CN219036518U - Lamp capable of adjusting angle - Google Patents

Abstract

The utility model discloses a lamp with adjustable angle, comprising: the light-emitting assembly comprises a shell and a light-emitting surface; a connecting piece; the bracket is movably connected with the shell through the connecting piece; the first rotating structure is arranged between the shell and the connecting piece and can enable the light-emitting surface to rotate relative to the bracket; and the second rotating structure is arranged between the bracket and the connecting piece and can enable the light emitting surface to turn over relative to the bracket. According to the utility model, the light emitting surface is rotated relative to the bracket by utilizing the first rotating structure, so that the irradiation angle of the light emitting surface on an external projection surface (such as a wall surface, a ground surface and a ceiling) is adjusted, and particularly, under the condition that the projection surface is obliquely provided with ornaments, lamplight can be adjusted according to the inclination angle of the ornaments, so that the outline of the ornaments can be highlighted on the projection surface; the second rotating structure is utilized to enable the light-emitting surface to overturn relative to the bracket, so that the direction of the light-emitting surface is selected, and the use scene of the lamp is widened.

Description

Lamp capable of adjusting angle

Technical Field

The utility model relates to the technical field of lamps, in particular to an angle-adjustable lamp.

Background

And the lamp is used for lighting and rendering scene atmosphere.

In the prior art, the lamp has single function, so that the application scene of the lamp is limited.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the utility model aims to provide an angle-adjustable lamp.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

an angle adjustable luminaire comprising:

the light-emitting assembly comprises a shell and a light-emitting surface;

a connecting piece;

the bracket is movably connected with the shell through the connecting piece;

the first rotating structure is arranged between the shell and the connecting piece and can enable the light-emitting surface to rotate relative to the bracket; and

the second rotating structure is arranged between the bracket and the connecting piece and can enable the light emitting surface to turn over relative to the bracket.

Preferably, the first rotating structure includes:

the round cover is arranged on the connecting piece, and the periphery of the round cover is provided with a buckling position in an outward extending manner;

the round groove is formed in the rear side of the shell, a notch is formed in one end, close to the opening, of the round groove, a sliding groove is formed in the inner wall of the round groove, and the sliding groove is communicated with the notch;

wherein, when the button is located in the chute, the housing can rotate relative to the dome.

Preferably, the method further comprises:

the fan-shaped adjusting groove is formed in the bottom wall of the round groove;

the first elastic screw is in threaded connection with the round cover;

the first elastic screw can extend into the fan-shaped adjusting groove, and the inner end of the first elastic screw abuts against the bottom wall of the fan-shaped adjusting groove.

Preferably, the angle radian of the fan-shaped adjusting groove is 90 degrees.

Preferably, the method further comprises:

the first tooth-shaped structure is laid on the bottom wall of the fan-shaped adjusting groove.

Preferably, the method further comprises:

the elastic silica gel ring is arranged between the round cover and the round groove.

Preferably, the second rotating structure includes:

the first cylinder is arranged on the connecting piece and is penetrated with a rotating shaft;

the second cylinder is arranged at the top of the bracket and is in running fit with the first cylinder through the rotating shaft.

Preferably, the method further comprises:

the second elastic screw is in threaded connection with the first cylinder;

the inner end of the second elastic screw can be propped against the outer peripheral wall of the rotating shaft.

Preferably, the method further comprises:

the second tooth-shaped structure is laid on the peripheral wall of the rotating shaft.

Preferably, the method further comprises:

the damping silica gel ring is coaxially arranged on the rotating shaft in a penetrating way.

The utility model has the beneficial effects that: according to the utility model, the light emitting surface is rotated relative to the bracket by utilizing the first rotating structure, so that the irradiation angle of the light emitting surface on an external projection surface (such as a wall surface, a ground surface and a ceiling) is adjusted, and particularly, under the condition that the projection surface is obliquely provided with ornaments, lamplight can be adjusted according to the inclination angle of the ornaments, so that the outline of the ornaments can be highlighted on the projection surface; the second rotating structure is utilized to enable the light emitting surface to overturn relative to the bracket, so that the direction of the light emitting surface is selected, a user can adjust the irradiated projection surface (such as a wall surface, a ground surface and a ceiling) according to the use requirement, and the use scene of the lamp is widened.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

fig. 2 is an exploded view of an embodiment of the present utility model.

The figure shows: 1-a light-emitting component, 11-a shell and 12-a light-emitting surface;

a 2-connector;

3-a bracket;

4-a first rotating structure;

41-round cover, 411-buckling position;

42-round grooves, 421-notches, 422-sliding grooves, 423-fan-shaped adjusting grooves and 424-first toothed structures;

43-a first elastic screw;

44-elastic silica gel ring;

5-a second rotating structure;

51-a first cylinder, 511-a rotating shaft, 512-a second toothed structure;

52-a second cylinder;

53-a second elastic screw;

54-damping silica gel ring.

