KR101128409B1 - lighting methode and device utilizing beam spots - Google Patents

Abstract

According to the present invention, an illumination method and apparatus using a beam spot for landscape lighting is provided with a light emitting diode on one side of the barrel having a hollow, and provided with the optical lens for focusing the light irradiated from the light emitting diode. Beam generating modules having a light source unit and a substrate on which the light source units are installed; A head unit to which the beam generation module is rotatably installed; A driving unit installed in the head unit to reversely rotate the beam generating module; The light irradiated and split from the head part is projected, and is provided with a projection screen including a plurality of unit projecting bodies which are shaken by the movement of airflow and are located at different distances from the head part.

Beam, spot, lighting, light emitting diode, focusing, projection screen, unit projectile.

Description

Lighting method and device utilizing beam spots for landscape lighting

The present invention relates to a lighting method and a lighting apparatus, and more particularly, to a lighting method and apparatus using a beam spot for landscape lighting that can be landscape lighting using a beam spot.

In general, landscape lighting devices such as outdoor sports grounds, event venues, parks, roads, street trees, etc. have a structure in which the light source is installed at a relatively high position or installed on the ground to illuminate. Particularly, in the case of the event hall, the viewer's eyes are focused by blinking or dividing the light source and irradiating the specific area.

At the venue, the lights will flash or change colors to match the surrounding music or event atmosphere. Such lighting apparatuses include techno lamps, laser beams, moving arts, shaikas, beam lights, and the like. Among these lighting devices, the laser beam is distributed in various forms such as linear, circular, and square and used together with other lighting.

Korean Utility Model Registration No. 20-0440157 discloses a karaoke lighting device using a laser beam. The disclosed karaoke lighting equipment has a plurality of motors and a plurality of laser beams to create an appropriate atmosphere in response to sound and singing sounds according to the oscillator, and at the same time, various patterns of patterns are displayed in real time according to sound and beat with a single machine. Has

Lighting device using such a laser beam is irradiated to a fixed wall surface or the floor of the ceiling, it is difficult to have a three-dimensional illumination.

Japanese Laid-Open Patent Publication No. 2006-323006 discloses a laser illuminator and a decoration, and Japanese Laid-Open Patent Publication No. 2000-294018 discloses an apparatus lighting device. This apparatus lighting apparatus is provided with a curved reflector at the lower part of the irradiating apparatus, and has a structure of irradiating light to a predetermined area by irradiating a light source on the ground with the reflector. Appliance lighting apparatus having such a technical configuration can irradiate light in a wide area such as an event hall or a performance hall, but it is difficult to realize lively lighting because the reflector has a relatively fixed structure.

On the other hand, Japanese Laid-Open Patent Publication No. 2001-108907 discloses an illumination method using a laser light source, and Japanese Patent Application No. 1992-356188 discloses a street lighting apparatus. The street lighting device has a configuration in which the lighting device is installed on the top of the upright member of the support.

The lighting fixtures configured as described above may illuminate by illuminating light at an event or a roadside, but such lighting is difficult to expect a dynamic effect.

The present invention is to solve the problems described above, an object of the present invention is to provide a lighting method and apparatus using a beam spot for landscape lighting that can improve the dynamic characteristics of the lighting, such as event venues, street trees.

Another object of the present invention is to provide an illumination method and apparatus using a beam spot for landscape lighting that can realize the flicker of the beam by shaking the unit screen.

In order to achieve the above object, a beam spot lighting apparatus according to the present invention includes a beam generating module having a substrate on which light source units including at least one laser diode are installed, and a beam generating module installed on a front surface of the beam generating module. A head part including a beam separation part for dividing and irradiating a beam generated from the head;

The light irradiated and split from the head part is projected, and is characterized by having a projection screen including a plurality of unit projecting bodies which are shaken by the movement of airflow and located at different distances from the head part.

 In the present invention, each of the unit projection is made of a different color, the unit projection is divided into two or more incision grooves are formed to be able to move independently.

And the head portion is supported by a separate angle adjustment unit installed on the support can adjust the irradiation direction.

