A moveable track light structure

By using a power trolley to drive the track light components to slide on the guide rail, the problems of cumbersome operation and poor safety of track lights at high installation heights are solved, achieving efficient and safe adjustment of the light positions and reducing the impact on commercial operations.

CN224364795UActive Publication Date: 2026-06-16ZHONGSHAN HONGSIDE LIGHTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN HONGSIDE LIGHTING CO LTD
Filing Date
2025-09-18
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing track lights are cumbersome to operate and have poor safety in high-installation scenarios, which also affects commercial operations and fails to meet the needs for convenience and safety.

Method used

A power trolley drives the lighting components to slide on a guide rail. The position of the lighting components is adjusted by a motor and a gearbox. Combined with remote control, automatic adjustment can be achieved without manual operation at height.

Benefits of technology

It improves the adjustment efficiency of track lights, reduces operational complexity and safety risks, and minimizes disruption to commercial operations.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224364795U_ABST
    Figure CN224364795U_ABST
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Abstract

The utility model relates to track lamp technical field, especially movable track lamp structure, the left and right sides of guide rail all are provided with the electrically conductive strip, the both sides of lamp assembly all are provided with lamp electrically conductive sheet, the both sides of lamp electrically conductive sheet respectively with the electrically conductive strip of both sides are connected, the inside of guide rail is provided with power trolley, power trolley includes the trolley shell slidingly connected in guide rail and the circuit board of setting in the trolley shell inside, the both sides of trolley shell all are provided with trolley electrically conductive sheet, the both sides of trolley electrically conductive sheet respectively with the electrically conductive strip of both sides are connected, the inside of trolley shell is provided with the movement module that can crawl in guide rail, when using the utility model, in this structure, the position of lamp assembly on guide rail is adjusted conveniently, and the adjustment efficiency is high.
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Description

Technical Field

[0001] This utility model relates to the field of track lighting technology, and in particular to a movable track lighting structure. Background Technology

[0002] In the field of directional lighting technology, track lights are widely used in commercial venues such as shopping malls, supermarkets, exhibition halls, and clothing stores because of their ability to flexibly adjust the lighting position. They can provide targeted lighting for specific areas based on the layout of merchandise, changes in exhibition themes, or spatial functional needs, thereby enhancing the lighting effect and the user experience of the space.

[0003] The core structure of existing track lights typically includes a track body, a lamp body, and conductive components. The track body is usually a long strip structure, fixedly installed at a predetermined position on the ceiling or wall, and contains conductive lines for current transmission. The lamp body is movably mounted on the track body via sliding connectors and can slide freely along the length of the track body. The conductive components are integrated into the mating parts of the lamp body and the track body, and usually include conductive springs, conductive contacts, etc. They maintain reliable contact with the conductive lines inside the track body during the sliding process, ensuring that the lamp body receives a continuous and stable power supply, and thus enabling the lamp body to continue to emit light normally after the sliding adjustment position.

[0004] Based on the above structure, existing track lights can adjust their lighting position by sliding the light body along the track body. This adjustment method is convenient in scenarios where the track installation height is low (such as below 2.5m). However, in scenarios such as large commercial complexes, high-rise convention centers, and large warehouse supermarkets, in order to meet the needs of large-area lighting coverage or adapt to the overall layout of the space, the installation height of track lights usually needs to reach more than 4m, and in some scenarios, it even needs to reach 6-8m.

[0005] Existing adjustment methods for track lights with such high installation heights have significant drawbacks: because the lights are far from the ground, operators cannot directly touch them for sliding adjustments and must rely on climbing equipment (such as mobile ladders, platform trucks, scaffolding, etc.). In actual operation, the climbing equipment must first be moved to a designated location below the track light and secured. After climbing onto the equipment, operators must maintain balance at a height and push the light along the track. This process is not only cumbersome and inefficient (a single adjustment typically requires 2-3 people and takes 15-30 minutes), but also poses safety hazards such as falls from heights and tipping over of the climbing equipment. Furthermore, during normal business hours in commercial establishments, using climbing equipment to adjust track lights occupies space, interferes with customer passage or merchandise display areas, and adversely affects business operations.

[0006] In summary, the existing adjustment methods for track lights in high installation height scenarios can no longer meet the requirements of convenience, safety, and continuous commercial operation. There is an urgent need to propose a technical solution that can solve the above problems. Utility Model Content

[0007] The purpose of this invention is to provide a movable track light structure to address the shortcomings and deficiencies of existing technologies.

[0008] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0009] The movable track light structure of this utility model includes a guide rail and a light fixture assembly slidably connected to the guide rail; conductive strips are provided on both the left and right sides of the guide rail; conductive light fixture sheets are provided on both sides of the light fixture assembly; the conductive light fixture sheets on both sides are respectively connected to the conductive strips on both sides.

