CN219550285U - Low glare value lighting apparatus - Google Patents

Abstract

The utility model discloses a low-glare-value lighting device, which comprises a strip-shaped lamp shell and end covers fixed at two ends of the strip-shaped lamp shell through screws, wherein a lighting device consisting of a luminous lamp bead assembly, a power supply driving assembly, an anti-glare assembly and a structural assembly is arranged in the strip-shaped lamp shell; the light-emitting lamp bead assembly is arranged in the structural assembly, and the anti-dazzle assembly is positioned at the light outlet of the structural assembly and used for changing the direction of light rays emitted by the light-emitting lamp bead assembly. According to the utility model, the luminous lamp bead assembly is arranged in the structural assembly, and is arranged towards the anti-glare assembly, the power supply is used for driving the part of the luminous lamp bead assembly to work to emit light, the emitted light passes through the light scattering surface on the anti-glare assembly and then changes the original direction of the light, and the original direction of the light emitted by the lamp bead is changed, so that the glare value of the product is reduced, and the comfortable sensing range of human eyes is reached.

Description

Low glare value lighting apparatus

Technical Field

The utility model relates to the technical field of anti-dazzle equipment, in particular to low-glare-value lighting equipment.

Background

LED lamps are becoming more and more popular in the luminaire industry. LEDs are so popular because of their small size, short on-time and rapid switching cycle, relatively cool emitted light, and their high efficiency. However, current LED luminaries present difficulties to manufacturers of luminaries are the heat and glare of the LEDs, and many LED luminaries also present problems with respect to glare and/or the creation of multiple shadows, since the light emitted from the individual LEDs is focused forward and not spread.

Especially, the glare value of the bar lamp on the market is generally higher, and the glare value of the bar lamp is declared to be low by a part product, but the glare value is not in a comfortable feeling range of human eyes.

Disclosure of Invention

In order to solve the problem that the glare value of the strip-shaped lamp is high, the utility model aims to provide the low-glare-value lighting equipment, and the glare value of the lighting device is improved by improving the lighting equipment, so that the comfortable feeling range of human eyes is achieved.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model provides a low-glare-value lighting device, which comprises a strip-shaped lamp shell and end covers fixed at two ends of the strip-shaped lamp shell through screws, wherein a lighting device consisting of a luminous lamp bead assembly, a power supply driving assembly, an anti-glare assembly and a structural assembly is arranged in the strip-shaped lamp shell; the light-emitting lamp bead assembly is installed in the structural assembly, the light-emitting lamp bead assembly is electrically connected with the power supply driving assembly, the light-emitting lamp bead assembly faces the anti-dazzle assembly, and the anti-dazzle assembly is located at the light outlet of the structural assembly and used for changing the direction of light rays emitted by the light-emitting lamp bead assembly.

As a further scheme of the utility model, the structure component comprises a luminous lamp shell, the luminous lamp shell is a frame body with a rectangular cross section, and the light outlet is positioned at one side of the luminous lamp shell.

As a further scheme of the utility model, a plurality of fixing columns are integrally arranged on the inner wall of the luminous lamp housing, screw holes are arranged in the fixing columns, a luminous cover is fixed between the fixing columns, and the luminous cover is fixed on the fixing columns through fixing screws.

As a further scheme of the utility model, the luminous cover is fixed in the luminous lamp shell and forms a luminous cavity with a side wall of the luminous lamp shell, which is provided with a light outlet, and the anti-dazzle component is arranged at the position of the light outlet at one side of the luminous cavity.

As a further scheme of the utility model, at least one lamp bead assembly groove is formed in the light-emitting cover, light-emitting lamp beads are arranged in each lamp bead assembly groove, the light-emitting lamp beads are electrically connected with the power supply driving assembly, and the power supply driving assembly is a power supply fixed on the back surface of the light-emitting lamp shell.

As a further scheme of the utility model, a locking piece is also arranged on the luminous cover, the locking piece is fixed on the luminous cover, a wiring hole penetrating through the luminous cover is arranged in the locking piece, and the luminous lamp beads are connected with a power supply through wires.