Alternatively, the beam spot lighting apparatus of the present invention for achieving the above object is provided with a light emitting diode on one side of the barrel having a hollow, a light source having optical lenses for focusing the light irradiated from the light emitting diode is installed in the barrel Beam generating modules having a unit and a substrate on which the light source units are installed;

A head unit to which the beam generation module is rotatably installed; A driving unit installed at the head unit to rotate the beam generating module forward and backward;

The light divided and irradiated from the head is projected, and is characterized by having a projection screen having a plurality of unit projections which are shaken by the movement of airflow and are located at different distances from the head.

In the present invention, the head portion adjacent to the light transmission window further comprises a shutter portion for intermitting the irradiation of light on the front surface of the beam generating module, the head portion is supported by a support bracket on the support.

Illumination method using the beam spot and the apparatus according to the present invention by focusing the beams of the light emitting diode to irradiate unit projections shaken by the air to selectively irradiate the unit projections, three-dimensional illumination is possible, various Color can be implemented. In particular, since the beam is irradiated to the moving projection screen, that is, the unit projections at different distances from the illumination device, the projected beam may be moved by moving the unit projections.

In addition, the illumination method and the apparatus using the beam spot according to the present invention can be implemented in a three-dimensional beam pattern by irradiating a beam sequentially or simultaneously by installing a plurality in a predetermined area. In addition, the lighting device can provide a natural sound or music, such as the sound of birds in the surroundings, can inspire a natural atmosphere, and can also be used as a landscape lighting device because it can emit the lighting device itself.

Illumination apparatus using a beam spot according to the present invention is to enable a three-dimensional illumination by irradiating a beam of various colors to the moving unit projection, an embodiment is shown in Figures 1 and 3.

Referring to the drawings, the illumination device 10 using the beam spot is supported by the angle-adjustable bracket 12 on the support 11 and is installed to be spaced apart from the head portion 20 for irradiating the beam spots a predetermined distance The screen 100 is provided.

The strut 11 has a height such that the beam spot irradiated from the head 20 does not affect the surrounding environment due to the irradiation.

The head part 20 installed on the bracket 12 for irradiating beam spots includes a housing 22 having a light transmitting window 21 and a sub rotatably installed inside the housing 22. The beam generating module 30 is installed in the housing 23, and the driving unit 24 is installed in the housing 22 to rotate the beam generating module 30.

The bracket 12 may be attached to the side of the support (11), and surrounds a part of the support (11) base 12b is formed with a band support groove (12a) and rotatable to the base (12b) And a support portion 12d installed on the support shaft 12c and the support shaft 12c to rotatably support the head 20.

The end of the support 12d has a configuration in which the housing 22 is pin-coupled, and the pin coupling portion may further include an angle adjuster for fixing an angle. The angle adjustment part may be formed of a ball flanger installed in the housing, and installed in the bracket 12 and coupled to a divided hole of the divider.

The beam generation module 30 includes a rotating substrate 31 rotatably installed in the housing 22 and a plurality of laser diodes 32 installed on the rotating substrate 31. In addition, a beam splitting unit 40 for dividing the beam irradiated from the laser diode 32 is provided on the front surface of the beam generating module 30. 3 and 4, the beam splitting unit 40 includes a first split lens 41 installed between the floodlight 21 and the beam generating module 30, and the first split lens. And a second split lens 42 rotatably mounted relative to 41. The second split lens 42 is rotated by the motor 42. The support of the second split lens 42 is rotated by a rotating member 42a supporting the second split lens 42 on a fixing member 41a supporting the first split lens 41 on the housing 22. It is installed so that the said rotation member 42a is rotated by the said motor 43. As shown in FIG. Here, transmitting the rotational force of the motor to the rotating member 42a may be transmitted by a belt or a gear which is a power transmission means.

5 and 6 show another embodiment of the head unit according to the present invention.

