piece, and is electrically connected with the conductive track through the at least one quick conductive connecting piece, meanwhile, the fixing of the lamp unit and the connection of the power line are integrated through the quick conductive connecting piece, the installation is convenient and quick, and the installation efficiency and the overhauling and maintaining efficiency of constructors are greatly improved.

Description

Novel ready-package lamp structure

Technical Field

The invention relates to the technical field of lamp illumination, in particular to a novel quick-mounting lamp structure.

Background

The existing lamp hoisting and fixing method is that screws are usually adopted to fix the lamp on a ceiling, then a hanger rod is fixed on the lamp, and finally an electric wire is connected. When lamps and lanterns damaged or maintain, need pull down fixed screw and power connecting wire and just can change, overhaul and maintenance inefficiency, the while has the risk that the disappearance dropped when dismantling.

To this end, the applicant has sought, through useful research and research, a solution to the above-mentioned problems, in the context of which the technical solutions to be described below have been made.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects of the prior art, the novel fast-assembly lamp structure for improving the installation efficiency and the overhauling and maintaining efficiency is provided.

The technical problem to be solved by the invention can be realized by adopting the following technical scheme:

a novel ready-package light fixture structure comprising:

a conductive track fixed to the ceiling; and

the lamp unit is fixedly provided with at least one quick conductive connecting piece, and the lamp unit is arranged on the conductive track in a sliding mode through the at least one quick conductive connecting piece and is electrically connected with the conductive track through the at least one quick conductive connecting piece.

In a preferred embodiment of the invention, the conductive track is fixed to the ceiling by at least one set of boom assemblies.

In a preferred embodiment of the present invention, the boom assembly comprises:

the hollow suspender is internally provided with a wiring channel extending along the axial direction, the upper end of the hollow suspender is connected with a ceiling through a first fastener, and the lower end of the hollow suspender is connected with the top surface of the conductive track through a second fastener; and

and the suspender cover is sleeved at the upper end of the hollow suspender and shields the upper end of the hollow suspender.

In a preferred embodiment of the present invention, the conductive track comprises:

the track comprises a track body, wherein a sliding groove extending along the axial direction is formed in the track body;

the left and right plastic insulators are symmetrically arranged on the left and right side surfaces of the sliding groove of the track body at intervals and extend along the axial direction;

the zero line conductive copper sheets and the fire wire conductive copper sheets are symmetrically arranged in the left plastic insulator and the right plastic insulator and extend along the axial direction; and

and the ground wire conductive copper sheet is arranged on the top surface of the sliding groove of the track body and extends along the axial direction.

In a preferred embodiment of the present invention, the lamp unit includes:

the lamp shade is characterized in that a strip-shaped frame body is arranged on the top surface of the lamp shade, and each quick conductive connecting piece is fixedly arranged on the top surface of the strip-shaped frame body;

the lamp controller is arranged on the top surface of the lampshade and is positioned in the strip-shaped frame; and

and the lamp tube is arranged on the inner side surface of the lampshade and is connected with the lamp controller.

In a preferred embodiment of the present invention, the lamp tube is an LED lamp tube.

In a preferred embodiment of the present invention, the number of the fast conductive connecting parts is at least two, wherein at least one fast conductive connecting part is a live neutral conductive connecting part, and at least one fast conductive connecting part is a ground conductive connecting part.

In a preferred embodiment of the present invention, the live wire conductive connection comprises:

the first cylindrical connecting body is internally provided with a wiring cavity, and the top surface of the first cylindrical connecting body is provided with a first sliding clamping seat in sliding fit with the conductive track;

the live wire binding posts and the zero wire binding posts are symmetrically arranged in the wiring cavity of the first cylindrical connecting body at intervals;

the live wire guide wire and the zero wire guide wire are arranged in the wiring cavity of the first cylindrical connecting body, one ends of the live wire guide wire and the zero wire guide wire are respectively connected with the live wire binding post and the zero wire binding post, and the other ends of the live wire guide wire and the zero wire guide wire extend downwards through the first cylindrical connecting body and then are connected with the lamp unit; and

the live wire conductive elastic sheet and the zero line conductive elastic sheet are arranged in the wiring cavity of the first cylindrical connector, one ends of the live wire conductive elastic sheet and the zero line conductive elastic sheet are respectively connected to the live wire terminal and the zero line terminal, and the other ends of the live wire conductive elastic sheet and the zero line conductive elastic sheet respectively extend upwards to extend through the first cylindrical connector and then are exposed out of the surface of the first sliding clamping seat, and are in contact with the conductive track to conduct electricity.

