EP2863116A1

EP2863116A1 - Inclination adjustment structure of lamp

Info

Publication number: EP2863116A1
Application number: EP20140172706
Authority: EP
Inventors: Wu-Chi Huang; Li-Ming Chen
Original assignee: Delta Electronics Inc
Current assignee: Delta Electronics Inc
Priority date: 2013-10-17
Filing date: 2014-06-17
Publication date: 2015-04-22
Anticipated expiration: 2034-06-17
Also published as: AU2014203170B1; TWM476885U; EP2863116B1; ES2600604T3

Abstract

The present invention is related to an inclination adjustment structure of lamp including a main body (100) and a positioning sleeve (200). The main body (100) has a plurality of positioning recesses (110) arranged in juxtaposition and a supporting surface (120). A positioning plate (210) is formed at one end of the positioning sleeve (200), and the positioning plate (210) having two positioning edges (211/212) arranged opposite to each other. One of the positioning edges (211/212) is engaged in one of the positioning recess (110), and the other (211/212) is supported by the supporting surface (120). The positioning edge (211 or 212) is engaged in any of the positioning recesses (110) and an inclination of the main body (100) is thereby adjusted.

Description

BACKGROUND

The present invention is related to lamps, particularly an inclination adjustment structure of road lamp for convenient adjustment.

DESCRIPTION OF RELATED ART

Owning to the improvement of the light emitting diode (LED) manufacturing technic, LEDs are wildly applied to road or outdoor illumination. A LED light source is generally included of a planar illumination consisted of multiple LED chips. A lens is commonly provided on the conventional LED road lamp to adjust light-projection shape and direction of the illumination.
There are various illumination requirements corresponding to various applied locations, and it is not economic to design various lenses corresponding to each location. Therefore, an inclination adjustment structure is required for the LED road lamp. Conventional means for adjusting light-projection angle of the lamp are angle blocks, racks (disclosed in CN20168242U patent) and pivoting structures (disclosed in CN201875579U patent). Corresponding to various applied locations, various angle blocks have to be designed. Furthermore, the angle blocks are inconvenient to install. The racks and the pivoting structures are not able to provide sufficient support to the road lamp.

SUMMARY

The purpose of the present invention is providing an inclination adjustment structure of lamp which is convenient to be adjusted.
In order to make the above purpose, an inclination adjustment structure of road lamp including a main body and a positioning sleeve is provided in the present invention. The main body has a plurality of positioning recesses arranged in juxtaposition and a supporting surface. A positioning plate is formed at one end of the positioning sleeve, and the positioning plate has two positioning edges arranged opposite to each other. One of the positioning edges is engaged in one of the positioning recesses, and the other positioning edge is in contact with the supporting surface.
A plurality of stairs corresponding to the positioning recesses are preferably provided on the supporting surface and arranged in juxtaposition, one of the positioning edges is in contact with one of the stairs while the other positioning edge is engaged in corresponding positioning recess.
The supporting surface is preferably a curved surface.
The supporting surface is preferably a flat.
The inclination adjustment structure is preferably further included of a fixing bolt, a screw hole is defined on the main body, a through hole corresponding to the screw hole is defined on the positioning plate, the fixing bolt is inserted through the through hole and screwed into the screw hole, and the main body is thereby connected to the positioning plate.
A protruding stage toward the other end of the positioning sleeve is preferably formed on the positioning plate, a contacting surface is formed on the protruding stage, the contacting surface is of a curved shape, and the through hole is defined on the contacting surface.
The contacting surface is preferably concave into the protruding stage.
The protruding stage is preferably located between the two positioning edges.
The through hole is preferably located between the two positioning edges, and the screw hole is located between the positioning recesses and the supporting surface.
A contacting surface is formed on the positioning plate, the contacting surface is of a curved shape and the through is defined on the contacting surface.
The through hole is preferably of an elongated shape.
The through hole is preferably extended between the two positioning edges.
The positioning plate is preferably arranged tilted with an axial direction of the positioning sleeve.
An illuminating module is preferably provided in the main body.
The illuminating module is preferably included of a plurality of LEDs.
The positioning edge of the positioning sleeve is engaged the positioning recesses, and the main body is thereby fixed related to the positioning sleeve. Moreover, the inclination of the main body is able to be adjusted by engaging the positioning edge into various positioning recess. Therefore, the inclination adjustment structure of the present invention is firm and convenient to be installed.

