A foldable lamp
By designing a rotating connection structure for the main and auxiliary lamp modules of the folding lamp, and using the drive panel and power supply contact plate to achieve lamp effect adjustment, the problem of high cost of dimming retrofit of existing lamps is solved, and the effects of flexible dimming and low failure rate are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG XINGJUN LIGHTING TECHNOLOGY CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-06-26
AI Technical Summary
Existing lighting dimming retrofit solutions are costly and difficult to implement, and adding drive control equipment will increase the failure rate and procurement costs.
Design a folding lamp fixture that uses a rotating connection between a main lamp module and a secondary lamp module to adjust the lighting effect using a drive panel and a power supply contact plate. The secondary lamp module can achieve diverse lighting effects through a flipping operation, without the need for additional drive control circuitry.
It enables flexible adjustment of lighting effects, reduces hardware costs and failure rates, is suitable for diverse scenarios, and is easy to operate.
Smart Images

Figure CN224415080U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting structure technology, and in particular to a folding lighting fixture. Background Technology
[0002] In the lighting industry, fixtures such as living room lights and dining room lights often prioritize aesthetic design, with relatively limited lighting effects. Most fixtures only have an on / off function, requiring the addition of auxiliary lights such as wall lamps and downlights for dimming. Even those few fixtures with adjustable lighting effects rely on external driver control devices. It's conceivable that adding auxiliary lights significantly increases procurement and maintenance costs, and the failure rate also rises with the number of devices. Furthermore, if driver control devices are added to the fixtures for dimming, the compatibility of the fixtures with the modification requirements must be considered. Therefore, existing lighting dimming retrofit solutions are costly and difficult to implement, making them unsuitable for home environments. Utility Model Content
[0003] This embodiment discloses a folding lamp, specifically including:
[0004] A main lamp module 1 with a rotating shaft 11 on its long edge, and two auxiliary lamp modules 2 rotatably connected to the main lamp module 1 via the rotating shaft 11. The main lamp module 1 and the auxiliary lamp modules 2 are equipped with lamps inside.
[0005] The main light module 1 is equipped with a driver panel 12, which is connected to the power supply cable and the lamp inside the main light module 1.
[0006] The main light module 1 has a power transmission hole 13 on its side, and a power transmission contact plate 15 electrically connected to the drive panel 12 is provided inside the power transmission hole 13.
[0007] The sub-module is provided with a power receiving pin 21 on its side for connecting to the internal lamps. The power receiving pin 21 is used to insert into the power transmission hole 13 and contact the power transmission contact plate 15.
[0008] The drive panel 12 supplies power to the lamps in the main lamp module 1, and the drive panel 12 supplies power to the lamps in the auxiliary lamp module 2 via the power receiving pin 21 and the power transmission contact plate 15.
[0009] As an optional implementation, the power transmission port 13 is equipped with an elastic baffle 14.
[0010] As an optional implementation, the power receiving pin 21 is composed of a voltage-conducting spring 211 and a guiding terminal 212;
[0011] The conductive spring 211 is electrically connected to the lamp in the auxiliary lamp module 2.
[0012] As an optional implementation, the upper edge of the elastic baffle 14 is fixed to the top edge of the power transmission hole 13;
[0013] The guide terminal 212 has a slope to support and guide the elastic baffle 14 to bend inward into the main light module 1.
[0014] As an optional implementation, a suspension rod 3 is provided in the middle of the rotating shaft 11, and a pull rod 31 connects the middle of the suspension rod 3 and the top surface of the main light module 1.
[0015] As an optional implementation, a power supply cable is installed inside the boom 3;
[0016] The power supply cable is inserted into the main light module 1 via the hanging rod 3 and electrically connected to the drive panel 12.
[0017] As an optional implementation, the hanging rod 3 is perpendicular to the top surface of the main light module 1.
[0018] As an optional implementation, buffer pads D are mounted on the surfaces of the main lamp module 1 and the auxiliary lamp module 2.
[0019] As an optional implementation, the main lamp module 1 is fitted with a boss 16 on its side, and the auxiliary lamp module 2 is fitted with a buckle 22 on its side.
[0020] The buckle 22 engages with the protrusion 16 to lock the main light module 1 and the auxiliary light module 2 together.
[0021] As an optional implementation, the drive panel 12 is equipped with a communication antenna for communicating with an external terminal and receiving control commands for the main light module 1 or the auxiliary light module 2.
