KR101691622B1 - A street lamp pole for adjusting illumination position - Google Patents

Abstract

The present invention provides a streetlight lamp capable of adjusting an illumination position. The streetlight lamp capable of adjusting the illumination position includes a light-emitting body portion having a predetermined length; A connecting part installed on the spout main body so as to be adjustable in the rotational angle along the vertical direction; And an illumination unit installed at an end of the connection unit and guiding sliding movement of the illumination module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a streetlight lamp,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a streetlight lamp capable of adjusting an illumination position, and more particularly, to a streetlight lamp capable of adjusting an illumination position by adjusting a vertical angle and a horizontal position of the illumination module.

Generally, street lamps are provided at predetermined intervals so as to illuminate roads at night.

Such a street light uses high-pressure mercury lamp, sodium lamp, LED, etc., and illuminates the surroundings by irradiating white, yellow or blue light.

However, when the width of a road is expanded through an expansion work, etc., the angle of illumination varies. Therefore, existing street lights installed on the roads should be removed, and other streetlights having an illumination angle corresponding to the expanded roads should be reinstalled There is a problem in that the maintenance inconvenience, the maintenance difficulty and the construction cost increase accordingly.

Prior art related to the present invention is Korean Patent Laid-Open Publication No. 10-2011-0121771 (published on November 11, 2011).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a streetlight lamp capable of adjusting an illumination position by adjusting a vertical angle and a horizontal position of the lighting module.

In a preferred aspect, the present invention provides a streetlight lamp capable of adjusting the illumination position.

The streetlight lamp capable of adjusting the illumination position includes a light-emitting body portion having a predetermined length; A connecting part installed on the spout main body so as to be adjustable in the rotational angle along the vertical direction; And an illumination unit installed at an end of the connection unit and guiding sliding movement of the illumination module.

The connecting portion includes a connecting body detachably connected to the upper end of the spout main body, a first rotation guide member installed on both sides of the connecting body and having a first concave and a convex on the outer surface along a rotating direction, And a second rotation guide member having a second concavo-convex portion formed on both sides thereof to be engaged with the first concavo-convex portion.

The first rotation guide member and the second rotation guide member are preferably fixed to each other so as to be rotatable by a fixing bolt.

It is preferable that the connecting arm member is capable of varying the rotational position in the up and down direction by forced rotation.

The lighting unit includes the lighting module having a plurality of LEDs and having comb-like heat radiating fins formed at an upper portion thereof, and a bracket connected to an end portion of the connection arm member and guiding the sliding movement of the lighting module along a horizontal direction .

It is preferable that the bracket includes a pair of sliding rail members arranged in parallel to each other and having a sliding groove formed on an inner side portion thereof and a pair of connecting members connecting both ends of the pair of sliding rail members to each other .

The sliding module may be formed on both sides of the lighting module so as to be slidably connected to the sliding groove.

Preferably, one of the pair of connecting members is detachably connected to the connecting arm member, and the other is detachably formed from the pair of sliding rail members.

It is preferable that a first positioning hole is formed in the pair of sliding rail members.

Preferably, the sliding member of the lighting module has a plurality of second positioning holes formed at even intervals along the longitudinal direction.

It is preferable that one of the first positioning hole and the plurality of second positioning holes is fastened to each other by a positioning bolt.

Preferably, the backlight body is provided with a mounting space in which a device electrically connected to the lighting module is installed, and a sliding cover for slidingly opening and closing the mounting space is provided.

Preferably, the connection body is formed in a hollow shape so as to fit the spout main body part, and is slidably installed along the spout main body part.

The present invention has the effect of adjusting the illumination position by varying the rotational position of the lighting module up and down at the top of the spout main body, thereby achieving a sophisticated lighting effect to match the road situation.

In addition, the present invention is advantageous in that the lighting module can be slidably moved in the bracket to adjust the horizontal position where the lighting is performed, and to substantially adjust the length of the connecting arm member.

In addition, the present invention has an effect that the lighting module can be detachably attached to the bracket and can be reinstalled in reverse, so that the lighting module can be variously applied to a small or medium-sized area.

In addition, the present invention has the effect of improving the workability due to the loss of bolts or bolt fastening according to the conventional bolt fastening system by using a sliding cover when opening and closing a device such as a ballast.

