An LED powered cord arrangement

By designing an LED power supply cable management device, the problems of complex cable winding and lack of quick assembly and locking functions in existing devices are solved. It achieves the effects of quick wiring, automatic locking and power supply maintenance, and provides a safe power supply and convenient fuse replacement.

CN115594020BActive Publication Date: 2026-06-23HUANTAI POWER SUPPLY CO OF STATE GRID SHANDONG ELECTRIC POWER CO

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HUANTAI POWER SUPPLY CO OF STATE GRID SHANDONG ELECTRIC POWER CO
Filing Date
2022-10-31
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing cable management devices are complex to wind, lack quick assembly and wiring structures, lack the function of locking and winding ultra-long lines, and cannot maintain power supply during the winding process.

Method used

An LED power supply cable management device was designed, comprising a junction box, an integrated power supply, a control board, a cable organizer, a rotating connector, and a fuse box. Power is supplied via a push-button switch, and the rotating connector and cable roller enable quick wiring and winding/locking. The fuse box provides fuse replacement functionality.

Benefits of technology

It achieves rapid assembly and wiring, automatic locking, and power supply maintenance, simplifies the wiring process, and provides a safe power supply and convenient fuse replacement.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides an LED power supply wiring device, and relates to the technical field of LED power supply, which comprises a wiring box body, the front end of the wiring box body is hingedly provided with a closed revolving door, a threading hole is formed in the left side of the wiring box body, an integrated power supply is fixedly arranged on the right side in the wiring box body, a push button switch is fixedly arranged at the bottom of the integrated power supply, the integrated power supply is electrified when the closed revolving door is closed and the push button switch is pressed, and a control panel is fixedly arranged on the left side in the wiring box body. The wiring structure capable of being quickly assembled is provided, the main wire clamp and the side wire clamp are inserted between the two groups of locking buckles, the force provided by the springs between the two groups of locking buckles and the two groups of I-shaped piles fixes and clamps the main wire clamp and the side wire clamp on the outside of the cylindrical electrode, the integrated power supply and the control panel are connected through the cylindrical electrode and the connecting wire, and the problem that the existing wiring device lacks the wiring structure capable of being quickly assembled is solved.
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Description

Technical Field

[0001] This invention relates to the field of LED power supply technology, and in particular to an LED power supply cable management device. Background Technology

[0002] LED power supply mainly consists of an integrated power supply and control circuit, which then controls the power supply. The lighting can be adjusted by adjusting the circuit. Connections need to be made between the integrated power supply and control circuit, as well as between the control circuit and the LED light.

[0003] Current cable management devices have the following drawbacks:

[0004] 1. Existing cable management devices have complex cable winding, lack wiring structures that allow for quick assembly, and lack cable management structures that can fix the cables.

[0005] 2. It lacks the function of winding up and locking ultra-long cables automatically;

[0006] 3. Lack of a corresponding structure to maintain power supply during the winding process. Summary of the Invention

[0007] In view of this, the present invention provides an LED power supply cable management device, which has a push-button switch and can provide a power supply limitation effect, ensuring that the integrated power supply can be energized when the closed revolving door is closed, thus providing safety.

[0008] This invention provides an LED power supply cable management device, specifically comprising: a junction box body, the front end of which is hinged with a closed rotating door; a cable pass-through hole on the left side of the junction box body; an integrated power supply, which is fixedly disposed inside the junction box body on the right side, and a push-button switch is fixedly disposed at the bottom of the integrated power supply, which is activated by pressing the push-button switch when the closed rotating door is closed; a control board, which is fixedly disposed inside the junction box body on the left side; a cable organizer, which is fixedly disposed inside the junction box body on the upper rear side; a terminal box is fixedly disposed at the top of the integrated power supply and the control board; a connecting wire, both ends of which are fixedly disposed with main wire clamps, and a side wire clamp is hinged to one side of the main wire clamp; a rotating terminal block, which includes a positive electrode block and a negative electrode block, which are fixedly disposed on the left front side of the control board, with the positive electrode block located above the negative electrode block; a cable roller, which is rotatably disposed between the positive electrode block and the negative electrode block; and a fuse box, which is fixedly disposed on the right front side of the control board.

[0009] Optionally, the control board includes: a negative electrode copper sheet, with the negative electrode copper sheet fixedly disposed on the front side of the control board and the negative electrode holder connected to the negative electrode copper sheet; and a power supply copper sheet, with the power supply copper sheet fixedly disposed on the front side of the control board and the positive electrode holder connected to the power supply copper sheet.

