CN220287272U - Two-way LED buried lamp - Google Patents

Abstract

The utility model discloses a bidirectional LED buried lamp, which comprises: the lamp comprises an embedded part, a cover plate, a lamp body, a vertical lighting assembly and a horizontal lighting assembly; the cover plate and the lamp body are sequentially arranged above the embedded part, and the cover plate is fixedly connected with the embedded part through cover plate screws; the lamp body comprises a base and a lamp shade arranged above the base; the embedded part comprises a groove, and the groove is formed by the embedded part which is inwards recessed towards one side surface of the lamp body; the vertical lighting component is arranged in the groove, and the base is provided with a through hole matched with the vertical lighting component; a partition plate is arranged between the lampshade and the base, one side, away from the groove, of the partition plate is provided with a mounting groove, and the horizontal lighting assembly is arranged in the mounting groove. According to the utility model, the vertical lighting assembly and the horizontal lighting assembly are arranged, so that the bidirectional lighting function of the underground lamp is realized, and the lighting effect of the underground lamp is improved.

Description

Two-way LED buried lamp

Technical Field

The utility model relates to the technical field of lamps, in particular to a bidirectional LED buried lamp.

Background

The buried lamp is a lighting facility inlaid on the ground, has a square shape and a round shape, and is widely used in places such as markets, green belts, park tourist attractions and the like. The buried lamps illuminate the ground, overground vegetation and the like, so that the landscape is more beautiful and pedestrians pass through the lamp more safely.

Most of the existing buried lamps have simple structures and only one illumination direction. The vertical luminous buried lamp can generate glare due to too scattered light rays, so that the retina of a passer-by is stimulated, and the passer-by is uncomfortable. When the side-emitting underground lamp is arranged on a wall surface and the underground lamp irradiates a basement, the lens is required to be arranged on the side surface of the underground lamp, the area of the side surface of the lens is small, and only part of scattered light enters the lens and propagates to the outside, so that the lighting effect is poor.

Therefore, the existing underground lamp has the problems of single function and poor lighting effect.

Disclosure of Invention

The utility model aims to provide a bidirectional LED buried lamp, which aims to solve the problems of single function and poor lighting effect of the existing buried lamp.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: provided is a bi-directional LED buried lamp, which includes: the lamp comprises an embedded part, a cover plate, a lamp body, a vertical lighting assembly and a horizontal lighting assembly;

the cover plate and the lamp body are sequentially arranged above the embedded part, and the cover plate is fixedly connected with the embedded part through cover plate screws;

the lamp body comprises a base and a lamp shade arranged above the base; the embedded part comprises a groove, and the groove is formed by the embedded part which is inwards recessed towards one side surface of the lamp body;

the vertical lighting component is arranged in the groove, and the base is provided with a through hole matched with the vertical lighting component;

a partition plate is arranged between the lampshade and the base, one side, away from the groove, of the partition plate is provided with a mounting groove, and the horizontal lighting assembly is arranged in the mounting groove.

Further, the vertical lighting assembly comprises a first glass, a first lens and a first LED module; the first glass, the first lens and the first LED module are sequentially arranged in the groove from top to bottom;

the horizontal lighting assembly comprises a second glass, a second lens and a second LED module; the second LED module, the second lens and the second glass are sequentially arranged in the mounting groove towards the groove.

Further, the first lens has a vertical viewing angle of less than 30 degrees and the second lens has a horizontal viewing angle of greater than 120 degrees.

Further, the second lens is composed of a plurality of wide-angle lenses, the second LED module is composed of a plurality of LED lamps, and the number of the wide-angle lenses is equal to that of the LED lamps; the plurality of wide-angle lenses are in one-to-one correspondence with the plurality of LED lamps.

Further, the lamp shade inwards sunken towards one side of recess forms the recess portion, the outside arch of opposite side of lamp shade forms the bellying, the bellying lid is established the top of mounting groove.