Referring to the drawings, the head portion 20 of the lighting apparatus using the beam spot is supported by the support 11 and the sub-housing 23 installed inside the housing 22 having the light-transmitting window 21 is rotatable. Is installed. The sub housing 23 is rotatably provided with a beam generating module 60 in which the light source unit 50 using the light emitting diode is installed, and the beam generating module 60 is rotatably installed by the driving unit. The beam generating module 60 includes a rotation disc 62 supported by a rotation shaft 61 rotatably installed in the housing 22, a driven gear 63 installed on the rotation disc, and a housing 22. The drive gear 65 provided in the drive shaft 64a of the motor 64 provided in () is engaged.

In the light source unit 50 using the light emitting diode, as shown in FIG. 6, the light emitting diode 53 is installed at one side of the barrel 52 having the hollow part 51, and the inside of the barrel 52 is disposed. At least one focusing lens 54 is formed to focus the light emitted from the light emitting diodes 53 to form a spot. The focusing light emitted from the light emitting diodes 53 may be combined with a focusing lens and a diverging lens to focus light in multiple stages.

Since the light source units focus beams irradiated from the light emitting diodes to form beam spots, the light source units irradiating red, blue, and green colors may be inlined or triangulated to implement various colors of the beam spots. Do.

 The light source unit is not limited to the above-described embodiment, and a plurality of light emitting diodes may form one beam spot using the optical lens.

A light reflection unit (not shown) may be further provided between the beam generation module 60 and the light transmission window 21 to reflect light emitted from the beam generation module 60 at various angles. The light reflecting portion is rotatably installed in the housing 22 of the spherical or cylindrical light reflecting member, the light reflecting member is driven at a predetermined rotational speed by a motor. The head unit may further include a controller (not shown) for irradiating a beam from the beam generation module. The control unit may simultaneously control a plurality of heads installed in the support to diversify the pattern of the projection light projected on the permeable screen to be described later.

7 and 8 show another embodiment of the head unit according to the present invention. The same reference numerals as in the above embodiments refer to the same components.

Referring to the drawings, the head portion 70 may form an air passage in a lower portion of the subframe 71 installed in the housing 22 supported by the support portion 12d, and may have a truncated cylindrical reflection having a reflective film formed on an outer circumferential surface thereof. The member 72 is provided. An auxiliary substrate 73 protruding to the outside of the lower end side of the reflective member 72 is provided, and the auxiliary substrate 73 is irradiated with light on an outer surface of the reflective member 72 to cover the housing 22. A light emitting diode 74 is provided for illumination that can be irradiated through. Here, the housing 22 is made of a translucent or transparent material so that light emitted from the light emitting diode 74 installed in the auxiliary substrate 73 can be transmitted. In the housing 22, a separate light transmission pattern may be formed to transmit light emitted from the light emitting diode 74.

The beam generating module 80 is installed on the upper surface side of the sub frame 71, and the beam splitting unit 80 supported by the beam generating module 80 and the subframe 71 is provided on the front side of the beam generating module 80. 90) is installed.

As shown in FIG. 8, the beam generation module 80 includes a module case 82 in which at least one of red, green, and blue laser diodes 81 is installed. The laser diode 81 may be formed in a plurality of pairs.

The beam splitting unit 90 splits the beam by relatively rotating the first beam splitting lens 91 and the second beam splitting lens 92, respectively, and a support frame 93 is installed in the subframe 71. The support frame 71 is rotatably provided with a first driven pulley 95 formed with a first hollow portion 94 through which light emitted from the laser diode 81 of the beam generating module 80 passes. The second driven pulley (95) has a support portion (96) inserted into the first hollow portion (94) thereof, and a second hollow portion (97) through which the beam irradiated from the laser diode (81) is formed. The driven pulley 98 is rotatably installed. A first beam split lens 91 is provided at an end of the first driven pulley 95 to block an end side of the first hollow part 94, and an end of the support 96 of the second driven pulley. A second beam split lens 92 is provided to block the end side of the second hollow part 97.