In a preferred embodiment of the present invention, a bottom surface of the live wire and neutral wire conductive connecting piece is fixedly connected to the lamp unit through a first hollow screw, and a live wire guide wire and a neutral wire guide wire of the live wire and neutral wire conductive connecting piece respectively penetrate through the first hollow screw and then are connected to the lamp unit.

In a preferred embodiment of the present invention, a first elastic self-locking mechanism for preventing the first sliding clamping seat from being separated from the limit of the conductive track is arranged on the live wire and neutral wire conductive connecting piece.

In a preferred embodiment of the present invention, the first elastic self-locking mechanism includes:

the first arc-shaped side piece is slidably assembled on the outer peripheral surface of the first cylindrical connecting body and can slide along the axial direction, and a first limiting flange capable of being inserted into the conductive track is formed at the upper side edge of the first arc-shaped side piece; and

and the first spring is arranged in the first cylindrical connecting body, is connected with the first arc-shaped side piece and enables the first arc-shaped side piece to be always abutted against the conductive track.

In a preferred embodiment of the present invention, the ground conduction connector includes:

the second cylindrical connecting body is internally provided with a wiring cavity, and the top surface of the second cylindrical connecting body is provided with a second sliding clamping seat which is in sliding fit with the conductive track;

a ground wire terminal disposed within the wiring chamber of the first cylindrical connector;

a ground wire guide wire disposed in the wiring chamber of the first cylindrical connecting body, one end of the ground wire guide wire being connected to the ground wire terminal, and the other end thereof extending downward through the second cylindrical connecting body and being connected to the lamp unit; and

the ground wire conductive elastic sheet is arranged in the wiring cavity of the second cylindrical connecting body, one end of the ground wire conductive elastic sheet is connected to the ground wire wiring terminal, and the other end of the ground wire conductive elastic sheet extends upwards through the second cylindrical connecting body and then is exposed out of the surface of the second sliding clamping seat and is in contact conduction with the conductive track.

In a preferred embodiment of the present invention, a bottom surface of the ground conduction connector is fixedly connected to the lamp unit through a second hollow screw, and a ground guide wire of the ground conduction quick conduction connector passes through the second hollow screw and then is connected to the lamp unit.

In a preferred embodiment of the present invention, a second elastic self-locking mechanism for preventing the second sliding clamping seat from being separated from the limit of the conductive track is arranged on the ground conducting connecting piece.

In a preferred embodiment of the present invention, the second elastic self-locking mechanism includes:

the second arc-shaped side piece is slidably assembled on the outer peripheral surface of the second cylindrical connecting body and can slide along the axial direction, and a second limiting flange capable of being inserted into the conductive track is formed at the upper side edge of the second arc-shaped side piece; and

and the second spring is arranged in the second cylindrical connecting body, is connected with the second arc-shaped side piece and enables the second arc-shaped side piece to be always abutted against the conductive track.

In a preferred embodiment of the present invention, the quick conductive connector is a three-phase conductive connector, the three-phase conductive connector comprising:

the third cylindrical connecting body is internally provided with a wiring cavity, and the top surface of the third cylindrical connecting body is provided with a third sliding clamping seat which is in sliding fit with the conductive track;

the live wire binding post, the zero wire binding post and the ground wire binding post are arranged in the wiring cavity of the third cylindrical connecting body at intervals;

the live wire guide wire, the zero wire guide wire and the ground wire guide wire are arranged in the wiring cavity of the third cylindrical connecting body, one ends of the live wire guide wire, the zero wire guide wire and the ground wire guide wire are respectively connected with the live wire binding post, the zero wire binding post and the ground wire binding post, and the other ends of the live wire guide wire, the zero wire guide wire and the ground wire guide wire extend downwards through the third cylindrical connecting body and then are connected with the lamp unit; and

the setting is in electrically conductive shell fragment of live wire, the electrically conductive shell fragment of zero line and the electrically conductive shell fragment of ground wire in the wiring cavity of third cylindrical connector, the electrically conductive shell fragment of live wire, the electrically conductive shell fragment of zero line and the electrically conductive shell fragment of ground wire are connected respectively on live wire terminal, zero line terminal and the ground wire terminal, its other end upwards extends respectively and passes expose behind the third cylindrical connector the surface of third slip joint seat, and with the electrically conductive track carries out the contact electrically conductive.