According to the present invention, the width of the road is measured, and the horizontal position of the lighting module and the vertical rotation position of the connecting arm member are adjusted in real time so that the measured width can be illuminated, It is possible to prevent the occurrence of an additional work due to the variation of the work area.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a street lamp capable of adjusting an illumination position of the present invention. Fig.
2A is a perspective view showing a rotation state of a connection portion according to the present invention.
FIG. 2B is a perspective view showing a rotation configuration of the connection arm member of FIG. 2A. FIG.
FIG. 2C is a perspective view showing the engaged state of the first and second rotation guide members. FIG.
3A is a perspective view showing an example in which the lighting module according to the present invention is slidably movable.
3B is a perspective view showing an example in which the lighting module is detachable.
Figure 4 is a perspective view showing the coupling relationship with the bracket and the lighting module according to the present invention.
5 is a perspective view showing an example in which a sliding cover is installed on the rim body.
Figs. 6A and 6B are views showing an example of the operation of the lateral streak of the present invention.
Fig. 7 is a view showing another example in which the illumination unit and the connection unit according to the present invention are configured as a pair.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a lighting lamp capable of adjusting an illumination position of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a rotation state of a connection arm according to the present invention, FIG. 2b is a perspective view showing a rotation structure of a connection arm member of FIG. FIG. 2C is a perspective view showing a state of engagement of the first and second rotation guide members, FIG. 3A is a perspective view showing an example in which the lighting module according to the present invention can be slidably moved, FIG. 3B is a perspective view showing an example in which the lighting module is detachable And FIG. 4 is a perspective view showing a coupling relation with the bracket and the lighting module according to the present invention.

Referring to FIGS. 1 to 2C, a streetlight capable of adjusting the illumination position of the present invention comprises a main body 100 having a substantially constant length, a connection part 200, and an illumination part 300.

The rim body 100 is spaced along the shoulder of the road and is formed of metal.

The connection part 200 is installed at the upper end of the rim body 100.

The connection unit 200 includes a connection body 210 detachably connected to the upper end of the rim body 100 and a connection member 210 installed on both sides of the connection body 210, And a second rotation guide member 220 formed in a U shape and having second concavities and convexities S2 formed on both sides thereof to be engaged with the first concavoconvexes S1, And a connecting arm member (240) having a connecting portion (230).

A pair of through holes 230a are formed on both sides of the second rotation guide member 230. [
Further, on both sides of the first rotation guide member 220 positioned inside the U-shaped second rotation guide member 230, through-holes 230a are formed to extend outward A pair of fixing bolts 260 are provided.
The nuts 261 are fastened to the pair of fixing bolts 260 protruding as described above.
The first rotation guide member 220 and the second rotation guide member 230 may be in close contact with each other depending on the degree of engagement of the nuts 261 fastened to the pair of fixing bolts 260, It can be done.
In addition, the connecting arm member 240 can be rotated up and down by forced rotation.

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Here, when the nut 261 is loosened from the fixing bolt 260, the first and second rotation guide members 220 and 230 can form a gap. That is, it loosens.
After the rotation position of the connection arm member 240 is changed, the nuts 261 are fastened and tightened to the fixing bolts 260 again so that the first and second rotation guide members 220, S1 and S2 are brought into close contact with each other, and the rotational position can be fixed.

The connection arm member 240 is formed in a U shape, and a plurality of radiating fins may be formed on the outer surface of the U-shaped connection arm member 240, though not shown in the figure.

In addition, since it is formed in a U-shape, it is possible to solve problems such as nodding of algae.

3A and 4, the lighting unit 300 according to the present invention includes the lighting module 320 having a plurality of LEDs and having comb-like heat radiating fins formed on the upper portion thereof, And a bracket 310 for guiding the sliding movement of the lighting module 320 along the horizontal direction.

The brackets 310 include a pair of sliding rail members 311 arranged in parallel to each other and having sliding grooves 311b formed on inner side surfaces thereof facing each other and opposite ends of the pair of sliding rail members 311 And a pair of connecting members 312 and 313 which are connected to each other.

In addition, a sliding member 321 slidably connected to the sliding groove 311b is formed on both sides of the lighting module 320. [

The connecting member 312 which is one of the pair of connecting members 312 and 313 is detachably connected to the connecting arm member 240 and the other connecting member 313 is connected to the pair of sliding members 312 and 313. [ And is formed detachably from the end of the rail member 311. [

The pair of connecting members 312 and 313 are formed in a C shape.

More specifically, the pair of sliding rail members 311 and one of the connecting members 312 are formed as a single body, and are formed in a U-shape as a whole.

The other connecting member 313 is formed in a C shape, and both ends of the connecting member 313 are configured to be fitted to end portions of the pair of sliding rail members 311, respectively.

A pair of elongated first positioning holes 311a are formed on both sides of the pair of sliding rail members 311.

The sliding member 321 of the lighting module 320 is formed with a plurality of second positioning holes 322 formed at even intervals along the longitudinal direction.

One of the first positioning holes 311a and the second positioning holes 322 is fastened to each other by the positioning bolts 330 so that the sliding position of the lighting module 320 is fixed.