Detailed Description

Embodiments of the present utility model will now be described in detail with reference to the drawings, which are intended to be used as references and illustrations only, and are not intended to limit the scope of the utility model.

Referring to fig. 1-2, an angle-adjustable lamp includes:

a light emitting module 1 including a housing 11 and a light emitting surface 12;

a connecting piece 2;

the bracket 3 is movably connected with the shell 11 through the connecting piece 2;

a first rotating structure 4 provided between the housing 11 and the connector 2, and configured to rotate the light-emitting surface 12 with respect to the bracket 3; and

the second rotating structure 5 is disposed between the bracket 3 and the connector 2, and can turn the light emitting surface 12 relative to the bracket 3.

In this embodiment, the first rotating structure 4 is utilized to rotate the light emitting surface 12 relative to the bracket 3, so as to adjust the irradiation angle of the light emitting surface 12 on the external projection surface (such as a wall surface, a ground surface and a ceiling), especially in the case that the projection surface is obliquely provided with ornaments, the lamplight can be adjusted according to the inclination angle of the ornaments, and then the outline of the ornaments can be highlighted on the projection surface; if the wall surface is provided with arrows in the schematic direction, the decoration in this embodiment includes 3 arrows (not shown), the 3 arrows are arranged in a straight line and are obliquely (which may be, but is not limited to, 45 °) arranged on the wall surface, and at this time, the light can be irradiated on the arrows in an oblique manner by rotating the light-emitting surface 12, so that the arrows with the schematic direction are more striking; the second rotating structure 5 is utilized to enable the light emitting surface 12 to overturn relative to the bracket 3, so that the direction of the light emitting surface 12 is selected, and a user can adjust the irradiated projection surface (such as a wall surface, a ground surface and a ceiling) according to the use requirement, thereby being beneficial to widening the use scene of the lamp.

Preferably, the first rotating structure 4 includes:

the round cover 41 is arranged on the connecting piece 2, and the periphery of the round cover is provided with a buckling position 411 in an outward extending manner;

a round groove 42, which is arranged at the rear side of the shell 11, one end close to the opening is provided with a notch 421, the inner wall is provided with a sliding groove 422, and the sliding groove 422 is communicated with the notch 421;

wherein, when the button 411 is located in the chute 422, the housing 11 can rotate relative to the dome 41.

In this embodiment, the number of the buckling positions 411 is 3, the included angle between the adjacent buckling positions 411 is 120 °, the number and arrangement modes of the notches 421 correspond to those of the buckling positions 411, and the 3 buckling positions 411 are utilized to improve the stability of assembly; during assembly, after the buckling position 411 is aligned with the notch 421, the buckling position 411 axially penetrates into the sliding groove 422, and finally the buckling position 411 is rotated into the sliding groove 422 by rotating the shell 11 around the shaft.

Preferably, the method further comprises:

a fan-shaped adjusting groove 423 provided on the bottom wall of the circular groove 42;

a first elastic screw 43 screwed to the dome 41;

the first tightening screw 43 can extend into the fan-shaped adjusting groove 423, and the inner end of the first tightening screw abuts against the bottom wall of the fan-shaped adjusting groove 423.

In this embodiment, the housing 11 is rectangular, and the light-emitting surface 12 is disposed on the front side of the housing 11; when the shell 11 needs to be rotated, the inner end of the first elastic screw 43 is separated from the bottom wall of the fan-shaped adjusting groove 423 by unscrewing, in the rotating process, the first elastic screw 43 moves along the arc line of the fan-shaped adjusting groove 423, and when the shell 11 rotates to a proper angle, the inner end of the first elastic screw 43 is propped against the bottom wall of the fan-shaped adjusting groove 423 by screwing, and the resistance can be continuously provided for fixing the current angle when propped against the bottom wall of the fan-shaped adjusting groove 423, so that the shell 11 is prevented from rotating in a non-artificial manner.

Preferably, the angle radian of the fan-shaped adjusting groove 423 is 90 °.

In this embodiment, the fan-shaped adjusting groove 423 with an angle radian of 90 ° is beneficial to limit the rotatable range of the housing 11, and mainly obtains the end point positions of two angles (0 ° and 90 °), thereby realizing precise adjustment; further preferably, the rear side of the housing 11 is formed with a pointing structure (as a 0-bit reference) near the edge of the circular groove 42, 9 scale structures are equidistantly arranged on the circular cover 41 along the radian of the fan-shaped adjusting groove 423, the included angle between the adjacent scale structures is 10 °, and when rotating, each scale structure passes through the pointing structure, and the corresponding housing 11 rotates 10 °, so that the rotating precision is further improved.

Preferably, the method further comprises:

the first tooth-like structure 424 is laid on the bottom wall of the fan-shaped adjusting groove 423.

In this embodiment, the first tooth structure 424 is triangular, and the friction force between the first tooth structure 424 and the inner end of the first tightening screw 43 is increased.