In a preferred embodiment of the present invention, a bottom surface of the three-phase conductive connecting member is fixedly connected to the lamp unit by a third hollow screw, and the live wire guide wire, the neutral wire guide wire and the ground wire guide wire of the three-phase conductive connecting member are respectively connected to the lamp unit after passing through the third hollow screw.

In a preferred embodiment of the present invention, a third elastic self-locking mechanism for preventing the third sliding clamping seat from being separated from the limit of the conductive track is arranged on the three-phase conductive connecting piece.

In a preferred embodiment of the present invention, the third elastic self-locking mechanism includes:

a third arc-shaped side piece which is slidably assembled on the outer peripheral surface of the third cylindrical connecting body and can slide along the axial direction, and a third limiting flange which can be inserted into the conductive track is formed at the upper side edge of the third arc-shaped side piece; and

and the third spring is arranged in the third cylindrical connecting body, is connected with the third arc-shaped side piece and enables the third arc-shaped side piece to be always abutted against the direction of the conductive track.

Due to the adoption of the technical scheme, the invention has the beneficial effects that: the lamp unit is arranged on the conductive track in a sliding mode through the at least one quick conductive connecting piece and is electrically connected with the conductive track through the at least one quick conductive connecting piece, the fixing of the lamp unit and the connection of the power line are integrated through the quick conductive connecting piece, the installation is convenient and quick, and the installation efficiency and the overhauling and maintaining efficiency of constructors are greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an exploded view of the present invention.

Fig. 2 is a schematic diagram of the fitting between the lamp unit and the quick conductive connector according to the present invention.

Fig. 3 is a longitudinal cross-sectional view of one perspective of the present invention.

Fig. 4 is a partially enlarged schematic view of a portion a of fig. 3.

Fig. 5 is a longitudinal cross-sectional view of another perspective of the present invention.

Fig. 6 is a partially enlarged schematic view of a portion a of fig. 5.

Figure 7 is a schematic three-dimensional structure of the live and neutral conductive connection of the present invention.

Figure 8 is a longitudinal cross-sectional view of the neutral wire connection of the present invention.

Figure 9 is a schematic view of the mating of the live and neutral conductive connection of the present invention with the conductive track.

Fig. 10 is a schematic three-dimensional structure of the ground conduction connector of the present invention.

Fig. 11 is a longitudinal sectional view of the ground conductive connection of the present invention.

Fig. 12 is a schematic view of the mating of the ground conduction connector of the present invention with a conductive track.

Fig. 13 is a three-dimensional structure diagram of a three-phase conductive connection member of the present invention.

Fig. 14 is a longitudinal sectional view of a three-phase conductive connector of the present invention.

Fig. 15 is a schematic view of the mating of the three-phase conductive connector of the present invention with a conductive track.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Referring to fig. 1 to 6, a novel ready-to-mount lamp structure is shown, which includes a conductive track 100, a lamp unit 200 and two quick conductive connectors 300.

The conductive track 100 is secured to the ceiling by two sets of hanger assemblies 400 spaced along the length of the conductive track 100. Of course, the guide bar assemblies 400 are not limited to the number in the present embodiment, and should be set according to the hoisting requirements of the conductive rail 100. Specifically, the boom assembly 400 includes a hollow boom 410 and a boom housing 420. The hollow suspension rod 410 is formed with a wiring channel 411 extending along an axial direction, wires can be conducted in the wiring channel 411, the upper end of the hollow suspension rod 410 is connected with a ceiling through a first fastening member 412, the first fastening member is preferably an expansion screw, the lower end of the first fastening member is connected with the top surface of the conductive track 100 through a second fastening member 413, and the second fastening member is preferably a hollow screw, so that the power supply wire is connected with the conductive track 100. The hanger bar cover 420 is sleeved on the upper end of the hollow hanger bar 410 and shields the upper end of the hollow hanger bar 410, so that the arrangement attractiveness is improved.