[0022] Compared with the prior art, this embodiment has the following beneficial effects:
[0023] With a simple flip operation, the auxiliary light module can be triggered to provide lighting, achieving diverse lighting effects and flexible dimming. It does not require a dedicated drive control circuit or additional light fixtures, resulting in a low failure rate and effective control of hardware costs, making it suitable for a variety of scenarios. Attached Figure Description
[0024] To more clearly illustrate the technical solutions in this embodiment, the accompanying drawings used in the embodiment will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0025] Figure 1This is a three-dimensional structural schematic diagram of a folding lamp disclosed in this embodiment;
[0026] Figure 2 This is a three-dimensional structural diagram of a folding lamp with one side auxiliary lamp module in a flipped state, as disclosed in this embodiment.
[0027] Figure 3 This is a schematic diagram of the planar structure of a folding lamp disclosed in this embodiment;
[0028] Figure 4 This is a cross-sectional structural diagram of a folding lamp disclosed in this embodiment;
[0029] Figure 5 This is a partial cross-sectional structural diagram of a folding lamp disclosed in this embodiment.
[0030] The specific structural component comparison table is as follows:
[0031] Detailed Implementation
[0032] The technical solutions in this embodiment will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0033] Please see Figures 1-5 This embodiment discloses a folding lamp, comprising:
[0034] A main lamp module 1 with a rotating shaft 11 on its long edge, and two auxiliary lamp modules 2 rotatably connected to the main lamp module 1 via the rotating shaft 11. The main lamp module 1 and the auxiliary lamp modules 2 are equipped with lamps.
[0035] The main light module 1 is equipped with a driver panel 12, which connects the power supply cable to the light fixture inside the main light module 1.
[0036] A power transmission hole 13 is provided on the side of the main light module 1, and a power transmission contact plate 15 for electrically connecting the drive panel 12 is provided inside the power transmission hole 13.
[0037] The side of the sub-module is provided with a power receiving pin 21 for connecting to the internal lamps. The power receiving pin 21 is used to insert into the power transmission hole 13 and contact the power transmission contact plate 15.
[0038] The drive panel 12 supplies power to the lamps in the main lamp module 1, and the drive panel 12 supplies power to the lamps in the auxiliary lamp module 2 via the contact-connected power receiving pin 21 and power transmission contact plate 15.
[0039] In this embodiment, when the auxiliary lamp module 2 is rotated and placed on the side of the main lamp module 1, its power receiving pin 21 contacts and conducts electricity with the power transmission contact plate 15 of the main lamp module 1, and the drive panel 12 supplies power to the lamps in the main lamp module 1 and the auxiliary lamp module 2 at the same time.
[0040] When the auxiliary lamp module 2 is rotated and placed above the main lamp module 1, its power receiving pin 21 loses contact with the power transmission contact plate 15, and only the lamp of the main lamp module 1 is lit.
[0041] Here, the auxiliary lamp module 2 can be equipped with the same lamp beads as the main lamp module 1, so that the light intensity can be adjusted by a simple flip operation.
[0042] In addition, different colors, color temperatures, and brightness of LED beads can be assembled to achieve different lighting effects and create different lighting atmospheres.
[0043] In addition, the auxiliary lamp module 2 can be equipped with a lampshade different from that of the main lamp module 1, thereby projecting a lighting effect with unique textures and patterns.
[0044] As can be seen, compared to the existing lighting fixtures which require specific design of the lighting array and corresponding drive and control circuits when making personalized designs, this embodiment can achieve the adjustment of light intensity, color, and effect simply by flipping the lamp.
[0045] Furthermore, by using a contact conduction method, when the external power supply is sufficient, there is no need to lay out complicated drive circuits and control circuits for each module lamp, which can ensure that the lamps of the main lamp module 1 and the auxiliary lamp module 2 are stably lit, and the component cost is greatly reduced.
[0046] As an optional implementation, the power transmission port 13 is equipped with an elastic baffle 14.
[0047] As an optional implementation, the power receiving pin 21 consists of a voltage conducting spring 211 and a guiding terminal 212;
[0048] The conductive spring 211 electrically connects to the lamps in the auxiliary lamp module 2.
[0049] As an optional implementation, the upper edge of the elastic baffle 14 is fixed to the top edge of the power transmission hole 13;
[0050] The guide terminal 212 has a slope to support the guide elastic baffle 14 bending inward toward the main lamp module 1.
[0051] Specifically, the power transmission hole 13 is shielded by an elastic baffle 14, so as to prevent dust or insects and other foreign objects from entering the main lamp module 1 through the power transmission hole 13 when the auxiliary lamp module 2 is flipped and placed on top of the main lamp module 1.
[0052] Furthermore, the guide terminal 212 of the power receiving foot 21 has a slope, which can guide the elastic baffle 14 to bend regularly into the main lamp module 1 during the flipping process. This avoids damage to the elastic baffle 14 and elastically resets after the guide terminal 212 is removed, thus providing perfect shielding and protection for the power transmission hole 13 at all times.