As a further scheme of the utility model, the inner side wall of the luminous cover is provided with a reflective coating, and the luminous lamp beads are arranged on the inner wall of the luminous cover, which is parallel to the anti-dazzle component.

As a further scheme of the utility model, an anti-glare inner buckle and an anti-glare outer buckle are arranged on the inner side of the front end of the luminous lamp shell, an anti-glare clamping groove is formed between the anti-glare inner buckle and the anti-glare outer buckle, and the anti-glare component is arranged in the anti-glare clamping groove.

As a further scheme of the utility model, the anti-dazzle assembly consists of a light-transmitting plane body and light-scattering surfaces distributed on one side surface of the light-transmitting plane body, wherein the light-scattering surfaces are polyhedral cones distributed in a matrix array, and a plurality of light-scattering surfaces are formed on the polyhedral cones.

As a further scheme of the utility model, the light-emitting surfaces are regular tetrahedrons distributed in a matrix array, and four light-emitting surfaces are formed on the regular tetrahedrons.

Compared with the prior art, the utility model has the following beneficial effects:

in the low-glare-value lighting equipment provided by the utility model, the luminous lamp bead assembly is arranged in the structural assembly, and is arranged towards the anti-glare assembly, the power supply is used for driving part of the luminous lamp bead assembly to work to emit light, the emitted light passes through the light scattering surface on the anti-glare assembly and then changes the original direction of the light, and the original direction of the light emitted by the lamp bead is changed, so that the glare value of the product is reduced, and the comfortable sensing range of human eyes is reached.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a low glare lighting device.

Fig. 2 is a schematic cross-sectional structure of a low glare lighting device.

Fig. 3 is a schematic structural view of an antiglare assembly in a low glare lighting apparatus.

Fig. 4 is a schematic cross-sectional view of an antiglare assembly in a low glare lighting device.

Fig. 5 is a schematic view showing the principle of changing the direction of light by the anti-glare module in the low-glare lighting device.

The LED lamp comprises a 1-strip lamp shell, a 2-end cover, a 3-screw, a 4-luminous lamp shell, a 5-fixed column, a 6-fixed screw, a 7-anti-glare inner buckle, an 8-anti-glare outer buckle, a 9-light outlet, a 10-anti-glare component, an 11-luminous cavity, a 12-anti-glare clamping groove, a 13-luminous cover, a 14-lamp bead assembly groove, a 15-luminous lamp bead, a 16-power supply, a 17-wiring hole, an 18-locking buckle piece and a 19-scattering surface.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The object of the present utility model is to address the drawbacks and deficiencies of the prior art by providing a low glare value lighting device.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1-2, the utility model provides a low glare value lighting device, which comprises a strip lamp shell 1 and end covers 2 fixed at two ends of the strip lamp shell 1 through screws 3, wherein a lighting device consisting of a luminous lamp bead 15 assembly, a power supply 16 driving assembly, an anti-glare assembly 10 and a structural assembly is arranged in the strip lamp shell 1; the luminous lamp bead 15 assembly is installed in the structural assembly, the luminous lamp bead 15 assembly is electrically connected with the power supply 16 driving assembly, the luminous lamp bead 15 assembly faces the anti-dazzle assembly 10, the anti-dazzle assembly 10 is located at the position of the light outlet 9 of the structural assembly and used for changing the light direction sent by the luminous lamp bead 15 assembly.

According to the low-glare-value lighting equipment, the luminous lamp bead 15 assembly is arranged in the structural assembly, the luminous lamp bead 15 assembly is arranged towards the anti-glare assembly 10, the power supply 16 is used for driving the luminous lamp bead 15 assembly to work to emit light, the emitted light passes through the light scattering surface on the anti-glare assembly 10 and then changes the original direction of the light, and the direction of the light emitted by the lamp bead is changed, so that the glare value of a product is reduced, and the comfortable sensing range of human eyes is reached.