BRIEF DESCRIPTION OF DRAWING

FIG. 1 is a schematic view showing an embodiment of the present invention;
FIG. 2 is an exploded diagram showing the embodiment of the present invention;
FIG. 3 is a schematic view showing an arrangement of the present invention;
FIG. 4 is a schematic view showing another arrangement of the present invention;
FIG. 5 is a schematic view showing the third arrangement of the present invention;
FIG. 6 is a schematic view showing another instance of the present invention; and
FIG. 7 is a schematic view showing the third instance of the embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT

Please refer to FIGs. 1 and 2. An inclination adjustment structure of the road lamp including a main body 100, a positioning sleeve 200 and a fixing bolt 300 is provided in an embodiment of the present invention.
As shown in FIGs. 1 to 3. The main body 100 is a case made of metal, and at least an illuminating module 400 is provided on the main body 100. Two illuminating modules 400 are preferably provided on the main body 100 in the present embodiment. Each of the illuminating modules 400 is of a plate shape. The illuminating module 400 is included of a circuit board 410, and the LEDs 420 arranged on a side of the circuit board 410. The LEDs 420 on the illuminating module 400 are arranged toward the same direction.
Please refer to FIGs. 2 to 4. A plurality of positioning recesses 110 and a supporting surface 120 are formed on a lateral surface 101 of the main body 100, and the lateral surface 101 is preferably arranged at an included angle of 45-degree to the illuminating module 400, as shown in Fig. 1. Preferably, the positioning recesses 110 are continually arranged in juxtaposition and of a stair shape. The positioning recesses 110 and the supporting surface 120 are arranged on two opposite sides of the lateral surface 101, but it is not a limitation of the present invention. A screw hole 130 is defined on the lateral surface 101, and the screw hole 130 is preferably located between the positioning recesses 110 and the supporting surface 120. A plurality of stairs 121 corresponding to the positioning recesses 110 are arranged in juxtaposition on the supporting surface 120.
As shown in FIGs. 2 and 3, the positioning sleeve 200 is made of metal. The positioning sleeve 200 is sleeved on a pillar 500 and connected to the main body 100. Thereby, the main body 100 is fixed on the pillar 500. A beveled opening is formed at one end of the positioning sleeve 200, and a couple of positioning plates 210 are extended from the opening. The positioning plates 210 are symmetrical about an axial direction of the positioning sleeve 200. Therefore, only one positioning plate 210 will be described below. The positioning plate 210 is preferably at an included angle of 45-degree to an axial direction of the positioning sleeve 200. Each positioning plate 210 has a couple of positioning edges 211, 212 arranged opposite to each other. A protruding stage 213 is formed on each positioning plate 210 toward the other end of the positioning sleeve 200. The protruding stage 213 is located between two positioning edges 211, 212. A contacting surface 214 is concave into the protruding stage 213. The contacting surface 214 is of a curved shape, and a through hole 215 is opened on the contacting surface 214. The contacting surface 214 could be a convex curved surface formed on the protruding stage 213, but is not a limitation of the presentation.
Please refer to FIG. 3. The positioning sleeve 200 is sleeved on a vertically-arranged pillar 500, and the axial direction of the positioning sleeve 200 is arranged substantially perpendicular with the illuminating module 400. A positioning edge 211 of the positioning plate 210 is engaged into a positioning recess 110, and the other positioning edge 212 of the positioning plate 210 is engaged to a stair 121 corresponding to the positioning recess 110. In the present embodiment, the through hole 215 is of an elongated shape and extended between two positioning edges 211, 212. For example, the through hole 215 is a circular hole. The fixing bolt 300 is inserted through the through hole 215 and screwed into the screw hole 130. The main body 100 is thereby connected to the positioning plate 210 and fixed on the pillar 500. The illuminating module 400 is thereby substantially horizontal-arranged.
Please refer to FIGs. 3 and 4. The inclination of the illuminating module 400 is able to be adjusted by engaging the positioning edge 211 into various positioning recesses 110. The fixing bolt 300 is moved with the main body 100 while the main body 100 is arranged at various inclinations to the positioning sleeve 200. The fixing bolt 300 is arranged at various inclinations to the positioning plate 210 by moving the fixing bolt 300 along the through hole 215. The head 310 of the fixing bolt 300 is firmly in contact with the contacting surface 214 while the fixing bolt 300 is arranged in each inclination.
Please refer to FIG. 5. The positioning sleeve 200 is sleeved on a horizontally-arranged pillar 500. The axial direction of the positioning sleeve 200 is arranged substantially parallel with the illuminating module 400. A positioning edge 212 of the positioning plate 210 is engaged into a positioning recess 110, and the other positioning edge 211 of the positioning plate 210 is engaged to a stair 121 corresponding to the positioning recess 110. The fixing bolt 300 is inserted through the through hole 215 and screwed into the screw hole 130. The main body 100 is thereby connected to the positioning plate 210 and fixed on the pillar 500. The illuminating module 400 is thereby arranged substantially horizontal. Furthermore, the inclination of the illuminating module 400 is able to be adjusted by engaging the positioning edge 212 into various positioning recess 110.
Please refer to FIG. 6 and 7. The supporting surface 120 can be implemented without the stairs 121. While one of the positioning edges 211, 212 is engaged in one of the positioning recess 110, the other positioning edge 212, 211 is in contact with the supporting surface 120. The form of the supporting surface 120 is not limited in the present invention. For example, the surface 120 is optionally a flat shown in FIG. 6, and also optionally a curved surface shown in FIG. 7.
In the present invention, the positioning edges 211, 212 of the positioning sleeve 200 are able to be engaged into various positioning recesses 110 of the main body 100. Thereby, the relative position between the main body 100 and the positioning sleeve 200 is able to be adjusted. Therefore, compared with conventional technic, the inclination adjustment structure of the present invention can be installed more easily. The strength of the present invention is better than that of conventional technic as well.