[0010] Optionally, the cable organizer includes: a cable guide pull head, a spring rod A fixedly mounted on the cable guide pull head, a reset plate fixedly mounted on one end of the spring rod A in the cable organizer, and a spring mounted between the reset plate and the inner front end of the cable organizer.

[0011] Optionally, the terminal box includes: an I-beam post, which is fixedly disposed in the terminal box, with locking buckles slidably disposed on both sides of the I-beam post, and a spring disposed between the locking buckles and the I-beam post; and a cylindrical electrode, which is fixedly disposed in the terminal box and connected to the metal end of the integrated power supply and control board.

[0012] Optionally, the main clamp and the side clamp can form a U-shaped structure that fits and is secured to both sides of the cylindrical electrode.

[0013] Optionally, the rotary electrode holder further includes: an adjusting screw, wherein the adjusting screw is rotatably mounted on the top of the positive electrode holder, and the front end of the adjusting screw is a screw end structure; and an electric slip ring, wherein an electric slip ring is fixedly mounted between the positive electrode holder and the negative electrode holder.

[0014] Optionally, the connecting roller includes: a rotating baffle, with a rotating terminal fixedly disposed on the adjacent surfaces of two sets of rotating baffles, and an insulating sheet fixedly disposed between the two sets of rotating terminals; the two sets of rotating baffles are rotatably disposed in the slip ring in cooperation with the rotating shaft structure; the rotating shaft structure, the rotating baffles, and the rotating terminals are all conductors; a through hole is opened in the middle of the rotating terminal, and a set screw is threaded to the side of the rotating terminal; a worm gear, with a worm gear fixedly disposed outside the rotating shaft of the top rotating baffle, and an adjusting screw is connected to the worm gear for transmission.

[0015] Optionally, the fuse box includes: connecting electrodes, with an insulating partition fixedly disposed between the two sets of connecting electrodes, the connecting electrodes and the insulating partition fixed to the front right side of the control board; the left connecting electrode is connected to the power supply copper sheet; the right connecting electrode is connected to the cylindrical electrode at the top of the control board; an arc-shaped platform, with an arc-shaped platform fixedly disposed below the front side of the connecting electrodes; and a cover, with an ear structure integrally disposed on the sides of the cover and the connecting electrodes, a spring rod B fixedly disposed on the front side of the ear structure of the connecting electrodes, the front side of the spring rod B passing through the ear structure of the cover and then fitted with a spring and fixedly disposed with a circular plate.

[0016] Beneficial effects

[0017] 1. The connection cable provides a wiring structure that allows for quick assembly. The main cable clamp and side cable clamp are placed together and then inserted between two sets of locking clips. The springs between the two sets of locking clips and the two sets of I-beams provide force, fixing the main cable clamp and side cable clamp to the outside of the cylindrical electrode. The integrated power supply and control board are then connected via the cylindrical electrode and the connection cable. Furthermore, pulling open the cable guide allows the connection cable to be inserted into the cable organizer's compartments for cable management. Releasing the cable guide causes it to automatically reset with the reset plate and spring, enabling cable management while quickly connecting the cables.

[0018] 2. The connection roller is equipped to wind up and lock extra-long wires. Insert both ends of the connecting wire into the rotating terminal and fix it with the set screw. If the wire is too long, use a screwdriver to turn the adjusting screw, which drives the worm gear to rotate. The worm gear drives the connection roller to rotate, thereby winding up the wire, tightening and tidying it up. The worm gear transmission also enables automatic locking.

[0019] 3. An electric slip ring is provided, which provides a corresponding structure to maintain power supply during the winding process, and can continue to maintain power supply even when the connecting roller is adjusted.

[0020] 4. A fuse box is provided, which facilitates the installation and replacement of fuses. The fuse is placed between the connecting electrode and the cover, and is locked in place by the connecting electrode and the cover. When it needs to be replaced, simply pull open the cover and the fuse will fall out naturally; when the cover is released, the cover will automatically lock in place with the spring outside spring rod B. Attached Figure Description

[0021] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings of the embodiments will be briefly described below.

[0022] The accompanying drawings described below are only related to some embodiments of the invention and are not intended to limit the invention.