[0010] The guide rail is equipped with a power trolley; the power trolley includes a trolley housing slidably connected to the guide rail and a circuit board disposed inside the trolley housing; conductive plates are disposed on both sides of the trolley housing; the conductive plates on both sides are respectively connected to conductive strips on both sides; the trolley housing is equipped with a motion module capable of crawling within the guide rail.

[0011] Furthermore, the motion module includes a motor, a reduction gearbox, and a gear; the gear is rotatably connected to the carriage housing; the housings of the motor and the reduction gearbox are both fixed to the carriage housing; the output end of the motor is fixedly connected to the input end of the reduction gearbox; the output end of the reduction gearbox is connected to the gear; a rack that meshes with the gear is fixed on the inner wall of the guide rail; the rack and the conductive strip are arranged parallel to each other.

[0012] Furthermore, the trolley housing is provided with a hook; the lamp assembly is provided with a hook groove that matches the hook; the hook is embedded in the hook groove.

[0013] Furthermore, guide grooves are provided on both sides of the guide rail; trolley sliders that are slidably connected to the guide grooves are provided on both sides of the power trolley; and lamp sliders that are slidably connected to the guide grooves are provided on both sides of the lamp assembly.

[0014] Furthermore, the lamp assembly includes a lamp housing; both ends of the lamp housing are detachably connected to positioning seats; a light-emitting module is disposed inside the lamp housing; the light-emitting module is pressed and fixed onto the lamp housing by the positioning seats on both sides.

[0015] Furthermore, the light-emitting module consists of a reflector, a lens, and a lamp plate; the reflector is fixed to the lamp plate by bolts; the lens is provided with multiple lens clips; the reflector is provided with multiple reflector clip holes; and the lens clips are fixed to the reflector clip holes.

[0016] Furthermore, both sides of the positioning base are provided with positioning base buckles and insert plates; both sides of the lamp housing are provided with upper limit bars and lamp housing slots; the insert plates match the lamp housing slots; the insert plates on both sides are inserted into the lamp housing slots;

[0017] The upper limit bar is provided with a buckle groove; the buckles of the two side positioning seats are respectively buckled into the buckle grooves on both sides.

[0018] Furthermore, the positioning seat is provided with a lower boss; slots are provided on both sides of the reflector cup; the lower bosses on both sides are inserted into the slots on both sides; the lamp plate is pressed against the inner top wall of the lamp housing.

[0019] With the above structure, the beneficial effects of this utility model are as follows: two conductive strips are respectively connected to the power supply; the circuit board is energized by the conductive plates on both sides of the trolley and the conductive strips on both sides; the motion module is electrically connected to the circuit board; a signal receiving module is provided on the circuit board; a signal is sent by the remote control, and after the signal receiving module of the circuit board receives the signal, it controls the motion module to move, so that the power trolley drives the lamp assembly to slide on the guide rail, thereby realizing the adjustment of the light output position of the lamp assembly. In this structure, the lamp assembly is easy to adjust in position on the guide rail and the adjustment efficiency is high. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of the structure of this utility model;

[0021] Figure 2 This is a structural diagram of the guide rail;

[0022] Figure 3 This is a structural diagram of the present invention after the guide rail has been removed;

[0023] Figure 4 This is a structural diagram showing the connection between the power vehicle and the lighting components;

[0024] Figure 5 This is an exploded view showing the connection between the power vehicle and the lighting components;

[0025] Figure 6 This is an exploded view of the lighting components;

[0026] Figure 7 yes Figure 6 Enlarged view of part A in the image;

[0027] Figure 8 This is a partial view of the light-emitting module;

[0028] Figure 9 It is an exploded view of a motorized toy car;

[0029] Figure 10 This is a structural diagram of the lamp housing;

[0030] Figure 11 This is a structural diagram of the positioning seat;

[0031] Explanation of reference numerals in the attached figures:

[0032] 1. Guide rail; 101. Rack; 102. Conductive strip; 103. Guide groove; 2. Power trolley;

[0033] 201. Conductive sheet for the trolley; 202. Slider for the trolley; 203. Gear; 204. Hook;

[0034] 205. Car body; 20501. Gear protrusion hole; 206. Motor; 207. Circuit board;

[0035] 208. Gearbox; 3. Lighting assembly; 301. Lighting slider; 302. Lighting conductive sheet;

[0036] 303. Hook groove; 304. Positioning seat; 30401. Lower boss; 30402. Positioning seat buckle;

[0037] 30403, Upper boss; 30404, Insert plate; 305, Reflector; 306, Lens;

[0038] 30601, Lens clip; 30602, Slot; 307, Lamp panel; 308, Top plate; 309, Lamp housing;

[0039] 30901, Upper limit bar; 3090101, Buckle slot; 30902, Lamp housing slot. Detailed Implementation

[0040] The present invention will be further described below with reference to the accompanying drawings.

