A super-wide light span chandelier

By incorporating secondary light source LEDs and reflectors into the chandelier, combined with a partition design, the problem of localized excessive brightness or dimness caused by the concentrated light of traditional chandeliers is solved, achieving a uniform and soft lighting effect and improving visual comfort and lighting quality.

CN224470123UActive Publication Date: 2026-07-07GUANGDONG ENLANG LIGHTING EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG ENLANG LIGHTING EQUIP CO LTD
Filing Date
2025-07-16
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional chandeliers concentrate their light at the bottom, resulting in areas that are either too bright or too dim, creating glare and dark areas that affect the accuracy and efficiency of visual operations.

Method used

The light source uses secondary light source beads to emit light directly upwards, while the main light source beads are reflected by a reflector cup to make the light evenly cover the upper part of the space. The design of the partition plate and reflector cup prevents the light from being projected directly downwards and guides the light to diffuse in other directions.

Benefits of technology

It achieves uniform light coverage, avoids glare and dark areas, provides a softer, dark-free lighting effect, and improves visual comfort and lighting quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a super wide light width's ceiling lamp, including mounting seat, telescopic support rod and lamp shade, be provided with the horizontal mounting panel in the lamp shade, the top of telescopic support rod is connected with mounting seat, and the bottom of telescopic support rod passes through the top of lamp shade and is connected with mounting panel, the top center ring of mounting panel is equipped with secondary light source lamp pearl, and the bottom edge ring of mounting panel is equipped with main light source lamp pearl and reflector bowl, and main light source lamp pearl disperses light rays downward, and secondary light source lamp pearl disperses light rays upward, the installation end of reflector bowl is located the bottom wall edge of mounting panel, and main light source lamp pearl is located the reflection end of reflector bowl just above, and the reflection end of reflector bowl is concave downward, in the utility model discloses secondary light source lamp pearl emits light source just above ceiling lamp, and main light source lamp pearl passes through the reflection of reflector bowl, and makes light rays even cover the top of space, avoids the dazzling feeling caused by direct light simultaneously, solves the problem that traditional ceiling lamp emits light rays downward, leads to partial light too strong or too dark.
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Description

Technical Field

[0001] This utility model relates to the field of chandelier technology, specifically an ultra-wide beam chandelier. Background Technology

[0002] In the field of indoor lighting, chandeliers, as a common lighting device, have long been widely used in various places. Traditional chandeliers usually adopt a downward-emitting light layout, with the light mainly concentrated below the chandelier, resulting in excessively strong light in some areas and creating a glaring feeling; while the light in areas far from the center or edge of the chandelier is relatively weak, forming dark areas.

[0003] Furthermore, when users perform activities requiring fine visual manipulation, such as working or studying under a chandelier, the fixed position of the bulb and the downward-facing light cause the user's body to block some of the light, creating noticeable shadows on the desktop, floor, or other work surfaces. These shadows can interfere with the user's observation and manipulation of objects, reducing work accuracy and efficiency. Utility Model Content

[0004] To address the aforementioned shortcomings, this utility model proposes an ultra-wide beam chandelier. The secondary light source emits light directly upwards, while the main light source emits light evenly over the upper part of the space through reflection by a reflector cup. This avoids the glare caused by direct light and solves the problem of traditional chandeliers emitting light downwards, resulting in localized areas of excessively strong or dim light.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] An ultra-wide beam chandelier includes a mounting base, a telescopic support rod, and a lampshade. A horizontal mounting plate is provided inside the lampshade. The top of the telescopic support rod is connected to the mounting base, and the bottom of the telescopic support rod passes through the top of the lampshade and is connected to the mounting plate.

[0007] The mounting plate has a secondary light source LED bead at the top center ring and a main light source LED bead and a reflector at the bottom edge ring. The main light source LED bead emits light downwards and the secondary light source LED bead emits light upwards.

[0008] The mounting end of the reflector is located at the bottom edge of the mounting plate. The main light source LED is located directly above the reflective end of the reflector. The main light source LED and the reflector are in one-to-one correspondence. The reflective end of the reflector is recessed downwards. The reflector is used to reflect light from the main light source LED upwards.