[0023] In the attached diagram:

[0024] Figure 1 A three-dimensional structural schematic diagram according to an embodiment of the present invention is shown;

[0025] Figure 2 A schematic diagram of the tilting structure according to an embodiment of the present invention is shown;

[0026] Figure 3 A three-dimensional structural schematic diagram of a control board according to an embodiment of the present invention is shown;

[0027] Figure 4 A three-dimensional disassembled structural diagram of a terminal box according to an embodiment of the present invention is shown;

[0028] Figure 5 A three-dimensional structural schematic diagram of a cable organizer according to an embodiment of the present invention is shown;

[0029] Figure 6 A three-dimensional structural schematic diagram of a rotary terminal block according to an embodiment of the present invention is shown;

[0030] Figure 7 A three-dimensional structural schematic diagram of a safe box according to an embodiment of the present invention is shown;

[0031] Figure 8 A partially enlarged structural schematic diagram of A according to an embodiment of the present invention is shown.

[0032] List of reference numerals

[0033] 1. Junction box body; 101. Enclosed rotating door; 2. Integrated power supply; 201. Push-button switch; 3. Control board; 301. Negative copper sheet; 302. Power supply copper sheet; 4. Cable organizer; 401. Cable guide head; 402. Spring rod A; 403. Reset plate; 5. Terminal box; 501. I-beam post; 502. Locking buckle; 503. Cylindrical electrode; 6. Connecting wire; 601. Main wire clamp; 602. Side wire clamp; 7. Rotary terminal block; 701. Positive electrode block; 702. Negative electrode block; 703. Adjusting screw; 704. Electric slip ring; 8. Connecting roller; 801. Rotary baffle; 802. Rotary terminal; 803. Insulating sheet; 804. Worm gear; 9. Fuse box; 901. Connecting electrode; 902. Insulating partition; 903. Arc-shaped platform; 904. Spring rod B; 905. Cover. Detailed Implementation

[0034] To make the objectives, solutions, and advantages of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Unless otherwise stated, the terms used herein have their ordinary meanings in the art. The same reference numerals in the drawings represent the same parts.

[0035] Example: Please refer to Figures 1 to 8 As shown:

[0036] This invention proposes an LED power supply cable management device, comprising: a junction box 1, with a hinged closed door 101 at the front end; a cable threading hole on the left side of the junction box 1; an integrated power supply 2, fixedly disposed inside the junction box 1 on the right side, with a push-button switch 201 fixedly disposed at the bottom of the integrated power supply 2, pressing the push-button switch 201 when the closed door 101 is closed energizing the integrated power supply 2; a control board 3, fixedly disposed inside the junction box 1 on the left side; and a cable organizer 4, fixedly disposed inside the junction box 1 on the upper rear side; the integrated power supply 2 and... A terminal box 5 is fixedly installed at the top of the control board 3; a connecting wire 6, with main wire clamps 601 fixedly installed at both ends of the connecting wire 6, and a side wire clamp 602 hinged to one side of the main wire clamp 601; a rotating electrical connector 7, which includes a positive electrode holder 701 and a negative electrode holder 702, which are fixedly installed on the left front side of the control board 3, with the positive electrode holder 701 located above the negative electrode holder 702; a wiring roller 8, which is rotatably installed between the positive electrode holder 701 and the negative electrode holder 702; and a fuse box 9, which is fixedly installed on the right front side of the control board 3.

[0037] The control board 3 includes: a negative electrode copper sheet 301, which is fixedly disposed on the front side of the control board 3, and a negative electrode holder 702 connected to the negative electrode copper sheet 301; and a power supply copper sheet 302, which is fixedly disposed on the front side of the control board 3, and a positive electrode holder 701 connected to the power supply copper sheet 302.

[0038] The cable organizer 4 includes: a cable guide pull head 401, a spring rod A402 fixedly mounted on the cable guide pull head 401, a reset piece 403 fixedly mounted on one end of the spring rod A402 in the cable organizer 4, and a spring between the reset piece 403 and the inner front end of the cable organizer 4.

[0039] The terminal box 5 includes: an I-beam post 501, which is fixedly installed in the terminal box 5; locking buckles 502 are slidably installed on both sides of the I-beam post 501; and a spring between the locking buckles 502 and the I-beam post 501. A cylindrical electrode 503 is fixedly installed inside the terminal box 5 and is connected to the metal ends of the integrated power supply 2 and the control board 3. A main wire clamp 601 and a side wire clamp 602 can form a U-shaped structure and fit snugly on both sides of the cylindrical electrode 503. The main wire clamp 601 and the side wire clamp 602 are joined together and then inserted between the two sets of locking buckles 502. The springs between the two sets of locking buckles 502 and the two sets of I-beam posts 501 provide force, fixing the main wire clamp 601 and the side wire clamp 602 to the outside of the cylindrical electrode 503. The integrated power supply 2 and the control board 3 are then connected through the cylindrical electrode 503 and the connecting wire 6.