[0041] like Figures 1 to 11 As shown, the movable track light structure of this utility model includes a guide rail 1 and a light fixture assembly 3 slidably connected to the guide rail 1; conductive strips 102 are provided on both the left and right sides of the guide rail 1; light fixture conductive sheets 302 are provided on both sides of the light fixture assembly 3; the light fixture conductive sheets 302 on both sides are respectively connected to the conductive strips 102 on both sides.

[0042] The guide rail 1 is equipped with a power trolley 2; the power trolley 2 includes a trolley housing 205 slidably connected to the guide rail 1 and a circuit board 207 disposed inside the trolley housing 205; both sides of the trolley housing 205 are provided with trolley conductive plates 201; the trolley conductive plates 201 on both sides are respectively connected to the conductive strips 102 on both sides; the trolley housing 205 is equipped with a motion module that can crawl inside the guide rail 1;

[0043] Two conductive strips 102 are respectively connected to the power supply; the circuit board 207 is powered by the power supply through the small carriage conductive plates 201 on both sides and the conductive strips 102 on both sides.

[0044] Circuit board 207 is not fundamentally different from existing technology, so it will not be described in detail. The motion module is electrically connected to circuit board 207. Circuit board 207 is equipped with a signal receiving module. After receiving the signal sent by the remote control, the signal receiving module of circuit board 207 controls the motion module to move, so that the power trolley 2 drives the lamp assembly 3 to slide on the guide rail 1, thereby realizing the adjustment of the light output position of the lamp assembly 3. In this structure, the lamp assembly 3 is easy to adjust in position on the guide rail 1, and the adjustment efficiency is high.

[0045] In a preferred embodiment of this utility model, the motion module includes a motor 206, a reduction gearbox 208, and a gear 203; the gear 203 is rotatably connected to the carriage housing 205; the outer shells of the motor 206 and the reduction gearbox 208 are both fixed to the carriage housing 205; the output end of the motor 206 is fixedly connected to the input end of the reduction gearbox 208; the output end of the reduction gearbox 208 is connected to the gear 203; a rack 101 that meshes with the gear 203 is fixed on the inner wall of the guide rail 1; the rack 101 and the conductive strip 102 are arranged parallel to each other;

[0046] The trolley housing 205 is provided with a gear extension hole 20501 for the gear 203 to extend out;

[0047] After receiving the signal, the circuit board 207 causes the motor 206 to move. The motor 206 drives the gearbox 208 to move, causing the gear 203 to crawl on the rack 101, so that the power trolley 2 and the lighting assembly 3 can crawl along the length of the guide rail 1.

[0048] In a preferred embodiment of this utility model, the trolley housing 205 is provided with a hook 204; the lamp assembly 3 is provided with a hook groove 303 that matches the hook 204; the hook 204 is embedded in the hook groove 303; the power trolley 2 and the lamp assembly 3 are connected by a hook, which facilitates the assembly and disassembly of the power trolley 2 and the lamp assembly 3.

[0049] In a preferred embodiment of this utility model, guide grooves 103 are provided on both sides of the guide rail 1; trolley sliders 202 that are slidably connected to the guide grooves 103 are provided on both sides of the power trolley 2; and lamp sliders 301 that are slidably connected to the guide grooves 103 are provided on both sides of the lamp assembly 3.

[0050] The sliding connection between the power trolley 2 and the guide rail 1 is achieved by inserting the trolley slider 202 into the guide groove 103; the sliding connection between the lamp assembly 3 and the guide rail 1 is achieved by inserting the lamp slider 301 into the guide groove 103.

[0051] In a preferred embodiment of this utility model, the lamp assembly 3 includes a lamp housing 309; both ends of the lamp housing 309 are detachably connected to positioning seats 304; a light-emitting module is disposed inside the lamp housing 309; the light-emitting module is pressed and fixed to the lamp housing 309 by the positioning seats 304 on both sides; the light-emitting module is fixed by the positioning seats 304 detachably connected to the lamp housing 309, which facilitates the assembly of the light-emitting module.

[0052] In a preferred embodiment of this utility model, the light-emitting module comprises a reflector 305, a lens 306, and a lamp plate 307; the reflector 305 is fixed to the lamp plate 307 by bolts; the lens 306 is provided with multiple lens clips 30601; the reflector 305 is provided with multiple reflector clip holes; the lens clips 30601 are clipped and fixed to the reflector clip holes; the reflector 305, lens 306, and lamp plate 307 are combined into one unit by bolts and clips, which facilitates subsequent assembly.