[0009] The lampshade has a horizontal partition inside, which divides the lampshade into an illumination space and a power supply space from top to bottom. The mounting plate is fixedly installed on the top of the partition. The main light source LED, the secondary light source LED, and the reflector are all located in the illumination space.

[0010] The power supply space is used to store electronic components.

[0011] The outer contour of the reflective end of the reflector cup gradually increases and then gradually decreases from the inside to the outside; the reflective end of the reflector cup is wider on the side closer to the mounting end, and narrower on the side farther from the mounting end.

[0012] The mounting plate is circular, and the main light source LED beads and the reflector are arranged in a circular pattern.

[0013] The reflective end of the reflector cup is inclined downwards from the inside out.

[0014] The lampshade includes an upper lampshade and a lower lampshade, the lower lampshade is connected to the upper lampshade, the partition plate is disposed on the lower lampshade, the lighting space is formed between the partition plate and the upper lampshade, and the power supply space is formed between the partition plate and the lower lampshade;

[0015] The upper lampshade is made of light-transmitting material, while the partition and lower lampshade are made of opaque material.

[0016] The lower lampshade has an inclined surface that slopes inward from top to bottom.

[0017] The technical solution of this utility model can include the following beneficial effects:

[0018] 1. The secondary light source LEDs emit light directly upwards from the chandelier, while the main light source LEDs reflect light through a reflector cup, ensuring that the light evenly covers the upper part of the space. This avoids the glare caused by direct light and solves the problem of traditional chandeliers emitting light downwards, resulting in localized areas of excessively strong or dim light.

[0019] 2. The partition can block light from penetrating directly downwards, effectively intercepting some of the light that the main light source lamp beads might otherwise diffuse downwards, thereby guiding the light to diffuse in other directions. This avoids uncontrolled downward projection of light, reduces the problem of local overbrightness or glare caused by direct light to the area below, and ensures a softer overall lighting effect without dark areas. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of a chandelier according to one embodiment of the present utility model;

[0021] Figure 2 This is a cross-sectional view of the lampshade in one embodiment of this utility model;

[0022] Figure 3 This is a schematic diagram of a reflector cup according to one embodiment of the present invention;

[0023] Figure 4 yes Figure 2 Enlarged view of point A in the middle;

[0024] The components include: 1. Mounting base; 2. Telescopic support rod; 3. Lampshade; 31. Divider plate; 32. Upper lampshade; 33. Lower lampshade; 34. Inclined surface; 4. Mounting plate; 41. Secondary light source LED; 42. Main light source LED; 43. Reflector. Detailed Implementation

[0025] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments.

[0026] In the description of this utility model, it should be understood that the terms "length", "middle", "upper", "lower", "left", "right", "top", "bottom", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0027] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, unless otherwise stated, "a plurality of" means two or more.

[0028] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "assembly," and "connection" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0029] The following is combined with Figures 1 to 4 This describes an ultra-wide beam chandelier according to an embodiment of the present invention.

[0030] An ultra-wide beam chandelier includes a mounting base 1, a telescopic support rod 2, and a lampshade 3. A horizontal mounting plate 4 is provided inside the lampshade 3. The top of the telescopic support rod 2 is connected to the mounting base 1, and the bottom of the telescopic support rod 2 passes through the top of the lampshade 3 and is connected to the mounting plate 4.

[0031] The mounting plate 4 has a secondary light source bead 41 at the top center ring, and a main light source bead 42 and a reflector cup 43 at the bottom edge ring. The main light source bead 42 emits light downwards, and the secondary light source bead 41 emits light upwards.

[0032] The mounting end of the reflector 43 is located on the bottom edge of the mounting plate 4. The main light source lamp 42 is located directly above the reflective end of the reflector 43. The main light source lamp 42 and the reflector 43 correspond one-to-one. The reflective end of the reflector 43 is recessed downwards. The reflector 43 is used to reflect light from the main light source lamp 42 upwards.

