WO2013166635A1

WO2013166635A1 - Lamp and method using optical disk to reflect led light source

Info

Publication number: WO2013166635A1
Application number: PCT/CN2012/075107
Authority: WO
Inventors: 石海莲; 魏德立; 臧今楠; 田联达; 曹福虹; 臧筑华; 杨永安; 张洪生; 李文锋; 孙德东; 雷斌; 杨奎; 姚凯; 卢嘉伟
Original assignee: 天津天星电子有限公司; 天津得圣太阳能科技有限公司; 天津基石科技服务有限公司; 臧筑华
Priority date: 2012-05-06
Filing date: 2012-05-06
Publication date: 2013-11-14

Abstract

A lamp using an optical disk to reflect an LED light source is formed of a thermal current vibration cylinder (5) and a support frame for positioning LED components and an incandescent lamp. An LED light source radiates a surface (6). The thermal current vibration cylinder (5) is elastically connected to the support frame. The lamp uses an optical disk to achieve one radiation point and multiple reflection points and implement vibration through thermal currents and comprises implementation manners such as a suspended type, a wall-mounting type, and a floor type, which are applicable to the fields of stage and indoor or outdoor decorative light, and also resources can be saved by using discarded optical disks.

Description

Lamp and method for reflecting LED light source by using optical disc

The utility model relates to a lamp and a method for reflecting an LED light source by using an optical disc, comprising a thermal air flow vibrating cylinder and a supporting frame for locating the LED component and the incandescent lamp, and realizing a multi-point reflection by using the optical disc; using the hot air flow to realize the vibration; can be widely applied to the stage , indoor and outdoor color decorative lighting, including hanging, wall-mounted, sitting, industrialized, standardized, serialized, general-purpose production, belonging to the field of lamps and LED light source applications.

Background technique

The current reflector lamps are single-point illumination of the light, single-point reflection, and the rotation of the casing is used to realize the rotation of the lamp. The electrical energy consumption is large, and the light effect is poor.

According to the invention, the light source is irradiated with multiple points at one point, and the LED is irradiated, the reflector vibrates, and the multi-face reflection forms a dynamic reflection light, which saves energy and reduces emissions, has a long transmission distance, has a good colorful effect, and has a long service life, and fully utilizes the used optical disc.

Summary of the invention

The utility model relates to a lamp and a method for reflecting an LED light source by using an optical disc, wherein the hot air vibrating cylinder and the supporting frame for locating the LED component and the incandescent lamp form a lamp, the LED light source illuminates the surface of the optical disk, and the hot air vibrating cylinder is elastically connected with the support frame, and realizes a little by using the optical disk. Multi-point reflection is illuminated; multi-faceted light is realized by multi-disc surface.

The invention has the following features:

1. The hot air turbulence cylinder consists of the upper disc group - upper venting plate - incandescent reflector - lower disc group - lower venting plate - side panel - side disc group.

2. The multi-faceted disc is distributed on the outer surface of the hot air vibrating cylinder.

DRAWINGS

Figure 1 is a schematic view of the overall structure.

Figure 1 is the support frame rod, 2 is the upper support frame connector, 3 is the spring, 4 incandescent lamp connector, 5 is the hot air flow vibrating cylinder, 6 is the disc surface, 7 is the LED spotlight device, 8 is the lower support Frame connector.

Figure 1 illustrates the following: A plurality of support bars 1 are tightened to form a support frame by the upper support frame connector 2 and the lower support frame connector 8; 4 incandescent lamp connector, using a chandelier metal pipe and a connection method and an upper support frame connector bolt Tightening, the outer wall of the hot air squib 5 is distributed on the disk surface 6. The upper and lower portions of the hot air squib 5 are circulated by the air vents of the upper and lower vents; the hot air squib 5 is suspended by the spring 3.

Figure 2 is a front view of an arcuate tube of the support bar 1.

11 of Fig. 2 is a connecting hole of the LED spotlight device 7, and 12 and 13 are ends that are fastened to the upper and lower support frame connectors. Head.

Figure 3 is a side view of an arcuate tube of the support frame 1.

11 of Fig. 3 is a connecting hole of the LED spotlight device 7, and 12 and 13 are ends which are fastened to the upper and lower support frame connectors.