Further, an annular boss is arranged on one side, facing the lamp body, of the embedded part.

Further, fixing columns are arranged on two sides of the annular boss, and each fixing column comprises a first screw hole penetrating through the corresponding fixing column; second screw holes matched with the first screw holes are formed in two sides of the lamp body;

the first screw hole and the second screw hole are fixedly connected through a screw.

Further, an LED drive is further arranged in the groove, and the LED drive is electrically connected with the vertical illumination assembly and the horizontal illumination assembly.

Further, the embedded part is of a cylindrical structure.

Further, a power supply connector is arranged on the outer side wall of the embedded part, and the power supply connector is electrically connected with the LED drive.

The utility model discloses a bidirectional LED buried lamp, which comprises: the lamp comprises an embedded part, a cover plate, a lamp body, a vertical lighting assembly and a horizontal lighting assembly; the cover plate and the lamp body are sequentially arranged above the embedded part, and the cover plate is fixedly connected with the embedded part through cover plate screws; the lamp body comprises a base and a lamp shade arranged above the base; the embedded part comprises a groove, and the groove is formed by the embedded part which is inwards recessed towards one side surface of the lamp body; the vertical lighting component is arranged in the groove, and the base is provided with a through hole matched with the vertical lighting component; a partition plate is arranged between the lampshade and the base, one side, away from the groove, of the partition plate is provided with a mounting groove, and the horizontal lighting assembly is arranged in the mounting groove. According to the utility model, the vertical lighting assembly and the horizontal lighting assembly are arranged, so that the bidirectional lighting function of the underground lamp is realized, and the lighting effect of the underground lamp is improved.

Drawings

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

FIG. 1 is an exploded view of a buried lamp according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a first structure of a buried lamp according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of a second structure of the buried lamp according to an embodiment of the present utility model;

fig. 4 is a schematic diagram of an application scenario of a buried lamp according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A;

wherein, each reference sign is as follows in the figure:

10. buried lamps; 11. an embedded part; 111. an annular boss; 112. fixing the column; 113. a screw; 12. a cover plate; 121. cover plate screws; 13. a lamp body; 14. a vertical lighting assembly; 15. a horizontal lighting assembly; 131. a base; 132. a lamp shade; 141. a first glass; 142. a first lens; 143. a first LED module; 151. a second glass; 152. a second lens; 153. a second LED module; r1, vertical viewing angle; r2, horizontal viewing angle; 16. an LED drive; 161. a power supply input line; 162. and an output line.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the utility model. 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.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is an exploded view of a buried lamp according to an embodiment of the present utility model; fig. 2 is a schematic diagram of a first structure of a buried lamp according to an embodiment of the present utility model; fig. 3 is a schematic diagram of a second structure of the underground lamp according to the embodiment of the utility model. As shown in fig. 1, 2 and 3, the present utility model proposes a bi-directional LED buried lamp 10, which includes: the embedded part 11, the cover plate 12, the lamp body 13, the vertical lighting assembly 14 and the horizontal lighting assembly 15; the cover plate 12 and the lamp body 13 are sequentially arranged above the embedded part 11, and the cover plate 12 and the lamp body 13 are fixedly connected through cover plate screws 121; the lamp body 13 comprises a base 131 and a lamp shade 132 arranged above the base 131; the embedded part 11 comprises a groove, and the groove is formed by inwards sinking the embedded part 11 towards one side of the lamp body 13; the vertical lighting component 14 is arranged in the groove, and the base 131 is provided with a through hole matched with the vertical lighting component 14; a partition plate is arranged between the lampshade 132 and the base 131, a mounting groove is formed in one side, away from the groove, of the partition plate, and the horizontal lighting assembly 15 is arranged in the mounting groove.

