A new LED light supplement lamp

By designing adjustable support components and a lighting control box, the new LED supplemental light solves the problem that traditional lighting fixtures cannot meet the needs of non-visual tasks, achieving the highest light utilization efficiency for retinal illumination.

CN224415067UActive Publication Date: 2026-06-26SHANGHAI YANGZHI REHABILITATION HOSPITAL +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI YANGZHI REHABILITATION HOSPITAL
Filing Date
2025-07-02
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Traditional lighting fixtures cannot meet the lighting needs of non-visual tasks, and cannot adapt to the changes in the retinal light position as the user sits or moves, resulting in low light utilization efficiency.

Method used

A novel LED fill light has been designed, comprising a base assembly, a support assembly, and a fill light assembly. The support assembly allows for adjustment of height, position, and angle through vertical and horizontal support rods, a swing arm, and connectors. Combined with a light control box, brightness and frequency are controlled to ensure maximum light utilization efficiency.

Benefits of technology

It enables flexible adjustment of the height, position, and angle of the supplementary lighting components, adapting to the light-receiving orientation of the retina, ensuring the highest light-receiving efficiency of the retina, adapting to different sitting postures, and improving light utilization efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a novel LED light supplementing lamp, include: base component includes the bottom disc and a plurality of trundle, support component includes vertical support rod, horizontal support rod, swing bar, swing piece and connecting piece, vertical support rod is located on the bottom disc, horizontal support rod detachably is sleeved on vertical support rod, light supplementing component includes light supplementing lamp tray and light control box, light supplementing lamp tray articulates on connecting piece, the disc surface of light supplementing lamp tray is evenly arranged with a plurality of LED lamp holder from the circumference of circle to the edge, and light control box is connected with light supplementing lamp tray wire. The utility model discloses through support component can adjust the height, position and angle of light supplementing component at random, and light control box can control the luminance, running time, frequency of lamp tray, so that the utility model discloses not only can adapt to people's various sitting posture, make the vertical illumination of light supplementing component can adapt to the light receiving direction of retina, thereby making the utility model realize better practical effect.
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Description

Technical Field

[0001] This utility model relates to the field of intelligent lighting, specifically to a novel LED fill light. Background Technology

[0002] The human retina contains two types of photoreceptor cells: cone cells and rod cells. When light enters the eye, cone and rod cells receive the light signal and transmit it to the visual cortex of the brain via the optic nerve, forming a visual experience. Scientific research has discovered a new type of photoreceptor cell in the mammalian retina, distinct from cone and rod cells—autonomous photoreceptor ganglion cells (ipRGCs). The discovery of ipRGCs has revealed that the eye not only possesses the visual effects of traditional photoreceptor cells but also non-visual effects. Non-visual photoreceptor cells, primarily ipRGCs, have a significant impact on the body's circadian rhythms, melatonin secretion, and emotional state. In other words, non-visual cells determine our biological clock and control our sleep / wake cycle.

[0003] As a result, the non-visual functions of light are receiving increasing attention, leading to a stronger demand for lighting fixtures that can improve mood, regulate rhythms, and promote sleep. However, traditional visual functions emphasize the illuminance of the work surface, so the horizontal illuminance of the lighting fixture is more closely related to this; while non-visual functions of light emphasize the light-receiving effect on the retina, so the vertical illuminance of the lighting fixture is more closely related to the light received by the retina.

[0004] Therefore, luminaires developed for traditional visual lighting cannot meet the lighting needs of non-visual tasks. Furthermore, unlike the fixed position and orientation of the working surface in traditional visual tasks, the light-receiving position of the retina changes with the user's posture and position. Ensuring consistently high-efficiency light utilization also places new demands on the structure of luminaires, thus limiting the capabilities of existing technologies. Summary of the Invention

[0005] This invention was developed to solve the above-mentioned problems, and its purpose is to provide a new type of LED fill light.

[0006] This utility model provides a novel LED fill light, characterized by comprising: a base assembly, including a chassis and multiple casters, wherein the multiple casters are evenly distributed along the edge of the chassis on the lower surface of the chassis.

