CN220355333U - Wall lamp capable of being adjusted in multiple dimensions - Google Patents

Abstract

The utility model provides a multi-dimensional adjustable wall lamp, which comprises a lamp body, a lamp arm and a base, wherein the lamp body is provided with a lamp body; the lamp body is rotatably arranged on the lamp arm; the base comprises a shell and a rotating disc; the rotary coil is rotatably arranged on the shell around a first axis; the lamp arm is fixedly connected with the rotating disc; the shell is provided with a front port, and an annular convex edge extending along the circumferential direction of the first axis is arranged on the inner side of the front port; the rotating disc is provided with an annular groove extending along the circumferential direction of the first axis; the rotating disc is arranged on the front port; the annular flange falls into the annular groove and can rotate relative to the annular groove. According to the wall lamp, the rotating mechanism (the rotating disc and the shell) is arranged on the base and connected with the lamp arm, and the lamp body in rotating fit with the lamp arm is combined, so that multi-dimensional illumination angle adjustment is realized. And the lamp arm is fixedly connected with the rotating disc, and the lamp arm is rotated through the relative rotation of the rotating disc and the shell, so that the connection stability of the lamp arm is not affected.

Description

Wall lamp capable of being adjusted in multiple dimensions

Technical Field

The utility model relates to a wall lamp capable of being adjusted in multiple dimensions.

Background

The lamp body of the existing wall lamp is usually fixed relative to the base, or can swing up and down to adjust the illumination angle. The wall lamp capable of swinging up and down comprises a lamp body, a lamp arm and a base; the lamp body and the lamp arm are in up-and-down running fit, and the lamp arm and the base are relatively fixed so as to ensure the stability of connection. But the illumination angle can be adjusted only by swinging the lamp body up and down.

Disclosure of Invention

The utility model aims to provide a multi-dimensional adjustable wall lamp which comprises a lamp body, a lamp arm and a base, wherein the lamp body is provided with a lamp body; the lamp body is rotatably arranged on the lamp arm; the base comprises a shell and a rotating disc; the rotary coil is rotatably arranged on the shell around a first axis; the lamp arm is fixedly connected with the rotating disc; the shell is provided with a front port, and an annular convex edge extending along the circumferential direction of the first axis is arranged on the inner side of the front port; the rotating disc is provided with an annular groove extending along the circumferential direction of the first axis; the rotating disc is arranged on the front port; the annular flange falls into the annular groove and can rotate relative to the annular groove.

According to the wall lamp, the rotating mechanism (the rotating disc and the shell) is arranged on the base and connected with the lamp arm, and the lamp body in rotating fit with the lamp arm is combined, so that multi-dimensional illumination angle adjustment is realized. And the lamp arm is fixedly connected with the rotating disc, and the lamp arm is rotated through the relative rotation of the rotating disc and the shell, so that the connection stability of the lamp arm is not affected.

Drawings

Fig. 1 and 2 are schematic views of different angles of the present utility model.

Fig. 3 is a cross-sectional view of the present utility model.

Fig. 4 is an exploded view of the structure of the present utility model.

Fig. 5 is an exploded view of the base and lamp arm of the present utility model.

Fig. 6 is a schematic structural view of the rotating disc of the present utility model.

Fig. 7 is an exploded view of the structure of the rotating disc of the present utility model.

Fig. 8 is a schematic view of the structure of the lamp body of the present utility model.

Fig. 9 is a schematic view of the structure of the lamp arm of the present utility model.

Fig. 10 is a structural exploded view of the present utility model.

Detailed Description

The present application is further described with reference to the following drawings:

referring to fig. 1-10, a multi-dimensional adjustable wall lamp comprises a lamp body 3, a lamp arm 2 and a base 1. The lamp body 3 is rotatably mounted on the lamp arm 2.