Therefore, as shown in FIG. 3A, the lighting module 320 is capable of sliding position movement inside the bracket 310.

3B, a first fitting rod 312a is protruded from the end of the bracket 310 and a second fitting rod 241 is formed at the end of the connecting arm member 240 to form a fitting groove. Is formed.

Therefore, the first fitting rod 312a is fitted into the fitting groove of the second fitting rod 241, so that the entire lighting unit 300 can be detached from the connecting arm member 240, which facilitates replacement and installation.

5 is a perspective view showing an example in which a sliding cover is installed on the rim body.

Referring to FIG. 5, the lamp housing 100 according to the present invention is formed with an installation space 420a in which the device 10 electrically connected to the lighting module 320 described above is installed.

The case 420 in which the device 10 is disposed is formed in the installation space 420a and buried in the spout body 100.

A guide rail 421 is formed on both sides of the outer side of the case 420.

The sliding cover 410 is coupled to the case 420 so as to be slid along the guide rail 421.

And, although not shown in the drawing, the sliding cover 410 can be fixed through a fastening means such as a bolt in a state of sealing the case 420.

Therefore, in the present invention, when the device 10 is to be repaired, the sliding cover 410 can be simply opened and closed to facilitate maintenance.

Also, although not shown in the drawings, the sliding cover 410 may be slidably operated by a linear motor.

When the device 10 is abnormal or malfunctions, the controller checks an error signal therefrom. If an error signal is generated, the controller 420 moves the sliding cover 410 using the linear motor so that the case 420 is forcibly opened It is possible.

Figs. 6A and 6B are views showing an example of the operation of the lateral streak of the present invention. Fig.

FIG. 6A shows an example in which a streetlight according to the present invention is installed on a shoulder of a single lane road, and FIG. 6B shows an example in which the width of a single lane road in FIG. 6A is expanded.

In FIG. 6A, the illumination unit 300 according to the present invention maintains the initial installation angle at the top of the backlight body 100 by the connection unit 200.

In such a state, when the road 1 is extended as shown in FIG. 6B, the connection part 200 is rotated upward by a predetermined angle to vary the rotational position of the illumination part 300.

In addition, the illumination module 320 itself can be changed by horizontally moving the illumination position on the bracket 310.

Therefore, in the present invention, it is possible to implement the lighting unit 300 by adjusting only the up-and-down rotation position and the horizontal position so that the extended road 2 can be illuminated even when the road 1 is extended.

On the contrary, in the related art, when the width of the road is expanded due to the fixing angle of the lighting unit being fixed, it is necessary to install another streetlight, but the present invention has an advantage of not requiring a separate streetlight.

Fig. 7 is a view showing another example in which the illumination unit and the connection unit according to the present invention are configured as a pair.

Referring to FIG. 7, lighting units arranged along a direction opposite to each other may be configured to be rotated up and down independently from each other on the upper end of a single ridge main body according to the present invention.

A first rotation guide member having first concavities and convexities formed on both side surfaces thereof is formed at an upper end of the connection body.

And a pair of second rotation guide members which are concavo-convex coupled with the first irregularities are formed at an end of the connection arm member of any one of the connection portions.

And the second concave-convex portion is formed on the outer surface of the pair of second rotation guide members.

A pair of other second rotation guide members are formed at ends of the other connection arm member so as to be engaged with the other second unevenness.

Thus, the one and the other connecting portions can be individually adjusted in the up-and-down rotational position. Since the rotation method is the same as that described above, a description thereof will be omitted.

8 is a view showing another example of the bracket according to the present invention.

Referring to FIG. 8, one pair of sliding rail members is provided with one first positioning hole, and one pair of sliding members formed on both sides of the lighting module are also provided with one second positioning hole .

The first and second positioning holes are coupled to each other by positioning bolts.

Here, the connecting member connecting the ends of the pair of sliding rail members protrudes outwardly, and a fitting pipe formed with a fitting groove is protruded.

The fitting pipe is fixed to the end of the connecting bar which is bent at the upper end of the rim body and extends integrally.

Thus, the bracket having the lighting module according to the invention can be detachable at the end of the connecting bar.

Meanwhile, although not shown in the drawings, the connecting portion according to the present invention may include a rotating motor for forcibly rotating the connecting arm member up and down.

The rotating motor is driven under the control of the controller.

Further, the bracket according to the present invention may be provided with a linear motor which is driven to forcibly horizontally move the lighting module under the control of the controller.

An image sensor may be installed at the lower end of the bracket or the illumination module to acquire an image of the road and transmit the acquired image to the controller.