Preferably, the method further comprises:

and the elastic silica gel ring 44 is arranged between the round cover 41 and the round groove 42.

In this embodiment, the inner end of the elastic silica gel ring 44 acts on the circular groove 42, and the outer end acts on the circular groove 42, which is beneficial to enhancing the hand feeling of the rotary housing 11.

Preferably, the second rotating structure 5 includes:

a first cylinder 51 disposed on the connecting member 2 and through which the rotating shaft 511 is inserted;

the second cylinder 52 is disposed at the top of the bracket 3 and is in rotation fit with the first cylinder 51 through the rotation shaft 511.

In this embodiment, two second cylinders 52 are provided, a gap for the first cylinder 51 to penetrate is left between the two second cylinders 52, and the first cylinder 51 and the second cylinder 52 are respectively and coaxially provided with a through hole for the rotating shaft 511 to penetrate.

Preferably, the method further comprises:

a second tightening screw 53 screwed with the first cylinder 51;

wherein, the inner end of the second tightening screw 53 can abut against the outer peripheral wall of the rotating shaft 511.

In this embodiment, when the housing 11 needs to be turned over, the inner end of the second elastic screw 53 is separated from the outer peripheral wall of the rotating shaft 511 by unscrewing the second elastic screw 53, and in the turning process, the second elastic screw 53 rotates around the rotating shaft 511 as an axis, and when the housing 11 is turned over to a proper angle, the inner end of the second elastic screw 53 is abutted against the outer peripheral wall of the rotating shaft 511 by screwing, so that resistance can be continuously provided for fixing the current angle during the abutting, thereby preventing the housing 11 from being turned over unintentionally.

Preferably, the method further comprises:

the second tooth-like structure 512 is laid on the outer peripheral wall of the rotating shaft 511.

In the present embodiment, the second tooth structure 512 is triangular, and the friction force between the second tooth structure 512 and the inner end of the second tightening screw 53 is increased.

Preferably, the method further comprises:

the damping silica gel ring 54 is coaxially arranged on the rotating shaft 511 in a penetrating way.

In this embodiment, one end of the damping silica gel ring 54 acts on the first cylinder 51, and the other end acts on the second cylinder 52, and friction is provided by the damping silica gel ring 54 before the second tightening screw 53 is not tightened, so as to prevent the housing 11 from turning down due to its own weight.

The above disclosure is illustrative of the preferred embodiments of the present utility model and should not be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. An angle-adjustable luminaire, comprising:

the light-emitting assembly comprises a shell and a light-emitting surface;

a connecting piece;

the bracket is movably connected with the shell through the connecting piece;

the first rotating structure is arranged between the shell and the connecting piece and can enable the light-emitting surface to rotate relative to the bracket; and

the second rotating structure is arranged between the bracket and the connecting piece and can enable the light emitting surface to turn over relative to the bracket.

2. The adjustable angle light fixture of claim 1 wherein the first rotating structure comprises:

the round cover is arranged on the connecting piece, and the periphery of the round cover is provided with a buckling position in an outward extending manner;

the round groove is formed in the rear side of the shell, a notch is formed in one end, close to the opening, of the round groove, a sliding groove is formed in the inner wall of the round groove, and the sliding groove is communicated with the notch;

wherein, when the button is located in the chute, the housing can rotate relative to the dome.

3. An adjustable angle light fixture as recited in claim 2, further comprising:

the fan-shaped adjusting groove is formed in the bottom wall of the round groove;

the first elastic screw is in threaded connection with the round cover;

the first elastic screw can extend into the fan-shaped adjusting groove, and the inner end of the first elastic screw abuts against the bottom wall of the fan-shaped adjusting groove.

4. An adjustable angle light fixture as recited in claim 3, wherein said fan-shaped adjustment slot has an angular arc of 90 °.

5. An adjustable angle light fixture as recited in claim 3, further comprising:

the first tooth-shaped structure is laid on the bottom wall of the fan-shaped adjusting groove.

6. An adjustable angle light fixture as recited in claim 3, further comprising:

the elastic silica gel ring is arranged between the round cover and the round groove.

7. The adjustable angle light fixture of claim 1 wherein the second rotational structure comprises:

the first cylinder is arranged on the connecting piece and is penetrated with a rotating shaft;

the second cylinder is arranged at the top of the bracket and is in running fit with the first cylinder through the rotating shaft.

8. The adjustable angle light fixture of claim 7, further comprising:

the second elastic screw is in threaded connection with the first cylinder;

the inner end of the second elastic screw can be propped against the outer peripheral wall of the rotating shaft.

9. The adjustable angle light fixture of claim 8, further comprising:

the second tooth-shaped structure is laid on the peripheral wall of the rotating shaft.

10. The adjustable angle light fixture of claim 7, further comprising:

the damping silica gel ring is coaxially arranged on the rotating shaft in a penetrating way.

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