[0053] As an optional implementation, a hanger 3 is provided in the middle of the rotating shaft 11, and a pull rod 31 connects the middle of the hanger 3 and the top surface of the main light module 1.
[0054] As an optional implementation, power supply cables are installed inside the boom 3;
[0055] The power supply cable is inserted into the main light module 1 via the hanging rod 3 and electrically connected to the driver panel 12.
[0056] As an optional implementation, the hanging rod 3 is perpendicular to the top surface of the main light module 1.
[0057] Here, the suspender rod 3, together with the tie rod 31, enables the main lamp module 1 to be horizontally assembled. When the auxiliary lamp module 2 is flipped, it does not affect the main lamp module 1, ensuring the overall structure is stable.
[0058] As an optional implementation, buffer pads D are mounted on the surfaces of the main lamp module 1 and the auxiliary lamp module 2.
[0059] Here, the buffer pad D is used to prevent the housings of the main lamp module 1 and the auxiliary lamp module 2 from rigidly colliding during the flipping process, ensuring that no damage occurs.
[0060] As an optional implementation, the main lamp module 1 is fitted with a boss 16 on its side, and the auxiliary lamp module 2 is fitted with a buckle 22 on its side.
[0061] The latch 22 engages with the boss 16 to lock the main light module 1 and the auxiliary light module 2 together.
[0062] Here, the latch 22, together with the boss 16, securely locks the main lamp module 1 and the auxiliary lamp module 2 in their stacked state, preventing vibration and disturbance from causing wear on the rotating shaft 11 and ensuring that the service life meets the standard.
[0063] Compared with the prior art, this embodiment has the following beneficial effects:
[0064] With a simple flip operation, the auxiliary light module can be triggered to provide lighting, achieving diverse lighting effects and flexible dimming. It does not require a dedicated drive control circuit or additional light fixtures, resulting in a low failure rate and effective control of hardware costs, making it suitable for a variety of scenarios.
Claims
1. A folding lamp, characterized in that, include: A main lamp module (1) with a rotating shaft (11) on its long edge, and two auxiliary lamp modules (2) rotatably connected to the main lamp module (1) through the rotating shaft (11). The main lamp module (1) and the auxiliary lamp modules (2) are equipped with lamps inside. The main lamp module (1) is equipped with a drive panel (12), which is connected to the power supply cable and the lamp inside the main lamp module (1). The main lamp module (1) has a power transmission hole (13) on its side, and a power transmission contact plate (15) electrically connected to the drive panel (12) is provided inside the power transmission hole (13). The auxiliary lamp module is provided with a power receiving pin (21) on its side for connecting to the internal lamp. The power receiving pin (21) is used to insert into the power transmission hole (13) and contact the power transmission contact plate (15). The drive panel (12) supplies power to the lamps in the main lamp module (1), and the drive panel (12) supplies power to the lamps in the auxiliary lamp module (2) via the contact-connected power receiving pin (21) and the power transmission contact plate (15).
2. A folding lamp according to claim 1, characterized in that, include: The power transmission hole (13) is equipped with an elastic baffle (14).
3. A folding lamp according to claim 2, characterized in that, include: The power receiving pin (21) consists of a voltage-conducting spring (211) and a guide terminal (212); The conductive spring (211) is electrically connected to the lamp in the auxiliary lamp module (2).
4. A folding lamp according to claim 3, characterized in that, include: The upper edge of the elastic baffle (14) is fixed to the top edge of the power transmission hole (13); The guide terminal (212) has a slope to support and guide the elastic baffle (14) to bend into the main lamp module (1).
5. A folding lamp according to claim 1, characterized in that, include: A suspension rod (3) is provided in the middle of the rotating shaft (11), and a pull rod (31) connects the middle of the suspension rod (3) and the top surface of the main light module (1).
6. A folding lamp according to claim 5, characterized in that, include: The power supply cable is installed inside the boom (3); The power supply cable is inserted into the main light module (1) via the hanging rod (3) and electrically connected to the drive panel (12).
7. A folding lamp according to claim 5, characterized in that, include: The hanging rod (3) is perpendicular to the top surface of the main light module (1).
8. A folding lamp according to claim 1, characterized in that, include: The main lamp module (1) and the auxiliary lamp module (2) are fitted with buffer pads (D).
9. A folding lamp according to claim 1, characterized in that, include: The main lamp module (1) is fitted with a boss (16) on its side, and the auxiliary lamp module (2) is fitted with a buckle (22) on its side. The buckle (22) engages with the boss (16) to lock the main lamp module (1) and the auxiliary lamp module (2) together.
10. A folding lamp according to claim 1, characterized in that, include: The drive panel (12) is equipped with a communication antenna for communicating with an external terminal and receiving control commands for the main lamp module (1) or the auxiliary lamp module (2).