Claims

An inclination adjustment structure of road lamp, comprising:
a main body (100), having a plurality of positioning recesses (110) arranged in juxtaposition and a supporting surface (120);

a positioning sleeve (200), forming a positioning plate (210) at one end thereof, the positioning plate (210) having two positioning edges (211/212) arranged opposite to each other, one of the positioning edges (211/212) being engaged in one of the positioning recess (110), and the other positioning edge (211/212) being in contact with the supporting surface (120).
The inclination adjustment structure of lamp according to claim 1, wherein a plurality of stairs (121) corresponding to the positioning recesses (110) are provided on the supporting surface (120) and arranged in juxtaposition, one of the positioning edges (211/212) is engaged to one of the stairs (121) and the other positioning edge (212/211) is engaged in the corresponding positioning recess (110).
The inclination adjustment structure of lamp according to claim 1, wherein the supporting surface (120) is a curved surface.
The inclination adjustment structure of lamp according to claim 1, wherein the supporting surface (120) is a flat.
The inclination adjustment structure of lamp according to claim 1, further comprising a fixing bolt (300), wherein a screw hole (130) is defined on the main body (100), a through hole (215) corresponding to the screw hole (130) is defined on the positioning plate (210), the fixing bolt (300) is inserted through the through hole (215) and screwed into the screw hole (130), and the main body (100) is thereby connected to the positioning plate (210).
The inclination adjustment structure of lamp according to claim 5, wherein a protruding stage (213) toward the other end of the positioning sleeve (200) is formed on the positioning plate (210), a contacting surface (214) is formed on the protruding stage (213), the contacting surface (214) is of a curved shape, and the through hole (215) is defined on the contacting surface (214).
The inclination adjustment structure of lamp according to claim 6, wherein the contacting surface (214) is concave into the protruding stage (213).
The inclination adjustment structure of lamp according to claim 6, wherein the protruding stage (213) is located between the two positioning edges (211/212).
The inclination adjustment structure of lamp according to claim 5, wherein the through hole (215) is located between the two positioning edges (211/212), and the screw hole (130) is located between the positioning recesses (110) and the supporting surface (120).
The inclination adjustment structure of lamp according to claim 5, wherein a contacting surface (214) is formed on the positioning plate (210), the contacting surface (214) is of a curved shape, and the through (215) is defined on the contacting surface (214).
The inclination adjustment structure of lamp according to claim 5, wherein the through hole (215) is of an elongated shape.
The inclination adjustment structure of lamp according to claim 11, wherein the through hole (215) is extended between the two positioning edges (211/212).
The inclination adjustment structure of lamp according to claim 1, wherein the positioning plate (210) is arranged tilted with an axial direction of the positioning sleeve (200).
The inclination adjustment structure of lamp according to claim 1, wherein an illuminating module (400) is provided in the main body (100).
The inclination adjustment structure of lamp according to claim 14, wherein the illuminating module (400) is comprised of a plurality of LEDs (420).