[0007] The support assembly includes a vertical support rod, a horizontal support rod, a swing arm, a swaying member, and a connecting member. The vertical support rod is mounted on the chassis. The horizontal support rod is detachably sleeved on the vertical support rod and positioned near the top of the vertical support rod. The top wall of the horizontal support rod has a rod-shaped mounting portion. The swing arm is hinged to the mounting portion and can swing vertically relative to the mounting portion. The swaying member is hinged to the other end of the swing arm and can swing vertically relative to the swing arm. The connecting member is hinged to the swaying member, allowing it to swing horizontally.

[0008] The supplementary lighting assembly includes a supplementary lighting panel and a lighting control box. The supplementary lighting panel is hinged to a connector, allowing it to swing vertically relative to the connector. Multiple LED lamp heads are evenly arrayed from the center to the edge on the surface of the supplementary lighting panel. The lighting control box is wired to the supplementary lighting panel and is used to control its operation.

[0009] The vertical support rod has through holes on its outer wall, near its bottom and top, for the power supply line to pass through.

[0010] The novel LED fill light provided by this utility model also has the following feature: the casters are movable casters with brakes.

[0011] The novel LED fill light provided by this utility model also has the following feature: a mounting platform for placing the light control box is provided on the vertical support rod, and the mounting platform is adjustablely mounted on the vertical support rod through a connecting component.

[0012] Furthermore, the connecting assembly includes an adjusting block and a mounting rod. The adjusting block has a mounting hole with the same diameter as the vertical support rod, allowing the adjusting block to be slidably mounted on the vertical support rod. One end of the adjusting block has an opening communicating with the mounting hole. On one end face of the horizontal support rod, on both sides of the opening, there is an adjusting lug. Each adjusting lug has multiple fixing holes, which are arranged opposite to each other. The other end of the adjusting block has two hinge lugs. The mounting rod is hinged to the adjusting block through the two hinge lugs and is used to fix the mounting platform.

[0013] The novel LED fill light provided by this utility model also has the following feature: one end of the horizontal support rod is an elastic deformation part, which undergoes elastic deformation after being subjected to pressure and returns to its original shape after the pressure is removed.

[0014] Furthermore, one end face of the transverse support rod is an arc surface, and the top wall of the transverse support rod is provided with a mounting hole. The mounting hole is concentric with one end face of the transverse support rod, and the diameter of the mounting hole is not less than the diameter of the vertical support rod. One end face of the transverse support rod is provided with a through groove communicating with the mounting hole. One end face of the transverse support rod and located on both sides of the through groove are respectively provided with a limiting fixing ear. Multiple limiting holes are opened on the two limiting fixing ears, and the multiple limiting holes on the two limiting fixing ears are arranged opposite to each other.

[0015] The novel LED supplementary light provided by this utility model also has the following features: the mounting part is provided with two connecting ears, each connecting ear is provided with two hinge holes arranged vertically, and the two hinge holes on one connecting ear are arranged opposite to the two hinge holes on the other connecting ear. The swing arm includes a first support rod and a second support rod in the shape of a chamfer. The first support rod is hinged to the mounting part through the two upper hinge holes, and the second support rod is hinged to the mounting part through the two lower hinge holes. The recesses of the first support rod and the second support rod are arranged opposite to each other.

[0016] The novel LED supplementary light provided by this utility model also has the following feature: the bottom wall of the horizontal support rod and the swing rod is provided with a bracket for gathering the wires.

[0017] The novel LED fill light provided by this utility model also has the following features: the fill light panel includes a lamp panel and a connecting seat, the connecting seat is disposed on the rear wall of the lamp panel, and the connecting seat is hinged to the connecting piece, so that the lamp panel can swing in the left and right directions.