The sub-frame 71 is provided with a driving unit for driving the first and second driven pulleys 95 and 98. The driving unit includes a motor 100 having a driving pulley 99 installed on a rotation shaft. The driving pulley 99 and the first and second driven pulleys 95 and 98 are fastened by a belt to transmit power. Here, the first and second driven pulleys 95 and 98 are preferably formed in different diameters so that relative rotation may be performed when the motor rotates. The drive pulley may be made of a double drive pulley, their diameter may be formed differently.

The head unit further includes a cooling unit 110 for cooling the laser diode and the motor. The cooling unit 110 is installed on an auxiliary substrate 73 supported by the reflecting member 72 and an duct 112 having an end portion corresponding to an inlet 111 formed in the housing 22, and the duct ( The blower 113 is installed inside the 112 is provided. In addition, a discharge port 114 is formed at one side of the housing 22, that is, the side adjacent to the duct 112, through which the air cooled by the laser diode is discharged after being introduced through the inlet 111.

On the other hand, the housing 22 is provided with a music playback unit 120 for listening to the sound of the animal or music, such as birds, insects, etc .. The music reproduction unit 120 includes an MP3 121 and a speaker 122 for playing the music reproduced therefrom. The speaker 122 is not limited to being installed inside the housing 22, but may be separately installed on a support to reproduce music reproduced from the MP3 121 installed inside the housing 22. And a timer may be provided so that the music playback unit 120 can hear the intermittent sound of birds or insects.

The projection screen 100 is a projection of the light divided from the head portion is projected, and is provided with a plurality of unit projections 101 which are shaken by the movement of the air flow and are located at different distances from the head portion. The projection screen 100 is installed in the three-dimensional space, and includes a support member 102 and the unit projection body 101 installed on the support member 102. The unit projection body 101 may be made of an elastic member that is elastically deformable with a small force, and may have a relatively wide leaf surface portion 101a so that the beam spot can be easily formed. The unit projections 101 are staggered from each other so that a portion of the beam spot irradiated from the head portion can be located at a different distance from the head portion. In addition, the unit projection body 101 may be formed with a cutting groove (not shown) for dividing so that the shaking by the air flow can be made smoothly. The projection screen is not limited to the above-described embodiment, and roadside trees, garden trees, building structures, sculptures, and the like may be used.

An illumination method using a beam spot configured as described above includes a beam spot forming step of forming beam spots by using a light source unit having optical lenses installed in the barrel by emitting a light emitting diode to one side of the barrel having a hollow; A beam spot projection step of projecting beam spots formed by the light source unit onto a projection screen formed by three-dimensionally arranged unit projections, and in the projection step, the beam spots may be irradiated intermittently. In the beam spot projection step, a plurality of projection screens 100 are prepared, and the projection screens are continuously or discontinuously irradiated or sequentially irradiated to continuously or discontinuously irradiate the projection screens to implement a projection image. It may further include.

And a beam spot moving step of rotating or tilting the light source units to rotate or continuously or discontinuously move the beam spots. The beam spot movement step may be rotated or transported in a linear direction in the circumferential direction, and then disappeared and generated again.

The method using the same of the lighting apparatus using the beam spot according to the present invention configured as described above is as follows.

In a state in which the head portion 20 is installed on the support 11 that is installed to face the projection screen 100, the projection screen through the light-transmitting window 21 from the light source units 50 of the head portion 20. 100) irradiate the beam spot. Here, the beam spots focus beams irradiated from the light emitting diodes 53 on one side of the barrel 52 in multiple stages using focusing lenses, which are optical lenses installed on the barrel 52, to provide a beam having a relatively high density of light. Can be formed.

When the beam having a high density is projected on the projection screen 100 as described above, the beam spots are respectively projected on the unit projection body 101. Since each unit projection body 101 is located at a different distance from the head portion, the projection pattern of the beam spot maintains the three-dimensional pattern. In this state, when airflow, ie, wind, is applied to the projection screen 100, the unit projections 101 are shaken to move between the unit projections 101 or adjacent unit projections. You can expect a moving effect. In particular, when a projection screen provided with the unit projection body 101 is installed outdoors, when an airflow such as wind is generated, each unit projection body 101 may be shaken and an effect such as a star light may be expected.