The conductive track 100 includes a track body 110, left and right

plastic insulators

120a, 120b, a neutral conductive copper sheet 130, a fire conductive copper sheet 140, and a ground conductive copper sheet 150. A sliding groove 111 extending in the axial direction is formed in the rail body 110, and the cross section of the sliding groove 111 is substantially in a shape of a door. The left and right

plastic insulators

120a and 120b are symmetrically disposed at intervals on left and right side surfaces of the sliding groove 111 of the rail body 110 and extend in the axial direction. The zero line conductive copper sheet 130 and the live line conductive copper sheet 140 are symmetrically arranged in the left and right

plastic insulators

120a and 120b, extend along the axial direction and are connected with the zero line of the electric wire. The ground conductive copper sheet 150 is disposed on the top surface of the sliding groove 111 of the rail body 110 and extends in the axial direction, which is used for ground connection.

The lamp unit 200 is located below the conductive track 100, two fast conductive connectors 300 are fixedly installed on the lamp unit 200 at intervals along the length direction, and the lamp unit 300 is configured on the conductive track 100 in a sliding manner through the two fast conductive connectors and is electrically connected with the conductive track 100 through the two fast conductive connectors 300. Of course, the lamp units 200 are not limited to the number in the present embodiment, and they should be set according to the actual lighting requirements and the length of the conductive track 100.

The lamp unit 200 includes a lamp housing 210, a lamp controller 220, and two lamps 230. The lamp cover 210 is a long strip structure, the cross section of the lamp cover is an arc structure, a long strip frame 211 is arranged on the top surface of the lamp cover, and the two fast conductive connectors 300 are fixedly mounted on the top surface of the long strip frame 211. The lamp controller 220 is installed on the top surface of the lamp cover 210 and located in the elongated frame 211, and is used for controlling the on/off and brightness of the lamp 230. The two lamps 230 are installed on the inner side of the lamp housing 210 at intervals and connected with the lamp controller 220. Of course, the number of the lamps 230 is not limited to the number in the present embodiment, and it should be set according to the actual lighting requirement, and it may be set to at least one. In the present embodiment, the lamp tube 230 is preferably an LED lamp tube.

The number of the quick conductive connectors 300 is not limited to the number in the present embodiment, and it should be set according to the length and the conductive requirement of the lamp unit 200, and at least two or more are provided. Further, of the two quick conductive connections 300, one of the quick conductive connections 300 is the live neutral conductive quick conductive connection 300a, and the other quick conductive connection 300 is the ground conductive quick conductive connection 300 b. Still alternatively, the quick conductive connector 300 is a three-phase conductive connector 300 c.

Referring to fig. 7-9 in conjunction with fig. 3 and 4, the live and neutral conductive quick conductive connection 300a includes a cylindrical connection body 310a, a live terminal 320a, a neutral terminal 330a, a live guide wire 340a, a neutral guide wire 350a, a live conductive dome 360a, and a neutral conductive dome 370 a. The cylindrical connector 310a has a wiring cavity 311a formed therein, and a sliding engaging seat 312a formed on the top surface thereof for sliding engagement with the conductive track 100. The hot terminal 320a and the neutral terminal 330a are symmetrically disposed in the terminal cavity 311a of the cylindrical connecting body 310a at a spacing. The live and

neutral guide wires

340a, 350a are disposed in the wiring chamber 311a of the cylindrical connecting body 310a, one end of each of which is connected to the live and

neutral terminals

320a, 330a, respectively, and the other end of each of which extends downward through the cylindrical connecting body 310a and is connected to the lamp controller 220 of the lamp unit 200. The live wire conductive elastic piece 360a and the neutral wire conductive elastic piece 370a are disposed in the wiring cavity 311a of the cylindrical connecting body 310a, one ends of the live wire conductive elastic pieces are respectively connected to the live wire terminal 320a and the neutral wire terminal 330a, and the other ends of the live wire conductive elastic pieces extend upwards through the cylindrical connecting body 310a to expose the surface of the sliding clamping seat 312a, and are respectively in contact with the neutral wire conductive copper sheet 130 and the live wire conductive copper sheet 140 in the conductive track 100 for conducting electricity.