[0018] The novel LED fill light provided by this utility model also has the following features: the light control box includes a calendar timer relay, a timer module, a dimming module, a frequency modulation module, a power input interface, a power output interface, and a data input interface. The calendar timer relay is used to control the fill light panel to perform periodic timing on a weekly basis. The timer module is used to control the duration of the light output by the fill light panel. The dimming module is used to adjust the brightness of the fill light panel. The frequency modulation module is used to control the frequency and duty cycle of the light output by the fill light panel. The power input interface is used to connect to the power supply line. The power output interface and the data input interface are used to connect to the fill light panel line.

[0019] Functions and effects of utility models

[0020] According to the novel LED supplementary light of this utility model, the height, position, and angle of the supplementary light component can be arbitrarily adjusted by the support component, and the light control box can control the brightness, running time, and frequency of the light panel. Therefore, this utility model can not only adapt to various sitting postures and make the vertical illuminance of the supplementary light component adapt to the light receiving position of the retina, but also ensure that the light utilization efficiency generated by the supplementary light component is kept at the highest, that is, always keep the light receiving efficiency of the user's retina at the highest level, so that this utility model can achieve better practical effect. Attached Figure Description

[0021] Figure 1 This is a structural schematic diagram of a novel LED fill light according to this utility model;

[0022] Figure 2 This is a structural schematic diagram of the base assembly in a novel LED fill light according to this utility model;

[0023] Figure 3 This is a structural schematic diagram of the connecting components and mounting platform in a novel LED supplementary light according to this utility model;

[0024] Figure 4 This is a structural schematic diagram of the support component and the supplementary lighting component in a novel LED supplementary lighting lamp according to this utility model;

[0025] Figure 5 This is a structural schematic diagram of the support component and the supplementary lighting component in a novel LED supplementary lighting lamp according to another perspective;

[0026] Figure 6 This is a schematic diagram of the structure of some supporting components in a novel LED fill light according to this utility model.

[0027] Explanation of reference numerals in the attached figures:

[0028] 10. Base assembly; 11. Chassis; 12. Casters; 20. Support assembly; 21. Vertical support rod; 211. Through hole; 22. Horizontal support rod; 221. Mounting part; 222. Mounting hole; 223. Limiting and fixing ear; 23. Swing rod; 231. First support rod; 232. Second support rod; 24. Swing component; 25. Connecting component; 26. Bracket; 30. Placement platform; 40. Connecting assembly; 41. Adjusting block; 411. Placement hole; 412. Opening; 42. Placement rod; 43. Adjusting ear; 44. Hinge ear; 50. Supplemental lighting assembly; 51. Supplemental lighting panel; 511. Light panel; 512. Connecting seat. Detailed Implementation

[0029] To make the technical means, creative features, objectives and effects of this utility model easy to understand, the following embodiments are described in detail with reference to the accompanying drawings. Example

[0030] Figure 1 This is a schematic diagram of the structure of this utility model; Figure 2 This is a structural schematic diagram of the base assembly in this utility model; Figure 3 This is a structural schematic diagram of the connecting components and the mounting platform in this utility model; Figure 4 This is a schematic diagram of the structure of the support component and the supplementary lighting component in this utility model; Figure 5 This is a structural schematic diagram of the support component and the supplementary lighting component from another perspective in this utility model; Figure 6 This is a structural schematic diagram of some of the support components in this utility model.

[0031] like Figures 1 to 6 As shown, this embodiment provides a novel LED fill light, including: a base assembly 10, a support assembly 20, a fill light assembly 50, a mounting platform 30, and a connecting assembly 40.

[0032] like Figure 1 and Figure 2 As shown, the base assembly 10 includes a chassis 11 and a plurality of casters 12. The plurality of casters 12 are evenly distributed along the edge of the chassis 11 on the lower surface of the chassis 11.

[0033] In this embodiment, the caster 12 is preferably a movable caster with a brake.

[0034] Therefore, the present invention can be moved freely using the casters 12, thereby improving its usability. Furthermore, since the casters 12 are preferably movable casters with brakes, after moving the present invention to the desired position, it can be fixed in that position, further enhancing its usability.

[0035] like Figure 1 , Figure 4 , Figure 5 ,as well as Figure 6 As shown, the support assembly 20 includes a vertical support rod 21, a horizontal support rod 22, a swing rod 23, a swing member 24, and a connector 25.