In this embodiment, the vertical lighting assembly 14 is disposed in the groove, the horizontal lighting assembly 15 is disposed in the mounting groove, and the embedded part 11 includes a groove, and the groove is formed by recessing inward from a side surface of the embedded part 11 facing the lamp body 13; the vertical lighting assembly 14 is disposed in the recess, and the base 131 is provided with a through hole adapted to the vertical lighting assembly 14, so that the light emitting surface of the vertical lighting assembly 14 is as close to the ground level as possible, thereby reducing useless light caused by the glare direction and improving the lighting effect of the underground lamp 10. The vertical illumination component 14 and the horizontal illumination component 15 each comprise a lens, the lenses are used for adjusting the illumination angle of the luminous element, and the lenses used by the vertical illumination component 14 are small-angle lenses or double-angle LED optical lenses, so that glare in the vertical illumination direction can be effectively reduced; the horizontal lighting assembly 15 uses a wide-angle lens, which can increase the horizontal irradiation area of the buried lamp 10, improve the light utilization rate of the buried lamp 10, and avoid light loss. By arranging the vertical lighting assembly 14 and the horizontal lighting assembly 15, the bidirectional lighting function of the underground lamp 10 is realized, and the lighting effect of the underground lamp 10 is improved.

In one embodiment, as shown in fig. 1 and 2, the vertical illumination assembly 14 includes a first glass 141, a first lens 142, and a first LED module 143; the first glass 141, the first lens 142 and the first LED module 143 are sequentially arranged in the groove from top to bottom; the horizontal lighting assembly 15 includes a second glass 151, a second lens 152, and a second LED module 153; the second LED module 153, the second lens 152, and the second glass 151 are sequentially disposed in the mounting groove toward the groove.

In this embodiment, the embedded part 11 is buried in the ground, the lamp body 13 is exposed, the base 131 is flush with the ground, the base 131 is provided with a through hole adapted to the vertical lighting assembly 14, and the light emitting surface of the vertical lighting assembly 14 is flush with the ground. The vertical lighting assembly 14 includes a first glass 141, a first lens 142, and a first LED module 143; the first glass 141, the first lens 142 and the first LED module 143 are sequentially arranged in the groove from top to bottom; the first lens 142 is a small-angle lens or a double-angle LED optical lens, which can effectively reduce glare in the vertical illumination direction. The light emitted by the first LED module 143 passes through the first lens 142 to be condensed, and then irradiates the outside of the lamp body 13 through the first glass 141, and the upper end surface of the first glass 141 is the light-emitting surface of the vertical lighting component 14. Preferably, a sealing silica gel ring is disposed between the first glass 141 and the inner sidewall of the through hole, so as to improve the waterproof and sealing effects of the underground lamp 10. The second LED module 153, the second lens 152, the second glass 151 is disposed in the mounting groove in sequence towards the groove, and the second lens 152 is a large-angle lens, so that the horizontal irradiation area of the underground lamp 10 can be increased, the light utilization rate of the underground lamp 10 is improved, and light loss is avoided.

In one embodiment, as shown in fig. 1 and 3, the vertical viewing angle R1 of the first lens 142 is less than 30 degrees, and the horizontal viewing angle R2 of the second lens 152 is greater than 120 degrees.

In this embodiment, the vertical viewing angle R1 refers to a light emitting angle of a light beam emitted by the first LED module 143 in a vertical direction after the light beam passes through the first lens 142 (see fig. 4 and 5, for example), and the vertical viewing angle R1 of the first lens 142 is smaller than 30 degrees, so that glare in a vertical illumination direction can be effectively reduced. The horizontal viewing angle R2 refers to a light emitting angle of the light beam emitted by the second LED module 153 in the horizontal direction after the light beam passes through the second lens 152 (see fig. 4 and 5, for example), and the horizontal viewing angle R2 of the second lens 152 is greater than 120 degrees, which can increase the horizontal irradiation area of the underground lamp 10, improve the light utilization rate of the underground lamp 10, and avoid light loss. After the light emitted by the second LED module 153 passes through the second lens 152 to be condensed, the light passes through the second glass 151 and irradiates the outside of the lamp body 13, and an end surface of the second glass 151 away from the second LED module 153 is a light emitting surface of the horizontal lighting assembly 15.