Figures 2 and 3 illustrate the following:

The support rods 1 are distributed with holes, and the LED spotlight device is installed. The support rods are internally distributed with connecting wires.

Figure 4 is a perspective view of the upper support frame connector 2.

Figure 4 illustrates the following:

Figure 21, 21 and 22 constitute a support frame connector set, symmetrically manufactured, cast or machined; 23 is a distribution end hole for fastening the support frame rod, 24 is an incandescent lamp pole connecting eyelet, 25 is a spring positioning groove, 26 It is a wire volume chamber, 20 is a plywood fastener group eyelet, and the upper and lower support frame connector groups are bolted to fasten the support rod group of the distributed LED spotlight device 7.

Figure 5 is a perspective view of the hot air flow vibrating cylinder 5.

Figure 5 illustrates the following:

Figure 51 is the upper and lower venting eye groups, or distributed on the upper and lower optical discs; 52 is the hot air flow vibrating cylinder upper and lower bottom of the optical disk quilt, each disc surface tilt angle distribution, forming a plurality of planes of the plane 53 is the side of the hot air vibrating cylinder side of the disc, distributed on the side of the cylinder, a plurality of disc faces, regularly distributed or irregularly distributed; 54 is an incandescent reflector, using reflective material or using a disc; 55 is a spring-connected fastening end, The springs are bolted together.

Fig. 6 is a perspective view of the LED spotlight device 7.

Figure 6 illustrates the following:

Figure 71 is a concentrating cylinder, using an outlet small hole eye tube section; 72 is a condensing mirror, using a light transmissive resin or glass material; 73 is a light emitting diode, using a laser diode; 74 is a concentrating device sleeve, 75 It is a light-emitting diode base, 76 is a light-emitting diode pin, 77 is a connecting piece with the support frame rod 1, and the various components shown in FIG. 6 are assembled together, and are bonded to the eyelet or bolted, and the diode pin lead wire is connected. Distributed inside the hollow of the support rod.

Method of implementation

Supporting rod: This manual uses axially opposite support rods, on which the perforations are distributed, and the perforations are tightly connected to the LED spotlight device; the ends are fastened to the support frame connector.

Support frame connector: Metal casting or plastic parts, using the upper and lower splints to block the way.

Spring: Flexible spring with center hole at both ends and spring end hole as the terminal for fastening connection.

Hot air damper: Lightweight material, upper and lower ventilation, no holes on the side, LED spotlight device: Laser LED is used, distributed on the support rod, colorful combination or monochrome.

Support frame assembly:

1. Assemble the LED spotlight unit and the support rod.

2. Assemble the support rods of the LED spotlight unit with the support frame connector set to form the support frame.

3. Bond the hot air vortex tube to the upper and side side of the disc quilt and securely attach to the incandescent connector.

4. Fasten the hot air flow vibrating cylinder of the above bonded disc face group to the support frame by spring suspension.

5. Install the incandescent lamp.

6. Power-on experiment.

7. Fasten the connection of the disc under the hot air squib, adhesive or universal lamp cover. Installation of chandeliers, table lamps and wall-mounted luminaires:

This manual describes the chandelier method.

The bottom surface of the lower support frame connector is fastened to various lamp bases to realize the installation method of the desktop lamp.

Connect the upper and lower support frame connectors with the wall lamp suspension support brackets to realize the installation method of the wall-mounted lamps. Install in a variety of ways to ensure that the vibrating airflow tube is vertical.

Claims

WO 2013/166635 Claim PCT/CN2012/075107

1. A luminaire and method for reflecting an LED light source by using an optical disc, comprising a illuminating cylinder and a supporting frame for locating the LED component and the incandescent lamp, wherein the LED light source illuminates the surface of the optical disc, and the hot air squeezing cylinder is elastically connected with the supporting frame, and the optical disc is used. Achieve a little point of multi-reflection; use multi-disc surface to achieve multi-faceted reflected light.

2. A luminaire and method for reflecting an LED light source by using an optical disc, characterized in that: the hot air squeezing cylinder is from the upper disc group - the upper venting plate - the incandescent lamp reflecting cover - the lower disc group - the lower venting plate - the side panel - the side The disc group is composed.

3 A luminaire and method for reflecting an LED light source by using an optical disc, characterized in that: the plurality of optical discs are distributed on the outer surface of the hot air squeezing cylinder.