[0036] In this embodiment, a vertical support rod 21 is mounted on the chassis 11. Preferably, the vertical support rod 21 is a hollow rod, and through holes 211 for power supply wires to pass through are provided on its outer wall, near its bottom and top ends. These through holes 211 communicate with the inner cavity of the vertical support rod 21. In use, the wires connecting the lighting control box and the lamp panel 511 can be bundled into the vertical support rod 21 through the through holes 211, thereby concealing and protecting the wires.

[0037] In this embodiment, the transverse support rod 22 is detachably sleeved on the vertical support rod 21 and is positioned near the top end of the vertical support rod 21. The top wall of the transverse support rod 22 has a rod-shaped mounting portion 221. The mounting portion 221 has two connecting ears, each of which has two hinge holes arranged vertically, with the two hinge holes on one connecting ear facing each other.

[0038] In addition, one end of the transverse support rod 22 is an elastic deformation part, which undergoes elastic deformation after being subjected to pressure and returns to its original shape after the pressure is removed. Specifically, one end of the transverse support rod 22 can preferably be made of an elastomeric material, or the entire transverse support rod 22 can be made of an elastomeric material.

[0039] Furthermore, one end face of the horizontal support rod 22 is arc-shaped, and a mounting hole 222 is provided on the top wall of the horizontal support rod 22. The mounting hole 222 is concentric with one end face of the horizontal support rod 22, and the diameter of the mounting hole 222 is not less than the diameter of the vertical support rod. A through groove communicating with the mounting hole 222 is provided on one end face of the horizontal support rod 22. A limiting fixing ear 223 is provided on one end face of the horizontal support rod 22, located on both sides of the through groove. Multiple limiting holes are provided on the two limiting fixing ears 223, and the multiple limiting holes on the two limiting fixing ears 223 are arranged opposite to each other. In use, because one end of the horizontal support rod 22 is an elastically deformable part, the horizontal support rod 22 can be fixed at any position on the vertical support rod 21 through the two limiting fixing ears 223, thus providing another way to adjust the supplementary light plate 51 to rise or fall.

[0040] In this embodiment, the swing arm 23 is hinged to the mounting part 221, and it can swing up and down relative to the mounting part 221.

[0041] The swing arm 23 includes a first support rod 231 and a second support rod 232 in the shape of a chamfer. The first support rod 231 is hinged to the mounting part 221 through two upper hinge holes, and the second support rod 232 is hinged to the mounting part 221 through two lower hinge holes. The recesses of the first support rod 231 and the second support rod 232 are arranged opposite to each other.

[0042] When in use, the fill light panel 51 can be adjusted up and down slightly based on the swing arm 23.

[0043] In this embodiment, the swing member 24 is hinged to the other end of the swing rod 23, and it can swing up and down relative to the swing rod 23.

[0044] When in use, it can further add a way to make small up and down adjustments to the fill light panel 51.

[0045] In this embodiment, the connector 25 is hinged to the swing member 24, allowing it to swing in the left and right directions.

[0046] When in use, an additional fill light panel 51 can be used for slight left and right adjustments.

[0047] In this embodiment, the bottom walls of the transverse support rod 22 and the swing rod 23 are provided with brackets 26 for bundling wires.

[0048] In use, it provides an additional way to manage the wires connecting the lighting control box and the lamp panel 511, thereby indirectly improving the effectiveness of this utility model.

[0049] In this embodiment, a mounting platform 30 for placing the lighting control box is provided on the vertical support rod 21. The mounting platform 30 is adjustablely mounted on the vertical support rod 21 via the connecting assembly 40.