The bottom surface of the live and neutral conductive quick conductive connector 300a is fixedly connected to the top surface of the elongated frame 211 of the lamp unit 200 by a hollow screw 380a, so that the live guide wire 340a and the neutral guide wire 350a respectively pass through the hollow screw 380a and then are connected to the lamp controller 220 of the lamp unit 200.

The live and neutral conductive quick conductive connector 300a is provided with an elastic self-locking mechanism 390a for preventing the sliding clamping seat 312a from being separated from the limit of the sliding groove 111 of the conductive track 100. Specifically, the resilient self-locking mechanism 390a includes an arcuate side piece 391a and a spring 392 a. The arc-shaped side piece 391a is slidably fitted over the outer peripheral surface of the cylindrical connecting body 310a and is slidable in the axial direction, and a stopper flange 391aa is formed at the upper side edge thereof to be inserted into the sliding groove 111 of the conductive rail 100. The spring 392a is attached to the inside of the cylindrical connecting body 310a and connected to the arc-shaped side piece 391a such that the arc-shaped side piece 391a always abuts against the guide rail 100.

When the live wire and neutral wire conductive quick conductive connecting piece 300a is assembled, the arc-shaped side piece 391a is slid downwards from the side face, so that the height of the limiting flange 391aa on the arc-shaped side piece 391a is reduced, then the live wire and neutral wire conductive quick conductive connecting piece 300a is rotated by a certain angle, so that the sliding clamping seat 312a on the live wire and neutral wire conductive quick conductive connecting piece 300a is embedded into the sliding groove 111 of the conductive track 100, then the live wire and neutral wire conductive quick conductive connecting piece 300a is rotated back to the right position, at the moment, the limiting flange 391aa on the arc-shaped side piece 391a is inserted into the sliding groove 111 of the conductive track 100 under the elastic force of the spring 392a, so that the live wire and neutral wire conductive quick conductive connecting piece 300a cannot rotate any more, and the sliding clamping seat 312a on the live wire and neutral wire conductive quick conductive connecting piece 300a cannot be separated from the limitation of the sliding groove 111 of the conductive track 100.

Referring to fig. 10 to 12 in combination with fig. 5 and 6, the fast conductive ground connection 300b includes a cylindrical connection body 310b, a ground terminal 320b, a ground guide wire 330b, and a ground conductive spring piece 340 b.

The cylindrical connecting body 310b has a wiring cavity 311b formed therein, and a sliding engaging seat 312b formed on the top surface thereof for sliding engagement with the conductive track 100. The ground terminal 320b is disposed within the terminal cavity 311b of the cylindrical connector 310 b. The ground wire guide wire 330b is disposed in the wiring chamber 311b of the cylindrical connecting body 310b, and has one end connected to the ground wire terminal 320b and the other end extending downward through the cylindrical connecting body 310b to be connected to the lamp controller 220 of the lamp unit 200. The ground conductive spring 340b is disposed in the wiring cavity 311b of the cylindrical connecting body 310b, one end of the ground conductive spring is connected to the ground terminal 320b, and the other end of the ground conductive spring extends upward through the cylindrical connecting body 310b to expose the surface of the sliding clamping seat 312b, and is in contact with and conducted with the ground conductive copper sheet 150 in the conductive track 100.

The bottom surface of the ground conductive quick connector 300b is fixedly connected to the top surface of the elongated frame 211 of the lamp unit 200 by the hollow screw 350b, so that the ground wire guide wire 330b passes through the hollow screw 350b and then is connected to the lamp controller 220 of the lamp unit 200.

The ground conductive quick conductive connector 300b is provided with an elastic self-locking mechanism 360b for preventing the sliding clamping seat 312b from being separated from the limit of the sliding groove 111 of the conductive track 100. Specifically, the elastic self-locking mechanism 360b includes an arc-shaped side piece 361b and a spring 362 b. The arc-shaped side piece 361b is slidably fitted on the outer peripheral surface of the cylindrical connecting body 310b and is slidable in the axial direction, and a stopper flange 361ab is formed at the upper edge thereof to be insertable into the sliding groove 111 of the conductive rail 100. The spring 362b is installed in the cylindrical connecting body 310b and connected to the arc-shaped side piece 361b such that the arc-shaped side piece 361b always abuts against the conductive rail 100.