In this embodiment, referring to fig. 2, the structural component includes a light-emitting lamp housing 4, where the light-emitting lamp housing 4 is a frame body with a rectangular cross section, and the light outlet 9 is located at one side of the light-emitting lamp housing 4.

The luminous lamp comprises a luminous lamp body 4, and is characterized in that a plurality of fixing columns 5 are integrally arranged on the inner wall of the luminous lamp body 4, screw holes are formed in the fixing columns 5, a luminous cover 13 is fixed between the fixing columns 5, and the luminous cover 13 is fixed on the fixing columns 5 through fixing screws 6.

In the present embodiment, screw holes at four corners of the light-emitting cover 13 are fixed to the fixing posts 5 by fixing screws 6 through four fixing posts 5 provided on the inner wall of the light-emitting lamp housing 4, thereby mounting the light-emitting cover 13 in the light-emitting lamp housing 4.

In this embodiment, the light-emitting cover 13 is fixed in the light-emitting lamp housing 4 and forms a light-emitting cavity 11 with a side of the light-emitting opening 9 on the light-emitting lamp housing 4, and the anti-glare component 10 is disposed at the position of the light-emitting opening 9 on one side of the light-emitting cavity 11.

In this embodiment, at least one bead assembly groove 14 is formed in the light-emitting cover 13, and each bead assembly groove 14 is internally provided with a light-emitting bead 15, the light-emitting bead 15 is electrically connected with a power supply 16 driving component, and the power supply 16 driving component is a power supply 16 fixed on the back surface of the light-emitting lamp housing 4.

In this embodiment, a reflective coating is disposed on the inner side wall of the light-emitting cover 13, and the light-emitting lamp beads 15 are mounted on the inner wall of the light-emitting cover 13 parallel to the anti-glare component 10.

When the light-emitting lamp bead 15 is powered on to work, a part of light emitted by the light-emitting lamp bead 15 directly irradiates on the anti-dazzle component 10, and the other part of light irradiates on the anti-dazzle component 10 after being reflected by the light-emitting cover 13, when the light passes through the anti-dazzle component 10, the original direction of the light is changed after passing through the light-scattering surface on the anti-dazzle component 10, and the original direction of the light emitted by the lamp bead is changed, so that the glare value of a product is reduced, and the comfortable sensing range of human eyes is reached.

In this embodiment, the light-emitting cover 13 is further provided with a locking piece 18, the locking piece 18 is fixed on the light-emitting cover 13, and a wiring hole 17 penetrating through the light-emitting cover 13 is formed in the locking piece 18, the light-emitting lamp beads 15 are connected with the power supply 16 through wires, and the light-emitting lamp beads 15 installed in the lamp bead assembly groove 14 are conveniently wired, routed and routed through the arrangement of the locking piece 18 and the wiring hole 17.

In this embodiment, an anti-glare inner buckle 7 and an anti-glare outer buckle 8 are disposed on the inner side of the front end of the light-emitting lamp housing 4, an anti-glare clamping groove 12 is formed between the anti-glare inner buckle 7 and the anti-glare outer buckle 8, and the anti-glare assembly 10 is mounted in the anti-glare clamping groove 12.

In some embodiments, referring to fig. 2 to 5, the anti-glare component 10 is composed of a light-transmitting plane body and light-scattering surfaces distributed on one side surface of the light-transmitting plane body, wherein the light-scattering surfaces are polygonal cones distributed in a matrix array, and a plurality of light-scattering surfaces are formed on the polygonal cones.

In this embodiment, the light-emitting surfaces are regular tetrahedrons distributed in a matrix array, and four light-emitting surfaces are formed on the regular tetrahedrons.

Referring to fig. 3 to 5, in this embodiment, when light passes through the anti-glare component 10, the light is incident from the smooth surface of the transparent plane body and then emitted from the light-scattering surface provided with the regular tetrahedron cone, so that the original direction of the light can be changed, and the original direction of the light emitted by the lamp beads is changed, so that the glare value of the product is reduced, and the comfortable sensing range of human eyes is reached.