[0040] The rotary electrode holder 7 also includes: an adjusting screw 703, which is rotatably mounted on the top of the positive electrode holder 701, and the front end of the adjusting screw 703 is a screw end structure; and an electric slip ring 704, which is fixedly mounted between the positive electrode holder 701 and the negative electrode holder 702.

[0041] The wiring roller 8 includes: a rotating baffle 801, with a rotating terminal 802 fixedly disposed on the adjacent surfaces of two sets of rotating baffles 801, and an insulating sheet 803 fixedly disposed between the two sets of rotating terminals 802; the two sets of rotating baffles 801 are rotatably disposed in the slip ring 704 in conjunction with the rotating shaft structure; the rotating shaft structure, rotating baffles 801, and rotating terminals 802 are all conductors; a through hole is opened in the middle of the rotating terminal 802, and a set screw is threadedly connected to the side of the rotating terminal 802; a worm gear 804 is fixedly disposed outside the rotating shaft of the top rotating baffle 801, and an adjusting screw 703 is connected to the worm gear 804 for transmission; both ends of the wire are inserted into the rotating terminal 802 and fixed with the set screw. If the wire is too long, the adjusting screw 703 is rotated with a screwdriver, and the adjusting screw 703 drives the worm gear 804 to rotate, which in turn drives the wiring roller 8 to rotate as a whole, thereby winding up the wire, shrinking and tightening the wire, and tidying up the wire.

[0042] The fuse box 9 includes: connecting electrodes 901, with an insulating partition 902 fixedly disposed between the two sets of connecting electrodes 901, and the connecting electrodes 901 and the insulating partition 902 fixed to the front right side of the control board 3; the left connecting electrode 901 is connected to the power supply copper sheet 302; the right connecting electrode 901 is connected to the cylindrical electrode 503 at the top of the control board 3; an arc-shaped platform 903, with an arc-shaped platform 903 fixedly disposed below the front side of the connecting electrodes 901; and a cover 905, which is integral with the sides of the connecting electrodes 901. The device is equipped with an ear structure. A spring rod B904 is fixedly installed on the front side of the ear structure of the connecting electrode 901. The front side of the spring rod B904 passes through the ear structure of the cover 905, and a spring is sleeved on it and a circular plate is fixedly installed. A fuse is placed between the connecting electrode 901 and the cover 905, and the connecting electrode 901 and the cover 905 are locked together. When it needs to be replaced, simply pull open the cover 905, and the fuse will fall out naturally. When the cover 905 is released, the cover 905 automatically locks itself in conjunction with the spring outside the spring rod B904.

[0043] The specific usage and function of this embodiment: In this invention, during assembly, the lock of the closed revolving door 101 is unlocked in advance to open the closed revolving door 101. Then, according to the wiring requirements, the terminal box 5 on the top of the integrated power supply 2 and the control board 3 is connected first. The main wire clamp 601 and the side wire clamp 602 are put together and then inserted between the two sets of locking buckles 502. The spring between the two sets of locking buckles 502 and the two sets of I-beams 501 provides force to fix the main wire clamp 601 and the side wire clamp 602 on the outside of the cylindrical electrode 503. Then, the integrated power supply 2 and the control board 3 are connected through the cylindrical electrode 503 and the connecting wire 6.

[0044] Pull out the cable guide 401, insert the connecting wire 6 into the gap of the cable organizer 4 to organize the wires, and then release the cable guide 401. The cable guide 401 will automatically reset in conjunction with the reset piece 403 and the spring.

[0045] Insert the LED light wire through the wire hole on the left side of the junction box 1 and then insert both ends of the wire into the rotating terminal 802 and secure it with the set screw. If the wire is too long, use a screwdriver to turn the adjusting screw 703. The adjusting screw 703 drives the worm gear 804 to rotate, and the worm gear 804 drives the wire roller 8 to rotate as a whole, thereby winding up the wire, shrinking and tightening the wire, and tidying up the wire.

[0046] Place the fuse between the connecting electrode 901 and the cover 905, and lock it in place using the connecting electrode 901 and the cover 905. When it needs to be replaced, simply pull open the cover 905 and the fuse will fall out naturally. When the cover 905 is released, the cover 905 will automatically lock in place with the spring outside the spring rod B904.

[0047] When the closed rotating door 101 is closed, pressing the trigger button switch 201 powers on the integrated power supply 2, thereby connecting the integrated power supply 2, connecting wire 6, control board 3, connecting electrode 901, power supply copper sheet 302, negative electrode copper sheet 301, rotating terminal 802 and LED light.

[0048] Finally, it should be noted that when describing the position of each component and the mating relationship between them, the present invention usually uses one or a pair of components as examples. However, those skilled in the art should understand that such positions, mating relationships, etc., are also applicable to other components or other pairs of components.