[0050] Furthermore, the connecting assembly 40 includes an adjusting block 41 and a mounting rod 42. The adjusting block 41 has a mounting hole 411 with the same diameter as the vertical support rod 21, allowing the adjusting block 41 to be slidably mounted on the vertical support rod 21. One end of the adjusting block 41 has an opening 412 communicating with the mounting hole 411. On one end face of the transverse support rod 22, on both sides of the opening 412, there is an adjusting ear 43. Each of the two adjusting ears 43 has multiple fixing holes, and the multiple fixing holes on the two adjusting ears 43 are arranged opposite to each other. The other end of the adjusting block 41 has two hinge ears 44. The mounting rod 42 is hinged to the adjusting block 41 through the two hinge ears 44. The mounting rod 42 is used to fix the mounting platform 30.

[0051] like Figure 1 and Figure 5 As shown, the supplementary lighting assembly 50 includes a supplementary lighting panel 51 and a lighting control box (not shown in the figure).

[0052] In this embodiment, the fill light disk 51 is hinged to the connector 25, so that the fill light disk 51 can swing up and down relative to the connector 25. Multiple LED lamp heads are evenly arranged on the disk surface of the fill light disk 51 from the center to the edge.

[0053] The supplementary lighting panel 51 includes a lamp panel 511 and a connecting seat 512. The connecting seat 512 is disposed on the rear wall of the lamp panel 511 and is hinged to the connecting member 25, so that the lamp panel 511 can swing in the left and right directions.

[0054] In this embodiment, the lighting control box is wired to the fill light panel 51 and is used to control the operation of the fill light panel 51.

[0055] The lighting control box includes a calendar timer relay, a timer module, a dimming module, a frequency modulation module, a power input interface, a power output interface, and a data input interface. The calendar timer relay is used to control the fill light panel 51 to perform cyclic timing on a weekly basis. The timer module is used to control the duration of the light output by the fill light panel 51. The dimming module is used to adjust the brightness of the fill light panel 51. The frequency modulation module is used to control the frequency and duty cycle of the light output by the fill light panel 51. The power input interface is used to connect to the power supply line. The power output interface and the data input interface are used to connect to the fill light panel 51.

[0056] In use, the lighting control box can control the supplementary lighting panel 51 to perform cyclical timing on a weekly basis via a calendar timer relay. Multiple switching times can be set simultaneously, and it provides three modes: normally on, normally off, and automatic. Specifically, in automatic mode, the relay switches power on and off according to the set switching times. The timer module controls the light output time of the lamps, which can be set from 1 to 120 minutes with an accuracy of 1 minute, and can also be set to a constant-on mode.

[0057] The dimming module can adjust the brightness of the fill light panel 51. Specifically, the brightness of the fill light panel 51 can be divided into 20 levels, from 5% to 100%, with a step size of 5%.

[0058] The frequency modulation module can set the frequency and duty cycle of light. The frequency can be set from 0 to 999 Hz, and the duty cycle from 0% to 100%.

[0059] In summary, any combination of timing, brightness adjustment, and frequency adjustment can constitute the automatic operation state of the LED lamp head. That is, when powered on, it automatically runs the previously set LED lamp head supplementary lighting state and completes it automatically until the next trigger.

[0060] The role and effect of the embodiments

[0061] According to the novel LED supplementary light of this utility model, the height, position, and angle of the supplementary light component can be arbitrarily adjusted by the support component, and the light control box can control the brightness, running time, and frequency of the light panel. Therefore, this utility model can not only adapt to various sitting postures and make the vertical illuminance of the supplementary light component adapt to the light receiving position of the retina, but also ensure that the light utilization efficiency generated by the supplementary light component is kept at the highest, that is, always keep the light receiving efficiency of the user's retina at the highest level, so that this utility model can achieve better practical effect.

[0062] The above embodiments are preferred embodiments of this utility model and are not intended to limit the scope of protection of this utility model.