The principles and embodiments of the present utility model have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present utility model; also, it is within the scope of the present utility model to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the utility model.

Claims (10)

1. The low-glare-value lighting equipment is characterized by comprising a strip-shaped lamp shell (1) and end covers (2) fixed at two ends of the strip-shaped lamp shell (1) through screws (3), wherein a lighting device consisting of a luminous lamp bead (15) assembly, a power supply (16) driving assembly, an anti-glare assembly (10) and a structural assembly is arranged in the strip-shaped lamp shell (1); the LED lamp comprises a structural component, a power supply (16) driving component, a light-emitting lamp bead (15) component, an anti-dazzle component (10) and a light-emitting lamp bead (15) component, wherein the light-emitting lamp bead (15) component is arranged in the structural component, the light-emitting lamp bead (15) component is electrically connected with the power supply (16) driving component, the light-emitting lamp bead (15) component faces the anti-dazzle component (10), and the anti-dazzle component (10) is positioned at the position of a light outlet (9) of the structural component and is used for changing the direction of light rays emitted by the light-emitting lamp bead (15) component.

2. A low glare lighting device as claimed in claim 1, characterized in that the structural component comprises a luminescent lamp housing (4), the luminescent lamp housing (4) being a frame body having a rectangular structure in cross section, the light outlet (9) being located at one side of the luminescent lamp housing (4).

3. The low glare lighting device according to claim 2, wherein a plurality of fixing posts (5) are integrally arranged on the inner wall of the luminous lamp housing (4), screw holes are arranged in the fixing posts (5), a luminous cover (13) is fixed between the fixing posts (5), and the luminous cover (13) is fixed on the fixing posts (5) through fixing screws (6).

4. A low glare lighting device as claimed in claim 3, characterized in that the light-emitting cover (13) is fixed in the light-emitting lamp housing (4) and forms a light-emitting cavity (11) with a side wall of the light-emitting lamp housing (4) provided with a light-emitting opening (9), and the anti-glare component (10) is arranged at the position of the light-emitting opening (9) at one side of the light-emitting cavity (11).

5. The low glare lighting device of claim 4, wherein the light-emitting cover (13) is provided with at least one light-emitting light bead assembly groove (14), each light-emitting light bead assembly groove (14) is internally provided with a light-emitting light bead (15), the light-emitting light bead (15) is electrically connected with the power supply (16) driving component, and the power supply (16) driving component is a power supply (16) fixed on the back of the light-emitting light housing (4).

6. The low glare lighting device according to claim 5, wherein the light-emitting cover (13) is further provided with a locking piece (18), the locking piece (18) is fixed on the light-emitting cover (13) and a wiring hole (17) penetrating through the light-emitting cover (13) is formed in the locking piece (18), and the light-emitting lamp beads (15) are connected with a power supply (16) through wires.

7. A low glare lighting device as claimed in claim 6, characterized in that the inner side wall of the light-emitting envelope (13) is provided with a reflective coating, the light-emitting lamp beads (15) being mounted on the inner wall of the light-emitting envelope (13) parallel with respect to the anti-glare component (10).

8. The low glare lighting device according to claim 5, wherein an anti-glare inner buckle (7) and an anti-glare outer buckle (8) are provided on the inner side of the front end of the light-emitting lamp housing (4), an anti-glare clamping groove (12) is formed between the anti-glare inner buckle (7) and the anti-glare outer buckle (8), and the anti-glare assembly (10) is mounted in the anti-glare clamping groove (12).

9. A low glare lighting device as claimed in claim 8, wherein the antiglare assembly (10) comprises a light transmissive planar body and a light diffusing surface disposed on one side of the light transmissive planar body, the light diffusing surface being a polygonal pyramid disposed in a matrix array, the polygonal pyramid having a plurality of light diffusing surfaces formed thereon.

10. A low glare lighting device as in claim 9, wherein the light diffusing surfaces are regular tetrahedrons distributed in a matrix array, the regular tetrahedrons having four light diffusing surfaces formed thereon.