When the beam generating module 60 in which the light emitting diode light source unit is installed is rotated by using the driving unit, the beam spots rotate in a circle. At this time, the beam spots irradiated to the unit projectile 101 are adjacent to the unit projecting body. It moves to the (101) side. In this case, the beam spots may move away from or approach the head part according to the position of the unit projectile 101, thereby improving stereoscopic feeling.

On the other hand, when the beam source of the head portion 20 is made of a laser diode, as shown in Figs. 3 to 7 the beam irradiated from the laser diode is divided by the beam splitting unit 40 or 90 to the projection screen 100 Is investigated.

As shown in FIG. 8, the beam splitting unit 90 rotates the first and second driven pulleys 95 and 98 by one motor so that the first and second beam split lenses 91 supported by them are rotated. 92, the beam is moved in the divided state. In addition, since the light irradiated from the light emitting diode 74 is reflected through the reflecting member 72 and passes through the translucent housing 22, the head portion 20 emits the housing 22 of the head portion 10. The effect of landscape lamps can be obtained.

In addition, since the cooling unit 110 is installed in the head part 20, the laser diode or the light emitting diode may be prevented from deteriorating. That is, the outside air sucked by the blower 113 installed in the duct 112 installed adjacent to the inlet 111 is discharged through the outlet 114 after cooling the laser diode or the motor, so that the inflow and exhaust of air By partitioning, the cooling effect can be maximized. In addition, since the music reproducing unit 120 capable of reproducing music is installed in the housing 20, the music can be played to people when used as a landscape lighting device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Lighting method and apparatus using the beam spot of the present invention is widely applicable to the lighting of the event venue, outdoor concert hall, park and the like.

1 is a perspective view showing a lighting apparatus using a beam spot for landscape lighting according to the present invention,

Figure 2 is a perspective view showing a state in which the head portion is installed in the support according to the present invention,

3 is an exploded perspective view of the head portion,

4 is a cross-sectional view of the beam splitter showing the body;

5 is a partially cutaway perspective view showing another embodiment of a lighting apparatus using a beam spot for landscape lighting according to the present invention,

6 is a cross-sectional view showing an extract of the light source unit shown in FIG.

7 is a sectional view showing another embodiment of the head unit according to the present invention;

8 is an enlarged cross-sectional view showing an extract of the head shown in FIG.

Claims (7)

A beam generation module having a housing, a substrate installed in the housing and having light source units including at least one laser diode; and a beam generated in front of the beam generation module to generate a beam generated from the beam generation module. A head unit including a beam splitting unit for dividing and irradiating; The projection light split from the head is projected, and is provided with a projection screen including a plurality of unit projections which are shaken by the movement of airflow and are located at different distances from the head. Each of the unit projectiles is made of different colors, and the unit projectiles have a relatively wide blade surface to form a support member and a beam spot, and are divided by an incision groove to activate shaking by airflow. Lighting device using a beam spot for landscape lighting characterized by. delete The method of claim 1, The beam splitting unit is provided with a support frame on a subframe of the head portion, and a first driven pulley rotatably provided with a first hollow portion through which light emitted from the laser diode of the beam generating module passes. A second driven pulley rotatably provided with a supporting portion inserted into the first hollow portion of the first driven pulley and having a second hollow portion through which the beam irradiated from the laser diode passes, and at an end of the first driven pulley A first beam splitting lens is provided to block an end side of the first hollow portion, and a second beam split lens is installed on an end side of the supporting portion of the second driven pulley to block the end side of the second hollow portion. A jaw using a beam spot for landscape lighting, characterized in that provided with a drive unit installed in the frame to drive the first and second driven pulleys. Device. delete The method of claim 1, The housing is made of a semi-transparent body, a reflecting member is installed in the lower part of the sub-frame, the light emitting diode is installed on the substrate provided at the lower end of the reflecting member so that the light emitted from the light emitting diode is reflected on the reflecting member and irradiated to the housing Lighting device using a beam spot for landscape lighting characterized by. delete delete

Images