The base 1 comprises a shell 4 and a rotating disc 5; the rotating disc 5 is rotatably mounted on the housing 4 about a first axis L1; the lamp arm 2 is fixedly connected with the rotating disc 5. The housing 4 is cylindrical and has a circular front port 41 and a circular rear port 42, and an annular flange 43 extending circumferentially around the first axis L1 is provided on the inner side of the front port 41; the rotating disc 5 is provided with an annular groove 51 extending circumferentially around the first axis L1; the rotating disc 5 is arranged on the front port 41 and is arranged concentrically with the front port 41, and the centers of the rotating disc 5 and the front port 41 are on the first axis L1; the annular flange 43 falls into the annular recess 51 and is rotatable relative to the annular recess 51.

According to the technical scheme, the wall lamp is connected with the lamp arm 2 by arranging the rotating mechanism (the rotating disc 5 and the shell 4) on the base 1, and the lamp body 3 which is in rotating fit with the lamp arm 2 is combined, so that multi-dimensional illumination angle adjustment is realized. And lamp arm 2 and rolling disc 5 rigid coupling realize through rolling disc 5 and casing 4 relative rotation that lamp arm 2 rotates, do not influence the connection stability of lamp arm 2.

The rotating disc 5 comprises a front disc body 52 and a rear disc body 53; the front disc 52 includes a first front disc 521 and a second front disc 522 which are concentric, the diameter of the first front disc 521 being larger than the diameter of the second front disc 522 and the diameter of the front port 41 of the housing 4; the diameter of the rear disc 53 is greater than the diameter of the second front disc 522; the rear tray 53 is mounted at the rear side of the second front tray 522 and is concentrically disposed with the front tray 52; the annular groove 51 is formed in the peripheral side of the rotary disk 5 by the difference in diameter of the first front disk 521, the second front disk 522, and the rear disk 53. The diameter of the rear disc 53 is smaller than the inner diameter of the housing 4.

The rotating disc 5 of the technical scheme adopts a split design and is convenient to be matched and installed with the shell 4.

When installed, the front plate 52 is covered on the front port 41 of the housing 4, the rear plate 53 is placed into the housing 4 through the rear port 42 of the housing 4, and then is installed on the second front plate 522, and the annular flange 43 is sandwiched between the first front plate 521 and the rear plate 53.

A first rotation limiting mechanism for limiting the maximum rotation range of the rotating disc 5 is arranged between the annular groove 51 and the annular convex edge 43; the first rotation limiting mechanism comprises a groove limiting protrusion 511 arranged in the annular groove 51 and a protruding edge limiting protrusion 431 arranged on the annular protruding edge 43; the rotation of the rotating disc 5 stops when the groove limit protrusions 511 and the flange limit protrusions 431 abut against each other.

When in use, the rotating lamp arm 2 can drive the rotating disc 5 to rotate relative to the shell 4, and when the rotating disc 5 rotates forward or backward until the groove limit protrusions 511 and the convex edge limit protrusions 431 of the rotating disc 5 are abutted, the maximum rotating range is reached. According to the technical scheme, the groove limiting protrusions 511 and the protruding edge limiting protrusions 431 are matched to limit the rotation range of the rotating disc 5, so that the rotating disc 5 is prevented from rotating 360 degrees, and the internal power-on circuit of the lamp is prevented from winding.

The rear tray 53 is fixedly connected with the front tray 52 through screws 54. The installation is simple, and adjustable and casing 4 complex elasticity, the fixed rotation position of being convenient for.

A damping washer 55 is arranged between the annular groove 51 and the annular flange 43. The damping shim 55 is specifically sandwiched between the first front plate 521 and the annular flange 43. The provision of the damping washer 55 increases the damping force between the rotating disc 5 and the housing 4 to facilitate fixing the angle after rotation.