In an embodiment, as shown in fig. 1 and 2, the second lens 152 is composed of a plurality of wide-angle lenses, the second LED module 153 is composed of a plurality of LED lamps, and the number of the wide-angle lenses is equal to the number of the LED lamps; the plurality of wide-angle lenses are in one-to-one correspondence with the plurality of LED lamps.

In this embodiment, after the light emitted by each LED lamp of the plurality of LED lamps passes through the corresponding wide-angle lens of the plurality of wide-angle lenses to concentrate light, the light passes through the second glass 151 and irradiates the outside of the lamp body 13, so that the horizontal irradiation area of the buried lamp 10 can be increased, the light utilization rate of the buried lamp 10 is improved, and the loss of light is avoided.

In one embodiment, as shown in fig. 1 and 2, the lamp cover 132 is recessed inward toward one side of the recess to form a recess portion, and the other side of the lamp cover 132 is protruded outward to form a protrusion portion, and the protrusion portion covers over the mounting groove.

In this embodiment, the lamp shade 132 is recessed inwards towards one side of the groove to form a groove portion, the other side of the lamp shade 132 is protruded outwards to form a protruding portion, and the protruding portion is covered above the mounting groove, so that the light emitted by the second LED module 153 can be emitted along the horizontal direction, thereby improving the lighting effect.

In an embodiment, as shown in fig. 1 and 2, an annular boss 111 is disposed on a side of the embedded part 11 facing the lamp body 13.

In this embodiment, an annular boss 111 is disposed on a side of the embedded part 11 facing the lamp body 13, the annular boss 111 is connected with the lamp body 13, the embedded part 11 is buried in the ground, and the annular boss 111 and the lamp body 13 are exposed.

In an embodiment, as shown in fig. 4 and 5, fixing columns 112 are disposed on two sides of the annular boss 111, and the fixing columns 112 include first screw holes penetrating through the fixing columns 112; second screw holes matched with the first screw holes are formed in two sides of the lamp body 13; the first screw hole and the second screw hole are fixedly connected through a screw 113.

In this embodiment, fixing posts 112 are disposed on two sides of the annular boss 111, which has a reinforcing effect and improves the service life of the underground lamp 10. The fixing column 112 includes a first screw hole penetrating the fixing column 112; the two sides of the lamp body 13 are provided with second screw holes matched with the first screw holes, and the embedded part 11 and the lamp body 13 can be assembled by using screws 113.

In an embodiment, as shown in fig. 1, an LED driver 16 is further disposed in the recess, and the LED driver 16 is electrically connected to the vertical illumination assembly 14 and the horizontal illumination assembly 15.

In this embodiment, an LED driving unit 16 is further disposed in the groove, and preferably, the LED driving unit 16 provides a driving current for the first LED module 143 and the second LED module 153, where the driving current is electrically connected to the vertical lighting assembly 14 and the horizontal lighting assembly 15, and the driving current is used to power the vertical lighting assembly 14 and the horizontal lighting assembly 15. Further, the LED driver 16 includes a power input line 161 and two output lines 162, where the power input line 161 is a 220V power input line, and the two output lines 162 are electrically connected to the first LED module 143 and the second LED module 153 respectively.

In one embodiment, as shown in fig. 1 and 2, the embedded part 11 has a cylindrical structure.

In this embodiment, the embedded part 11 has a cylindrical structure, which can effectively reduce maintenance difficulty of the buried lamp 10 and improve service life of the buried lamp 10.

In an embodiment, as shown in fig. 1, a power supply connector is disposed on an outer side wall of the embedded part 11, and the power supply connector is electrically connected with the LED driver 16.