[0033] The mounting base 1 and the lampshade 3 are connected by a telescopic support rod 2, and the bottom of the telescopic support rod 2 is connected to the mounting plate 4 inside the lampshade 3. This structure allows the height of the lampshade 3 and the internal light source to be adjusted by means of the telescopic support rod 2 after the chandelier is installed.

[0034] A reflector 43 is installed at the bottom of the main light source LED bead 42, allowing the reflector 43 to reflect the light from the main light source LED bead 42 upwards. The main light source LED bead 42 emits light downwards, and after being reflected by the reflector 43, the light changes direction and propagates upwards. Then, through the scattering effect of components such as the lampshade 3, the light diffuses to a wider area, thereby greatly improving the utilization rate of light, enhancing the lighting intensity and uniformity, and improving the overall quality of the lighting effect.

[0035] The secondary light source LED bead 41 emits light directly upwards from the chandelier, while the main light source LED bead 42 reflects the light through the reflector cup 43, so that the light evenly covers the upper part of the space, while avoiding the glare caused by direct light. This solves the problem of traditional chandeliers emitting light downwards, resulting in local light that is too strong or too dim.

[0036] The lampshade 3 has a horizontal partition 31 inside, which is used to divide the lampshade 3 into a lighting space and a power supply space from top to bottom. The mounting plate 4 is fixedly installed on the top of the partition 31. The main light source lamp 42, the secondary light source lamp 41 and the reflector 43 are all located in the lighting space.

[0037] The power supply space is used to store electronic components.

[0038] The partition design of the divider plate 31 allows the power supply component and the lighting component to each have relatively independent spaces, reducing mutual interference between them. The power supply component can provide a stable power supply to the lighting component in a relatively stable environment, while the lighting component can emit light normally without interference from the power supply component, thus ensuring the overall stability of the chandelier's operation and extending its service life.

[0039] Among them, the partition plate 31 can block light from penetrating directly downwards, so that some of the light that the main light source lamp beads 42 might originally diffuse downwards is effectively intercepted, thereby guiding the light to diffuse in other directions, avoiding uncontrolled downward projection of light, reducing the problem of local over-brightness or glare caused by direct light to the area below, and ensuring that the overall lighting effect is softer and without dark areas.

[0040] The outer contour of the reflective end of the reflector cup 43 gradually increases and then gradually decreases from the inside to the outside; the reflective end of the reflector cup 43 is wider on the side closer to the mounting end, and narrower on the side farther from the mounting end.

[0041] The wider side closer to the mounting end can fully receive most of the light emitted by the main light source LED 42, while the narrower side farther away from the mounting end can precisely control the direction and angle of light reflection, making the intensity change of light in the space more gradual, reducing the situation of excessively strong contrast between light and dark in the lighting area, and providing users with a more comfortable and natural visual environment.

[0042] The mounting plate 4 is circular, and the main light source LED beads 42 and the reflector cup 43 are arranged in a circular shape.

[0043] The mounting plate 4 is circular, and the main light source LED beads 42 and reflector cups 43 are arranged in a ring. This design allows light to radiate evenly outwards from the center of the mounting plate 4. The ring arrangement ensures that there are sufficient light sources and reflector cups 43 in all directions for light emission and reflection, eliminating blind spots and achieving omnidirectional ultra-wide beam illumination, greatly improving the light coverage area.

[0044] The reflective end of the reflector cup 43 is inclined downward from the inside out.

[0045] The reflective end of the reflector cup 43 is tilted downwards from the inside out, which ensures that the light can spread to a wider area during reflection. When the light emitted by the main light source LED bead 42 shines on the reflective end, the tilted reflective surface will reflect the light downwards at different angles. Compared with a flat or vertical reflective surface, it can cover a larger space area, effectively achieving the lighting needs of an ultra-wide beam, so that every corner of the lighting area can receive sufficient light.

[0046] The lampshade 3 includes an upper lampshade 32 and a lower lampshade 33. The lower lampshade 33 is connected to the upper lampshade 32. The partition plate 31 is disposed on the lower lampshade 33. The lighting space is formed between the partition plate 31 and the upper lampshade 32. The power supply space is formed between the partition plate 31 and the lower lampshade 33.