When the ground conducting quick conductive connector 300b is assembled, the arc-shaped side piece 361b is slid downwards from the side face, so that the height of the limiting flange 361ab on the arc-shaped side piece 361b is reduced, then the ground conducting quick conductive connector 300b is rotated by a certain angle, so that the sliding clamping seat 312b on the ground conducting quick conductive connector 300b is embedded into the sliding groove 111 of the conductive track 100, then the ground conducting quick conductive connector 300b is rotated back to the right position, at the moment, the limiting flange 361ab on the arc-shaped side piece 361b is inserted into the sliding groove 111 of the conductive track 100 under the elastic force of the spring 362b, so that the ground conducting quick conductive connector 300b cannot rotate any more, and the sliding clamping seat 312b on the ground conducting quick conductive connector 300b cannot be separated from the limitation of the sliding groove 111 of the conductive track 100.

The lamp unit 200 is arranged on the conductive track 100 in a sliding mode through the live and neutral wire conductive quick conductive connecting piece 300a and the ground wire conductive quick conductive connecting piece 300b, and is electrically connected with the conductive track through the live and neutral wire conductive quick conductive connecting piece 300a and the ground wire conductive quick conductive connecting piece 300b, and the live and neutral wire conductive quick conductive connecting piece 300a and the ground wire conductive quick conductive connecting piece 300b fuse the fixation of the lamp unit 200 and the connection of a power line together, so that the installation is convenient and quick, and the installation efficiency and the overhaul and maintenance efficiency of constructors are greatly improved.

Referring to fig. 13 to 15, the three-phase conductive connection 300c includes a cylindrical connection body 310c, a live terminal 320c, a neutral terminal 330c, a ground terminal 340c, a live guide wire 350c, a neutral guide wire 360c, a ground guide wire 370c, a live conductive spring 380c, a neutral conductive spring 390c, and a ground conductive spring 3100 c. The cylindrical connector 310c has a wiring cavity 311c formed therein, and a sliding engaging seat 312c formed on the top surface thereof for sliding engagement with the conductive track 100. The hot terminal 320c, neutral terminal 330c and ground terminal 340c are spaced apart within the terminal cavity 311c of the cylindrical connector 310 c. The hot, neutral and ground leads 340c, 350c, 360c are disposed in the wiring chamber 311c of the cylindrical connecting body 310c, and have one end connected to the hot, neutral and

ground terminals

320c, 330c, 340c, respectively, and the other end extending downward through the cylindrical connecting body 310c and connected to the lamp controller 220 of the lamp unit 200. The live wire conductive clip 380c, the neutral wire conductive clip 390c and the ground wire guide wire 3100c are disposed in the wiring cavity 311c of the cylindrical connecting body 310c, one end of each of the live wire conductive clip 380c, the neutral wire conductive clip 390c and the ground wire guide wire 3100c is connected to the live wire terminal 320c, the neutral wire terminal 330c and the ground wire terminal 340c, and the other end of each of the live wire conductive clip 380c, the neutral wire conductive clip 390c and the ground wire guide wire 3100c extends upward through the cylindrical connecting body 310c to expose the surface of the sliding seat 312c, and is in contact with the neutral wire conductive copper sheet 130, the live wire conductive copper sheet 140 and the ground wire conductive copper sheet 150 in the conductive track 100.

The bottom surface of the three-phase conductive connector 300c is fixedly connected to the top surface of the elongated frame 211 of the lamp unit 200 by a hollow screw 3110c, so that the live wire guide wire 350c, the neutral wire guide wire 360c and the ground wire guide wire 370c are respectively connected to the lamp controller 220 of the lamp unit 200 after passing through the hollow screw 3110 c.

The three-phase conductive connector 300c is provided with an elastic self-locking mechanism 3120c for preventing the sliding clamping seat 312c from being separated from the limit of the sliding groove 111 of the conductive track 100. Specifically, the elastic self-locking mechanism 3120c includes an arc-shaped side panel 3121c and a spring 3122 c. The arc-shaped side piece 3121c is slidably fitted to the outer peripheral surface of the cylindrical connecting body 310c and is slidable in the axial direction, and a limit flange 3121ac which can be inserted into the sliding groove 111 of the conductive rail 100 is formed at the upper side edge thereof. The spring 3122c is installed in the cylindrical connection body 310a and connected to the arc-shaped side piece 3121c such that the arc-shaped side piece 3121c always abuts against the direction of the conductive rail 100.