The rotating disc 5 is provided with a connecting hole 56, one end of the lamp arm 2 is provided with a connector 21, the connector 21 is arranged in the connecting hole 56 in a penetrating way, and the tail end of the connector 21 is in threaded locking with the nut 22; the connector 21 is provided with a first positioning plane 211, the connecting hole 56 is also provided with a second positioning plane 561 parallel to the first positioning plane 211, and the first positioning plane 211 and the second positioning plane 561 are abutted against each other to prevent the lamp arm 2 from rotating relative to the rotating disc 5; the lamp arm 2 and the rotating disc 5 are ensured to be relatively fixed. In this embodiment, the first positioning plane 211 includes two symmetrical positions; the second positioning plane 561 includes two, symmetrically disposed.

The lamp body 3 is rotatably mounted on the lamp arm 2 around a second axis L2; the side part of the lamp body 3 is provided with a rotating shaft piece 7 fixed relative to the lamp body 3, and the axis of the rotating shaft piece 7 is overlapped with a second axis L2; the shaft member 7 is rotatably mounted on the lamp arm 2 with respect to the lamp arm 2.

The lamp body 3 is provided with a lamp body rotating member 8 fixed relative to the lamp body 3, and the lower end of the lamp arm 2 is provided with a lamp arm rotating member 9 fixed relative to the lamp arm 2; the lamp arm rotating member 9 is provided with a boss 91 extending circumferentially around the second axis L2; the lamp body rotating member 8 is provided with a sunk groove 81 extending along the circumferential direction of the second axis L2; the boss 91 falls into the sink groove 81 and is rotatable relative to the sink groove 81. In this embodiment, the cross sections of the boss 91 and the countersink 81 are in a corresponding two-stage step shape. The lamp body 3 is guided by the boss 91 and the sinking groove 81 when rotating, and is not easy to deviate.

A second rotation limiting mechanism for limiting the maximum rotation range of the lamp body 3 is arranged between the sinking groove 81 and the boss 91; the second rotation limiting mechanism comprises a sinking groove limit protrusion 811 arranged in the sinking groove 81 and a boss limit protrusion 911 arranged on the boss 91; the rotation of the lamp body 3 is stopped when the sink limit protrusion 811 abuts against the boss limit protrusion 911.

When the lamp body 3 is rotated forward or backward until the sink stopper projection 811 abuts against the boss stopper projection 911, the maximum rotation range of the lamp body 3 is reached. According to the technical scheme, the rotation range of the lamp body 3 is limited by the arrangement of the sink limiting protrusion 811 and the boss limiting protrusion 911, and the lamp body 3 is prevented from rotating 360 degrees, so that the internal power-on circuit of the lamp is prevented from winding.

A damping washer 92 is clamped between the sinking groove 81 and the boss 91, so that damping acting force between the lamp body 3 and the lamp arm 2 is increased, and the angle after rotation is fixed conveniently. When installed, the damping washer 92 is sleeved on the shaft member.

The base 1 further comprises a mounting plate 6 for connection to a mounting surface; the mounting plate 6 is mounted on the rear port 42 of the housing 4; the mounting plate 6 is provided with a connecting hanging lug 61, and the connecting hanging lug 61 is provided with a screw hole 611; the shell 4 is connected with a jackscrew 41, and the jackscrew 41 is connected with a screw hole 611 on the connecting hanging lug 61.

In this embodiment, electronic components such as a driving power supply and a connection terminal are mounted on the mounting board 6.

When in installation and use, the installation plate 6 is fixed on the installation surface (wall surface), then the shell 4 of the base 1 is covered on the installation plate 6, and the jackscrews 41 are screwed in from two sides to be connected and fixed with the installation plate 6.

The above-mentioned preferred embodiments should be regarded as illustrative examples of embodiments of the present application, and all such technical deductions, substitutions, improvements and the like which are made on the basis of the embodiments of the present application, are considered to be within the scope of protection of the present patent.