[0049] The above description is merely an exemplary embodiment of the present invention and is not intended to limit the scope of protection of the present invention, which is determined by the appended claims.

Claims

1. An LED power supply cable management device, characterized in that, The system includes a junction box (1), with a hinged closed door (101) at the front end; a wire-passing hole on the left side of the junction box (1); an integrated power supply (2), which is fixedly installed inside the junction box (1) on the right side, with a push-button switch (201) fixedly installed at the bottom of the integrated power supply (2); a control board (3), which is fixedly installed inside the junction box (1) on the left side; a cable organizer (4), which is fixedly installed inside the junction box (1) on the upper rear side; and a top of the integrated power supply (2) and the control board (3). The system includes a terminal box (5); a connecting wire (6), with main wire clamps (601) fixedly installed at both ends of the connecting wire (6), and a side wire clamp (602) hinged to one side of the main wire clamp (601); a rotating electrical connector (7), which includes a positive electrode holder (701) and a negative electrode holder (702), which are fixedly installed on the left front side of the control board (3), with the positive electrode holder (701) located above the negative electrode holder (702); a wiring roller (8), which is rotatably installed between the positive electrode holder (701) and the negative electrode holder (702); and a fuse box (9), which is fixedly installed on the right front side of the control board (3). The terminal box (5) includes: An I-beam (501) is fixedly installed in a terminal box (5). Locking buckles (502) are slidably installed on both sides of the I-beam (501). A spring is installed between the locking buckle (502) and the I-beam (501). Cylindrical electrode (503) is fixedly installed inside terminal box (5). Cylindrical electrode (503) is connected to the metal end of integrated power supply (2) and control board (3). The rotary contactor (7) also includes: An adjusting screw (703) is rotatably mounted on the top of the positive electrode base (701), and the front end of the adjusting screw (703) is a screw end structure; An electric slip ring (704) is fixedly installed between the positive electrode holder (701) and the negative electrode holder (702). The connecting roller (8) includes: A rotating baffle (801) is provided with a rotating terminal (802) fixedly disposed on the adjacent surfaces of two sets of rotating baffles (801), and an insulating sheet (803) is fixedly disposed between the two sets of rotating terminals (802); the two sets of rotating baffles (801) are rotatably disposed in the electric slip ring (704) in conjunction with the rotating shaft structure; the rotating shaft structure, the rotating baffles (801) and the rotating terminals (802) are all conductors; a through hole is opened in the middle of the rotating terminal (802), and a set screw is threaded to the side of the rotating terminal (802); The worm wheel (804) is fixedly installed on the shaft at the top of the rotating baffle (801), and the adjusting screw (703) is connected to the worm wheel (804) for transmission.

2. The LED power supply cable management device as described in claim 1, characterized in that, The control panel (3) includes: A negative electrode copper sheet (301) is fixedly installed on the front side of the control board (3), and a negative electrode base (702) is connected to the negative electrode copper sheet (301). A power supply copper sheet (302) is fixedly installed on the front side of the control board (3), and a positive electrode base (701) is connected to the power supply copper sheet (302).

3. The LED power supply cable management device as described in claim 1, characterized in that, The cable management device (4) includes: A cable guide (401) is provided with a spring rod A (402) fixedly installed at one end of the cable guide (4). A reset piece (403) is fixedly installed at one end of the spring rod A (402) located in the cable organizer (4). A spring is provided between the reset piece (403) and the inner front end of the cable organizer (4).

4. The LED power supply cable management device as described in claim 1, characterized in that, The main clamp (601) and the side clamp (602) can form a U-shaped structure and fit together on both sides of the cylindrical electrode (503).

5. The LED power supply cable management device as described in claim 1, characterized in that, The safe box (9) includes: Connecting electrode (901), an insulating partition (902) is fixedly provided between the two sets of connecting electrodes (901), the connecting electrode (901) and the insulating partition (902) are fixed on the right front side of the control board (3); the left side of the connecting electrode (901) is connected to the power supply copper sheet (302); the right side of the connecting electrode (901) is connected to the cylindrical electrode (503) at the top of the control board (3); An arc-shaped platform (903) is fixedly installed on the lower front side of the connecting electrode (901). The cover (905) and the connecting electrode (901) are integrally provided with ear structures on their sides. A spring rod B (904) is fixedly provided on the front side of the ear structure of the connecting electrode (901). The front side of the spring rod B (904) passes through the ear structure of the cover (905), and a spring is sleeved on it and a circular plate is fixedly provided.