Claims

1. A novel LED fill light, characterized in that, include: The base assembly includes a chassis and a plurality of casters, the plurality of casters being evenly disposed on the lower surface of the chassis along the edge of the chassis. The support assembly includes a vertical support rod, a horizontal support rod, a swing arm, a swinging member, and a connecting member. The vertical support rod is mounted on the chassis. The horizontal support rod is detachably sleeved on the vertical support rod and positioned near the top of the vertical support rod. The top wall of the horizontal support rod has a rod-shaped mounting portion. The swing arm is hinged to the mounting portion and can swing vertically relative to the mounting portion. The swinging member is hinged to the other end of the swing arm and can swing vertically relative to the swing arm. The connecting member is hinged to the swinging member, allowing it to swing horizontally. The supplementary lighting assembly includes a supplementary lighting panel and a lighting control box. The supplementary lighting panel is hinged to the connecting member, allowing it to swing vertically relative to the connecting member. Multiple LED lamp heads are evenly arranged in an array from the center to the edge on the surface of the supplementary lighting panel. The lighting control box is linearly connected to the supplementary lighting panel and is used to control its operation. The vertical support rod has through holes on its outer wall, near its bottom and top, for the power supply line to pass through.

2. The novel LED fill light according to claim 1, characterized in that: in, The caster is a movable caster with a brake.

3. The novel LED fill light according to claim 1, characterized in that: in, The vertical support rod is provided with a mounting platform for placing the lighting control box. The mounting platform is adjustablely mounted on the vertical support rod via a connecting component.

4. The novel LED fill light according to claim 3, characterized in that: in, The connecting assembly includes an adjusting block and a mounting rod. The adjusting block has a mounting hole with the same diameter as the vertical support rod, allowing the adjusting block to be slidably mounted on the vertical support rod. One end of the adjusting block has an opening communicating with the mounting hole. One end face of the horizontal support rod has an adjusting lug on each side of the opening. Each adjusting lug has multiple fixing holes arranged opposite to each other. The other end of the adjusting block has two hinge lugs, and the mounting rod is hinged to the adjusting block through the two hinge lugs. The mounting rod is used to fix the mounting platform.

5. The novel LED fill light according to claim 1, characterized in that: in, One end of the transverse support rod is an elastic deformation part, which undergoes elastic deformation after being subjected to pressure and returns to its original shape after the pressure is removed.

6. The novel LED fill light according to claim 5, characterized in that: in, One end face of the horizontal support rod is an arc surface. The top wall of the horizontal support rod is provided with a mounting hole. The mounting hole is concentric with one end face of the horizontal support rod. The diameter of the mounting hole is not less than the diameter of the vertical support rod. One end face of the horizontal support rod is provided with a through groove communicating with the mounting hole. One limiting and fixing ear is provided on one end face of the horizontal support rod on both sides of the through groove. Multiple limiting holes are opened on the two limiting and fixing ears, and the multiple limiting holes on the two limiting and fixing ears are arranged opposite to each other.

7. The novel LED fill light according to claim 1, characterized in that: in, The mounting part is provided with two connecting ears, each of which is provided with two hinge holes arranged vertically, and the two hinge holes on one connecting ear are arranged opposite to the two hinge holes on the other connecting ear. The swing rod includes a first support rod and a second support rod in the shape of a c. The first support rod is hinged to the mounting part through the two upper hinge holes, and the second support rod is hinged to the mounting part through the two lower hinge holes. The recesses of the first support rod and the second support rod are arranged opposite to each other.

8. The novel LED fill light according to claim 1, characterized in that: in, The bottom walls of the transverse support rod and the swing rod are provided with brackets for bundling the wires.

9. The novel LED fill light according to claim 1, characterized in that: in, The supplementary lighting panel includes a lamp panel and a connecting base. The connecting base is disposed on the rear wall of the lamp panel and is hinged to the connecting member, allowing the lamp panel to swing in the left and right directions.

10. The novel LED fill light according to claim 1, characterized in that: in, The lighting control box includes a calendar timer relay, a timing module, a dimming module, a frequency modulation module, a power input interface, a power output interface, and a data input interface. The calendar timer relay is used to control the fill light panel to cycle on a weekly basis. The timing module is used to control the duration of the light output by the fill light panel. The dimming module is used to adjust the brightness of the fill light panel. The frequency modulation module is used to control the frequency and duty cycle of the light output by the fill light panel. The power input interface is used to connect to the power supply line. The power output interface and the data input interface are used to connect to the fill light panel cable.