Claims (10)

1. A wall lamp capable of being adjusted in multiple dimensions comprises a lamp body, a lamp arm and a base; the lamp body is rotatably arranged on the lamp arm; the method is characterized in that:

the base comprises a shell and a rotating disc; the rotary coil is rotatably arranged on the shell around a first axis; the lamp arm is fixedly connected with the rotating disc;

the shell is provided with a front port, and an annular convex edge extending along the circumferential direction of the first axis is arranged on the inner side of the front port;

the rotating disc is provided with an annular groove extending along the circumferential direction of the first axis;

the rotating disc is arranged on the front port; the annular flange falls into the annular groove and can rotate relative to the annular groove.

2. The multi-dimensional adjustable wall lamp of claim 1, wherein:

the rotating disc comprises a front disc body and a rear disc body;

the front disc body comprises a first front disc body and a second front disc body which are concentric, and the diameter of the first front disc body is larger than that of the second front disc body and that of a front port of the shell;

the diameter of the rear tray body is larger than that of the second front tray body; the rear tray body is arranged at the rear side of the second front tray body and is concentrically arranged with the front tray body;

the housing having a rear port; the diameter of the rear tray body is smaller than the inner diameter of the shell.

3. The multi-dimensional adjustable wall lamp of claim 2, wherein:

a first rotation limiting mechanism for limiting the maximum rotation range of the rotating disc is arranged between the annular groove and the annular convex edge;

the first rotation limiting mechanism comprises a groove limiting protrusion arranged in the annular groove and a protruding edge limiting protrusion arranged on the annular protruding edge;

the rotating disc stops rotating when the groove limiting protrusions are abutted against the convex edge limiting protrusions.

4. The multi-dimensional adjustable wall lamp of claim 2, wherein:

the rear tray body is fixedly connected with the front tray body through screws.

5. The multi-dimensional adjustable wall lamp of claim 2, wherein:

and a damping gasket is arranged between the annular groove and the annular convex edge.

6. The multi-dimensional adjustable wall lamp of claim 1, wherein:

the rotating disc is provided with a connecting hole, one end of the lamp arm is provided with a connector, the connector is arranged in the connecting hole in a penetrating mode, and the tail end of the connector is locked with the nut in a threaded mode;

the connecting head is provided with a first positioning plane, a second positioning plane parallel to the first positioning plane is further arranged in the connecting hole, and the first positioning plane and the second positioning plane are mutually abutted to prevent the lamp arm from rotating relative to the rotating disc.

7. The multi-dimensional adjustable wall lamp of claim 1, wherein:

the lamp body is rotatably arranged on the lamp arm around a second axis;

the side part of the lamp body is provided with a rotating shaft part fixed relative to the lamp body, and the axis of the rotating shaft part coincides with the second axis;

the rotating shaft piece can be rotatably arranged on the lamp arm relative to the lamp arm;

the lamp body is provided with a lamp body rotating member fixed relative to the lamp body, and the lamp arm is provided with a lamp arm rotating member fixed relative to the lamp arm;

a boss extending circumferentially around the second axis is arranged on the lamp arm rotating member;

the lamp body rotating member is provided with a sinking groove extending circumferentially around the second axis;

the boss falls into the sinking groove and can rotate relative to the sinking groove.

8. The multi-dimensional adjustable wall lamp of claim 7, wherein:

a second rotation limiting mechanism for limiting the maximum rotation range of the lamp body is arranged between the sinking groove and the boss;

the second rotation limiting mechanism comprises a sinking groove limiting protrusion arranged in the sinking groove and a boss limiting protrusion arranged on the boss;

the lamp body stops rotating when the sinking groove limiting protrusion abuts against the boss limiting protrusion.

9. The multi-dimensional adjustable wall lamp of claim 8, wherein:

a damping washer is clamped between the sinking groove and the boss.

10. The multi-dimensional adjustable wall lamp of claim 2, wherein:

the base also comprises a mounting plate for connecting with the mounting surface;

the mounting plate is mounted on the rear port of the shell;

the mounting plate is provided with a connecting hanging lug, and the connecting hanging lug is provided with a screw hole;

the shell is connected with a jackscrew, and the jackscrew is connected with a screw hole on the connecting hanging lug.