With this configuration, the image sensor transmits an image for the road to the controller, and the controller processes the image to calculate the width for the road.

If the road is constructed and the fogging of the road is varied, for example expanded, the controller calculates the width of the extended road from the image.

The controller then drives the lighting module to illuminate the roadway.

Here, the controller can distinguish the illumination area in the course of image processing of the road image.

Then, the controller drives the rotary motor and the linear motor to variably adjust the horizontal position and the vertical rotation position of the lighting module so that the lighting area covers the width of the extended road.

Therefore, in the present invention, there is an advantage that the up and down and the horizontal movement of the illumination unit can be automatically implemented according to the width of the road.

In addition, although not shown in the drawing, the connecting body according to the present invention may be formed in a hollow shape so as to fit the spout main body part, and may be installed to be slidable along the spout main body part.

That is, the vertical vertical level of the illumination unit can be variably controlled. Also, the elevating motor may be used to raise and lower the connecting body to adjust the elevating position.

With reference to the above construction and operation, the present invention adjusts the illumination position by varying the rotational position of the lighting module up and down at the top of the spout body, thereby achieving a sophisticated lighting effect to match the road situation have.

In addition, the present invention can achieve the effect of adjusting the horizontal position where the illumination is performed, and adjusting the length of the connecting arm member substantially by arranging the lighting module in the bracket so as to be able to slide and move.

Further, the present invention can be variously applied to a small or medium-sized lighting module by making the lighting module detachable from the bracket and re-installing the module.

Further, in the present invention, when a device such as a ballast is opened or closed, the use of a sliding cover can improve the workability due to the bolt loss or bolt fastening separation according to the conventional bolt fastening method.

According to the present invention, the width of the road is measured, and the horizontal position of the lighting module and the vertical rotation position of the connecting arm member are adjusted in real time so that the measured width can be illuminated, Can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100:
200: Connection
300:
310: Bracket
320: Lighting module

Claims (7)

An annular body portion having a predetermined length;
A connecting part installed on the spout main body so as to be adjustable in the rotational angle along the vertical direction; And
And a lighting unit installed at an end of the connection unit and guiding sliding movement of the lighting module,
The connecting portion
A connecting body detachably connected to an upper end of the spout main body,
A first rotation guide member installed on both sides of the connection body and having a first concave and a convex on an outer surface thereof along a rotation direction,
And a second rotation guide member formed in U shape and having second concavities and convexities formed on both sides thereof to be engaged with the first concavoconvexes,
Wherein a pair of fixing bolts protruding from both sides of the first rotation guide member are formed,
A pair of through holes through which the pair of fixing bolts pass are formed on both sides of the second rotation guide member,
Wherein a pair of nuts are fastened to each of the pair of fixing bolts passing through the pair of through holes so that the first rotation guide member and the second rotation guide member are fixed to each other,
The connection arm member is capable of varying the rotational position in the up and down direction by forced rotation,
The illumination unit includes:
The lighting module having a plurality of LEDs and having a comb-
And a bracket connected to an end of the connecting arm member and guiding the sliding movement of the lighting module along a horizontal direction,
The bracket
A pair of sliding rail members arranged in parallel to each other and having sliding grooves formed on an inner side surface thereof,
And a pair of connecting members for connecting both ends of the pair of sliding rail members to each other,
A sliding member is formed on both sides of the lighting module so as to be slidably connected to the sliding groove,
Wherein one of the pair of connecting members is detachably connected to the connecting arm member and the other is detachably formed from the pair of sliding rail members,
The pair of sliding rail members are provided with first positioning holes,
Wherein the sliding member of the lighting module has a plurality of second positioning holes formed at even intervals along the longitudinal direction,
Wherein one of the first positioning hole and the plurality of second positioning holes is fastened to each other by a positioning bolt,
Wherein the connection portion includes a rotation motor for forcibly rotating the connection arm member up and down,
The rotary motor is driven under the control of a controller. The bracket is provided with a linear motor which is driven to forcibly horizontally move the lighting module under the control of the controller. At the lower end of the bracket or the lighting module, An image sensor is provided to acquire the acquired image and transmit the acquired image to the controller, and when the width of the road is extended, the controller processes the image to calculate a width for the road, And the controller drives the rotation motor and the linear motor to variably adjust the horizontal position and the vertical rotation position of the illumination module so that the illumination area is extended And the width of the road is covered. Week.
delete delete delete delete The method according to claim 1,
In the spouting body portion,
An installation space in which a device electrically connected to the lighting module is installed,
And a sliding cover for slidingly opening and closing the installation space is installed.
The method according to claim 1,
The connection body is formed in a hollow shape to fit the spout body,
Wherein the light guide plate is installed slidably along the main body of the lamp.

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