[0047] The upper lampshade 32 is made of light-transmitting material, while the partition plate 31 and the lower lampshade 33 are made of opaque material.

[0048] The upper lampshade 32 is made of a light-transmitting material. When light passes through the upper lampshade 32, it undergoes a certain degree of scattering and softening, resulting in more uniform and softer light. This avoids the glare and shadows that may be caused by direct light, providing users with a more comfortable visual environment. This uniform and soft light distribution can better meet people's lighting needs in various scenarios, bringing a good visual experience whether it is for daily activities or leisure and entertainment.

[0049] The partition plate 31 and the lower lamp cover 33 are made of opaque materials, which prevents light from penetrating directly downwards through the partition plate 31 and the lower lamp cover 33. This causes the light to diffuse upwards or to the side more concentratedly, thereby forming a more uniform and wider upward light spot, reducing light loss and improving the lighting effect in the target direction.

[0050] The lower lampshade 33 is provided with an inclined surface 34 that slopes inward from top to bottom.

[0051] Compared to the traditional flat lower lampshade 33, the inclined surface 34 increases the surface area and stress distribution range of the lower lampshade 33, enabling the lower lampshade 33 to distribute stress more evenly when bearing its own weight and external forces such as tension and pressure, thereby improving the structural strength of the entire chandelier and extending its service life.

[0052] The technical principles of this utility model have been described above with reference to specific embodiments. These descriptions are merely for explaining the principles of this utility model and should not be construed as limiting the scope of protection of this utility model in any way. Based on this explanation, those skilled in the art can readily conceive of other specific embodiments of this utility model without any inventive effort, and these embodiments will all fall within the scope of protection of this utility model.

Claims

1. A chandelier with an ultra-wide beam width, characterized in that, The lamp includes a mounting base, a telescopic support rod, and a lampshade. A horizontal mounting plate is provided inside the lampshade. The top of the telescopic support rod is connected to the mounting base, and the bottom of the telescopic support rod passes through the top of the lampshade and is connected to the mounting plate. The mounting plate has a secondary light source LED bead at the top center ring and a main light source LED bead and a reflector at the bottom edge ring. The main light source LED bead emits light downwards and the secondary light source LED bead emits light upwards. The mounting end of the reflector is located at the bottom edge of the mounting plate. The main light source LED is located directly above the reflective end of the reflector. The main light source LED and the reflector are in one-to-one correspondence. The reflective end of the reflector is recessed downwards. The reflector is used to reflect light from the main light source LED upwards.

2. The chandelier with an ultra-wide beam width according to claim 1, characterized in that, The lampshade has a horizontal partition inside, which divides the lampshade into an illumination space and a power supply space from top to bottom. The mounting plate is fixedly installed on the top of the partition. The main light source LED, the secondary light source LED, and the reflector are all located in the illumination space. The power supply space is used to store electronic components.

3. A chandelier with an ultra-wide beam width according to claim 2, characterized in that, The outer contour of the reflective end of the reflector cup gradually increases and then gradually decreases from the inside to the outside; the reflective end of the reflector cup is wider on the side closer to the mounting end, and narrower on the side farther from the mounting end.

4. A chandelier with an ultra-wide beam width according to claim 3, characterized in that, The mounting plate is circular, and the main light source LED beads and the reflector are arranged in a circular pattern.

5. A chandelier with an ultra-wide beam width according to claim 4, characterized in that, The reflective end of the reflector cup is inclined downwards from the inside out.

6. A chandelier with an ultra-wide beam width according to claim 5, characterized in that, The lampshade includes an upper lampshade and a lower lampshade, the lower lampshade is connected to the upper lampshade, the partition plate is disposed on the lower lampshade, the lighting space is formed between the partition plate and the upper lampshade, and the power supply space is formed between the partition plate and the lower lampshade; The upper lampshade is made of light-transmitting material, while the partition and lower lampshade are made of opaque material.

7. A chandelier with an ultra-wide beam width according to claim 6, characterized in that, The lower lampshade has an inclined surface that slopes inward from top to bottom.