In this embodiment, a power supply connector is disposed on an outer side wall of the embedded part 11, the power supply connector is a 220V power supply connector, the power supply connector is electrically connected with the power input line 161, the power supply connector is used for connecting an external power supply device, and the power supply connector is a I P waterproof connector.

The utility model discloses a bidirectional LED buried lamp, which comprises: the lamp comprises an embedded part, a cover plate, a lamp body, a vertical lighting assembly and a horizontal lighting assembly; the cover plate and the lamp body are sequentially arranged above the embedded part, and the cover plate is fixedly connected with the embedded part through cover plate screws; the lamp body comprises a base and a lamp shade arranged above the base; the embedded part comprises a groove, and the groove is formed by the embedded part which is inwards recessed towards one side surface of the lamp body; the vertical lighting component is arranged in the groove, and the base is provided with a through hole matched with the vertical lighting component; a partition plate is arranged between the lampshade and the base, one side, away from the groove, of the partition plate is provided with a mounting groove, and the horizontal lighting assembly is arranged in the mounting groove. According to the utility model, the vertical lighting assembly and the horizontal lighting assembly are arranged, so that the bidirectional lighting function of the underground lamp is realized, and the lighting effect of the underground lamp is improved.

While the utility model has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. A bi-directional LED underground lamp, comprising: the lamp comprises an embedded part, a cover plate, a lamp body, a vertical lighting assembly and a horizontal lighting assembly;

the cover plate and the lamp body are sequentially arranged above the embedded part, and the cover plate is fixedly connected with the embedded part through cover plate screws;

the lamp body comprises a base and a lamp shade arranged above the base; the embedded part comprises a groove, and the groove is formed by the embedded part which is inwards recessed towards one side surface of the lamp body;

the vertical lighting component is arranged in the groove, and the base is provided with a through hole matched with the vertical lighting component;

a partition plate is arranged between the lampshade and the base, one side, away from the groove, of the partition plate is provided with a mounting groove, and the horizontal lighting assembly is arranged in the mounting groove.

2. The bi-directional LED underground lamp of claim 1, wherein the vertical lighting assembly comprises a first glass, a first lens, and a first LED module; the first glass, the first lens and the first LED module are sequentially arranged in the groove from top to bottom;

the horizontal lighting assembly comprises a second glass, a second lens and a second LED module; the second LED module, the second lens and the second glass are sequentially arranged in the mounting groove towards the groove.

3. The bi-directional LED underground lamp of claim 2, wherein the first lens has a vertical viewing angle of less than 30 degrees and the second lens has a horizontal viewing angle of greater than 120 degrees.

4. The bi-directional LED underground lamp of claim 2, wherein the second lens is composed of a plurality of wide-angle lenses, the second LED module is composed of a plurality of LED lamps, and the number of the wide-angle lenses is equal to the number of the LED lamps; the plurality of wide-angle lenses are in one-to-one correspondence with the plurality of LED lamps.

5. The bi-directional LED underground lamp of claim 1, wherein one side of the lamp housing facing the recess is recessed inward to form a recess portion, the other side of the lamp housing is raised outward to form a raised portion, and the raised portion is covered over the mounting groove.

6. The bi-directional LED underground lamp of claim 1, wherein the embedded part is provided with an annular boss on one side facing the lamp body.

7. The bi-directional LED underground lamp of claim 6, wherein the two sides of the annular boss are provided with fixing posts, the fixing posts comprising first screw holes penetrating the fixing posts; second screw holes matched with the first screw holes are formed in two sides of the lamp body;

the first screw hole and the second screw hole are fixedly connected through a screw.

8. The bi-directional LED underground lamp of claim 1 wherein an LED driver is further disposed within the recess, the LED driver being electrically connected to the vertical and horizontal lighting assemblies.

9. The bi-directional LED underground lamp of claim 8, wherein the embedded part is a cylindrical structure.

10. The bi-directional LED underground lamp of claim 9, wherein the outside wall of the embedded part is provided with a power supply connector, and the power supply connector is electrically connected with the LED drive.