[0053] In a preferred embodiment of this utility model, positioning seat 304 is provided with positioning seat buckles 30402 and insert plates 30404 on both sides; lamp housing 309 is provided with upper limit bars 30901 and lamp housing slots 30902 on both sides; the insert plates 30404 are matched with the lamp housing slots 30902; the insert plates 30404 on both sides are inserted into the lamp housing slots 30902;

[0054] The upper limit bar 30901 is provided with a buckle groove 3090101; the two side positioning seat buckles 30402 are respectively buckled into the buckle grooves 3090101 on both sides;

[0055] After the insert plate 30404 is inserted into the lamp housing slot 30902, the positioning seat buckle 30402 is snapped into the buckle slots 3090101 on both sides, so that the positioning seat 304 is fixed to the lamp housing 309; making it convenient to assemble and disassemble the positioning seat 304 and the lamp housing 309.

[0056] In a preferred embodiment of this utility model, the positioning base 304 is provided with a lower boss 30401; the reflector cup 305 is provided with slots 30602 on both sides; the lower bosses 30401 on both sides are inserted into the slots 30602 on both sides; the lamp plate 307 is pressed against the inner top wall of the lamp housing 309.

[0057] After positioning by the positioning seat 304, the lower boss 30401 is inserted into the slots 30602 on both sides to fix the entire light-emitting module on the lamp housing 309; the positioning seat 304 is also provided with an upper boss 30403, which is used to clamp and fix the top plate 308.

[0058] The above description is only a preferred embodiment of the present utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model patent application are included in the scope of the present utility model patent application.

Claims

1. A movable track light structure, comprising a guide rail (1) and a light fixture assembly (3) slidably connected to the guide rail (1); conductive strips (102) are provided on both the left and right sides of the guide rail (1); conductive sheets (302) are provided on both sides of the light fixture assembly (3); the conductive sheets (302) on both sides are respectively connected to the conductive strips (102) on both sides; Its features are: The guide rail (1) is equipped with a power trolley (2); the power trolley (2) includes a trolley housing (205) slidably connected in the guide rail (1) and a circuit board (207) disposed inside the trolley housing (205); trolley conductive plates (201) are provided on both sides of the trolley housing (205); the trolley conductive plates (201) on both sides are respectively connected to the conductive strips (102) on both sides; the trolley housing (205) is equipped with a motion module that can crawl in the guide rail (1).

2. The movable track light structure according to claim 1, characterized in that: The motion module includes a motor (206), a gearbox (208), and a gear (203); the gear (203) is rotatably connected to the carriage housing (205); the outer shell of the motor (206) and the outer shell of the gearbox (208) are both fixed to the carriage housing (205); the output end of the motor (206) is fixedly connected to the input end of the gearbox (208); the output end of the gearbox (208) is connected to the gear (203); a rack (101) that meshes with the gear (203) is fixed on the inner side wall of the guide rail (1); the rack (101) and the conductive strip (102) are arranged parallel to each other.

3. The movable track light structure according to claim 1, characterized in that: The trolley housing (205) is provided with a hook (204); the lamp assembly (3) is provided with a hook groove (303) that matches the hook (204); the hook (204) is embedded in the hook groove (303).

4. The movable track light structure according to claim 1, characterized in that: The guide rail (1) has guide grooves (103) on both sides; the power trolley (2) has trolley sliders (202) on both sides that are slidably connected to the guide grooves (103); the lamp assembly (3) has lamp sliders (301) on both sides that are slidably connected to the guide grooves (103).

5. The movable track light structure according to claim 1, characterized in that: The lamp assembly (3) includes a lamp housing (309); both ends of the lamp housing (309) are detachably connected to positioning seats (304); a light-emitting module is provided inside the lamp housing (309); the light-emitting module is pressed and fixed on the lamp housing (309) by the positioning seats (304) on both sides.

6. A movable track light structure according to claim 5, characterized in that: The light-emitting module consists of a reflector (305), a lens (306), and a lamp plate (307); the reflector (305) is fixed to the lamp plate (307) by bolts; the lens (306) is provided with multiple lens clips (30601); the reflector (305) is provided with multiple reflector clip holes; the lens clips (30601) are clipped and fixed to the reflector clip holes.

7. A movable track light structure according to claim 6, characterized in that: The positioning base (304) is provided with positioning base buckles (30402) and insert plates (30404) on both sides; the lamp housing (309) is provided with upper limit bars (30901) and lamp housing slots (30902) on both sides; the insert plates (30404) match the lamp housing slots (30902); the insert plates (30404) on both sides are inserted into the lamp housing slots (30902); The upper limit bar (30901) is provided with a buckle groove (3090101); the two side positioning seat buckles (30402) are respectively buckled in the buckle grooves (3090101) on both sides.

8. A movable track light structure according to claim 6, characterized in that: The positioning seat (304) is provided with a lower boss (30401); the reflector cup (305) is provided with slots (30602) on both sides; the lower bosses (30401) on both sides are inserted into the slots (30602) on both sides; the lamp plate (307) is pressed against the inner top wall of the lamp housing (309).