When the three-phase conductive connecting piece 300c is assembled, the arc-shaped side piece 3121c is slid downward from the side surface, so that the height of the limiting flange 3121ac on the arc-shaped side piece 3121c is reduced, then the three-phase conductive connecting piece 300c is rotated by a certain angle, so that the sliding clamping seat 312c on the three-phase conductive connecting piece 300c is embedded into the sliding groove 111 of the conductive track 100, and then the three-phase conductive connecting piece 300c is rotated back to the right position, at this time, the limiting flange 3121ac on the arc-shaped side piece 3121c is inserted into the sliding groove 111 of the conductive track 100 under the elastic force of the spring 3122c, so that the three-phase conductive connecting piece 300c cannot rotate any more, and therefore the sliding clamping seat 312c on the three-phase conductive connecting piece 300c cannot be separated from the limitation of the sliding groove 111 of the conductive track 100.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A novel ready-package lamp structure is characterized in that, include:

a conductive track fixed to the ceiling; and

2. The novel quick-fit light fixture structure of claim 1 wherein the electrically conductive track is secured to the ceiling by at least one set of hanger assemblies.

3. The novel ready-to-mount light fixture structure of claim 2 wherein the hanger assembly comprises:

4. The novel ready-to-mount luminaire structure of claim 1 wherein the electrically conductive track comprises:

the zero line conductive copper sheets and the fire wire conductive copper sheets are arranged in the left plastic insulator and the right plastic insulator and extend along the axial direction; and

5. The novel ready-to-mount light fixture structure of claim 1 wherein the light fixture unit comprises:

6. The novel ready-to-mount light fixture structure of claim 5 wherein the tubes are LED tubes.

7. The novel ready-package lamp structure according to any one of claims 1 to 6, wherein the number of the fast conductive connecting parts is at least two, at least one of the fast conductive connecting parts is a live and neutral conductive connecting part, and at least one of the fast conductive connecting parts is a ground conductive connecting part.

8. The novel ready-package lamp structure of claim 7, wherein the live and neutral conductive connection comprises:

9. The novel quick-mounting lamp structure of claim 8, wherein the bottom surface of the live wire/neutral wire conductive connecting piece is fixedly connected with the lamp unit through a first hollow screw, and the live wire guide wire and the neutral wire guide wire of the live wire/neutral wire conductive connecting piece are respectively connected with the lamp unit after passing through the first hollow screw.

10. The novel quick-mounting lamp structure as claimed in claim 8, wherein the live and neutral conductive connecting piece is provided with a first elastic self-locking mechanism for preventing the first sliding clamping seat from being separated from the limit of the conductive track.

11. The novel ready-to-mount light fixture structure of claim 10 wherein the first resilient self-locking mechanism comprises:

12. The novel ready-package lamp structure of claim 7, wherein the ground conduction connector comprises:

13. The novel quick-mounting lamp structure as claimed in claim 12, wherein the bottom surface of the ground conduction connector is fixedly connected to the lamp unit by a second hollow screw, and a ground wire guide wire of the ground conduction quick-conduction connector passes through the second hollow screw and then is connected to the lamp unit.

14. The novel quick-mounting lamp structure as claimed in claim 12, wherein the ground conductive connection member is provided with a second elastic self-locking mechanism for preventing the second sliding clamping seat from being separated from the restriction of the conductive track.

15. The novel ready-to-mount light fixture structure of claim 14 wherein the second resilient self-locking mechanism comprises:

16. The novel ready-to-mount light fixture structure of any one of claims 1 to 6 wherein the quick conductive connector is a three-phase conductive connector comprising:

17. The novel quick-mounting lamp structure as claimed in claim 16, wherein the bottom surface of the three-phase conductive connecting member is fixedly connected to the lamp unit by a third hollow screw, and the live wire guide wire, the neutral wire guide wire and the ground wire guide wire of the three-phase conductive connecting member are respectively connected to the lamp unit after passing through the third hollow screw.

18. The novel quick-assembly lamp structure as claimed in claim 16, wherein a third elastic self-locking mechanism for preventing the third sliding clamping seat from being separated from the limit of the conductive track is arranged on the three-phase conductive connecting piece.

19. The novel ready-to-mount light fixture structure of claim 18 wherein the third resilient self-locking mechanism comprises: