FI12326U1 - Lighting fixture - Google Patents

Description

LAMP

FIELD OF THE INVENTION

The invention relates to a lamp as defined in the preamble of claim 1.

BACKGROUND OF THE INVENTION

Linear lighting devices are known to utilize different light sources and structures to achieve linear light. The simplest linear lighting is often implemented with light sources such as led strip, led strip or led tube. The light from these light sources consists of small dotted LED components attached to a queue. It is known that linear light can also be implemented on a projector by illuminating optical fibers or a light guide rod or directly projecting light. It is known that the above methods make it difficult to obtain good, uniformly or controllably variable 360 ° linear light from the efficiency. The difficulty is partly due to the angle of the LEDs, which is approximately 120 °. When using linear light sources to illuminate an object where light is desired to open at more than 120 °, it is known to optically open the light: reflectors, lenses and diffusers. In practice, despite the use of optics, the true light angle does not change significantly from 120 °. Omnidirectional or nearly omnidirectional LED tubes are manufactured by attaching LED bar / ribbons around a circular sheath in a circular beam.

Fluorescent lamps are known to be cylindrical light sources designed to produce as uniform as possible or almost omnidirectional light. Fluorescent lamps or so called. LED fluorescent lamps have largely replaced traditional fluorescent lamps with the development of LEDs. Like fluorescent lamps, LEDs come in two standard sizes, T5 and T8, and have the same standard lengths as conventional fluorescent lamps. The light from the LED tubes comes from the LED components mounted on the curved surface of the circular cylindrical shell to open. A light-scattering opal tube is installed separately in front of the light sources to prevent glare from the LEDs. Despite their circular shape, the light from the LED tubes is not evenly distributed around the tube, since the light generated by the LEDs is often beamed, emitting more in one or two directions. The structure of the LED tube cannot be opened so that its light sources can be serviced or replaced. Like a fluorescent lamp, an LED tube is a recyclable electrical and electronic waste at the end of its life.

Light guide plates (LGPs) are known optical edge or edge and back light plates made of clear acrylic (PMMA). As is known, the light is directed to the surface of the plate by means of a machined pattern. Such patterning may be accomplished by laser, engraving, chemically, or the like. Various acrylic sheet patterning systems are known and used to illuminate thin sheet-shaped light elements such as displays, light panels, panels and enclosures. The narrow rod-like light guide plate can also provide linear light, but it is not known to produce uniformly radiating light with an opening angle of 360 °.

A light guide rod is a known, often acrylic, cylindrical rod whose sheath is illuminated by placing a light source at one or both ends of the rod. As is known, the optical properties of the rod can be affected e.g. In the casting step of the rod, by adding various refractive elements or light-colored components to the acrylic mass, by attaching a refractive material, such as a textured plastic film, to the rod, or by chemically treating the rod surface. By the methods listed above, the light is known to be directed to the surface of the rod casing unevenly and with poor efficiency. The light guide rods are known, for example, from Japanese Publication JP5940157, where they are shown mainly as a light source illuminating the light level. The publication image 3 of a series of images in rod-like light guides has a texture of the head to distribute the light supplied evenly over the length of the rod. As an alternative to point scoring (A), increasing the size of the points towards the opposite end (B) and densifying the points towards the opposite end (C) are shown. However, these points on the photoconductor rod are realized by separate surface films.

Various LED modules and LED lamps are known to be used in lighting and electronics. The COB LED module is a known single LED module consisting of a plurality of LED chips mounted on a printed circuit board (PCB) and connected or desired and covered, for example, with a silicone or plastic sheath. It is known that COB LED modules have soldering points for wiring connection required for electrical connection and mounting points for mounting screws / pins etc. for installation. The LED module can also be known to be attached to its backing by its substrate, for example by gluing. The electrical connection of COB LED modules is known to be soldered. During soldering, the wires are soldered to the connection points of the LED module. There is no known use of push fit battery contact probes, which are known for electronics testing and battery connection, to connect the COB LED module. In addition to spring-loaded coupling surfaces, pneumatic and magnetic coupling studs are known to exist. It is known that the design of COB LED lighting fixtures is such that the LED module is not intended to be replaced or requires extensive disassembly of the lighting fixture. Therefore, as a rule, the life of a COB LED module illuminated is known to end at the latest when the COB LED module ceases to function.

Reflectors are known to be used in luminaires for directing, limiting or enhancing the intensity of light. The simplest reflector of a linear cylindrical illuminating part is known to be a part which is mounted outside the light emitting element with an empty air space or pocket between the reflector and the light emitting element. It is known that the reflector can be mounted on the luminaire body or integrated into a sheath that protects or covers the light emitting element. It is known to use a cladding sheath as a light-filtering, diffusive. The reflector integrated in the sheath can be known to be mounted on or directly adjacent to the sheath surface and is known to be fixed so that the angle of light opening cannot be set or changed by the user.

PURPOSE OF THE INVENTION

In particular, it is an object of the invention to provide a novel luminaire and a method for providing a uniform and glare-free linear light having a preferred light angle of 360 ° that allows light to be uniformly or desiredly circumscribed by a cylindrical sheath or a limited light opening angle direction and allows simple replacement of the COB LED module as the light source of the luminaire or of the COB LED module as the light source and which, when used together and separately, eliminate some of the drawbacks of the prior art.

DESCRIPTION OF THE INVENTION

The linear luminaire of the invention, its mechanically patterned optical fiber optic rod, its LED module interchangeability, and its sector reflector are characterized by what is stated in the characterizing part of the enclosed protective claim 1.

The light guide rod is a mechanically machined optical acrylic rod, which may also be an acrylic tube. The idea of the invention is that the surface of the acrylic bar, like a photoconductor plate, is provided with a light directional pattern of 0.05 to 2 mm, which can be illuminated at either end of the rod, at one end or at any point. The patterning directs the light to the desired position on the cylindrical rod. Surprisingly, it has been found that the light guide rod does not have to be patterned around the bar to distribute light so that it opens uniformly around the bar shell 360 °. The patterning according to the invention may be accomplished by laser marking, engraving, printing, printing or the like.

The light guide rod according to the invention provides a non-conductive and mechanically workable linear, uniformly or controlledly variable 360 ° radiating cylinder. The solution according to the invention enables a more linear design of the linear illuminating device producing the light emitting around it, as opposed to using, for example, standard size LED light tubes. Dimensional variability applies to both the length and girth of the luminaire.

The sector reflector according to the invention delimits the light to a particular sector, the opening angle, and rotates it to set the direction of the light opening. In addition, the sector reflector acts as a reflector of light, amplifying the intensity of the light produced by the illuminator. Structurally, the sector reflector is integrated in the circular cylinder of the luminaire with a shield formed to form a pair which is as central as the light guide rod.

The interchangeability of the COB LED module according to the invention is implemented by special quick-mounting means, so that the switching wires to be soldered to the soldering points of the LED module are replaced by spring-loaded switching clamps mounted on the circuit board through which the LED module is supplied. The spring terminals and supply voltage connection wires are attached to the circuit board by soldering, pressing or similar connection. The spring terminals can also be replaced with other metallic contact surfaces, such as those commonly used in chip card readers. The replaceable COB LED module can be mounted against the spring terminals in the mounting frame or without a separate mounting frame. This enables the replacement of the normally consumable part of the luminaires, the COB LED light source module, quickly and simply without the need for special tools such as a soldering iron.

LIST OF FIGURES

The invention will now be described in detail with reference to the accompanying drawings, in which Figure 1 illustrates a linear luminaire according to the invention with a mechanically textured optical light guide rod, replaceable COB LED modules and a sector reflector, Figure 2A mechanically textured optical light guide rod, Figure 2D illustrates a mechanically textured optical light guide rod, Figure 3A shows a front sectional view of a linear lamp end, Figure 3B shows a sectional view of a linear lamp, Figure 4A illustrates a sector reflector 5A is a perspective view of the luminaire circuit board with its connector, viewed from the side of the retaining ring; 5B illustrates a side view of a luminaire circuit board with connectors that allow the COB LED module to be interchangeable.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 shows one linear luminaire illustrating the structure and function of the invention, assembled with a mechanically textured optical light guide rod, replaceable COB LED modules and a sector reflector. In the figure, a shield (2) is mounted between the end plugs (4) and a sector reflector (3) attached to the shield (2), as well as connecting wires (7) for light sources at both ends of the luminaire. The illustrated luminaire with sector reflector radiates in the area of the shield with an angle of light of> 120 ° and <360 °. The sector reflector (3) is secured to the sheath (2) by gluing, but other means of attachment are also possible. The luminaire can be provided, if desired, so that the sheath of the rod radiates around 360 °, using a shield (2) without an integrated sector reflector (3).

Figures 2A, 2B and 2C show some mechanically textured optical light guide rods (1) according to the invention, which may also be tubes. The shape of the light guide rods (1) and the tubes may also be non-circular.

Fig. 2A shows a circular acrylic optical light guide rod (1), the cylindrical curved surface of which is laser-patterned so that the light is evenly distributed over the entire length of the light guide rod (1) when the light source, COB LED module (5) . The patterns are software optimized and arranged on the surface of the rod (1) so as to compute in the longitudinal and width directions of the photoconductor rod (1) towards the end of the rod (1) opposite the light source, COB LED module (5).

In Fig. 2B, the scoring is optimized for densification towards the center of the photoconductor rod (1) such that light is distributed evenly along the longitudinal direction of the photoconductor rod (1) with light sources (5) at each end of the rod (1).

In Figures 2C and 2D, line engraving is used to form a selective illuminating surface on an optical light guide rod (1).

Fig. 3A shows a perpendicular section of the end of a linear luminaire viewed from the front of the luminaire device, in which the structure is assembled as follows: a mechanically textured optical light guide rod (1) is threaded into the shield (2). A retaining ring (9) is threaded around the mechanically patterned optical light guide rod (1) so that the protective sheath (2) is pressed over the retaining ring (9). The retaining ring has a retaining screw (10) which is tightened so that the mechanically patterned optical light guide rod (1), the shield (2) and the retaining ring (9) are locked together. The retaining ring (9) serves as a central support component for the luminaire structure. The luminaire is mounted on a wall, ceiling or desired surface by means of a retaining ring (9) to which a suitable fixture holder is attached. The retaining ring carries the sheath from its inner periphery, allowing rotation of the shield (2) and the sector reflector (3) attached thereto, adjustment of the illumination angle of the lamp, and a mechanically machined optical light guide rod (1) 360 °. In addition, the retaining ring (9) supports the shield (2) so that an air gap is left between the shield (2) and the mechanically textured optical light guide rod (1). At the ends of the mechanically machined optical light guide rod (1), an insulating ring (12) and a circuit board (6) are threaded around the rod so that the insulating ring (12) abuts against the retaining ring (9). The insulating ring (12) is made of an electrically insulating material such as plastic and insulates a short circuit of the spring terminals (8) attached to the circuit board (6). Attach the control rods (13) and the light source, the COB LED module (5), to the linear plug end plug (4). The end plug (4) is threaded against the circuit board (6) so that the plug covers the circuit board (6), the insulating ring (12) and the retaining ring (9) with its fasteners. The end plug (4) is locked into the retaining ring (9) by a spring lock (11). The guide rods (13) attached to the end plug (4) guide the light sources (5) and the spring terminals (8) attached to the circuit board (6) so that the spring terminals (8) are precisely aligned with the connection points of the light source (5). The end plug (4) with which the COB LED module (5) can be fixedly fixed to the end of the light guide rod (1) must be removed.

Fig. 3B shows a perpendicular sectional view of the end of a linear luminaire viewed from above the luminaire device, where the structure is assembled as shown above for Fig. 3A. The sectional pattern shows how the spring terminals (8) protrude from the circuit board (6) and press against the soldering points of the LED module (5), allowing the supply voltage to be applied to the light source (5). The holder ring (9) according to the figure is designed so that a separate mounting arm can be attached to it for mounting the lamp.

Figures 4A, 4B and 4C illustrate mechanically textured optical fiber optic rods (1) and sector reflectors (3) integrated into the shield (2) to illustrate the structure and operation of the invention. The sector reflector (3) is structurally fixed to the shield (2) or is an integral part thereof. The sector reflector (3) can be mounted on the inner or outer surface of the shield (2) and its size determines the angle of light of the lamp. By rotating the sector reflector (3) integrated in the shield (2), the desired light opening direction can be adjusted. If desired, the opening direction of the sector reflector (3) integrated in the shield (2) may also be locked so that the user cannot adjust the light opening direction. The sector reflector (3) further functions as a light reflecting surface. The sheath is made of acrylic (PMMA), polycarbonate, glass or similar light-transmitting material.

Figure 4A shows a sector reflector (3) attached by gluing to the outside of the shield (2).

In Figure 4B, the sector reflector (3) is mounted inside the shield (2).

In Fig. 4C, the sector reflector (3) is part of the shield (2), which makes the luminaire more compact.

Figures 5A and 5B illustrate a circuit board with terminals through which a COB LED module receives a supply voltage.

Fig. 5A shows a circuit board (6) viewed from the side of the retaining ring (9). The circuit board (6) is secured by soldering the connection cable (7) and the two spring terminals (8). In addition, the circuit board has openings (14) for the passage of the guide rods (13). A guide bar (13) aligned with the apertures (14) positions the circuit board (6) so that the spring terminals (8) of the circuit board (6) shown in Fig. 3B coincide with the connection points of the COB LED module (5).

Fig. 5B is a side view of a circuit board (6). The circuit board (6) is secured by soldering the connection cable (7) and the two spring terminals (8).

Above, some embodiments of the claimed invention have been described. Practical implementation may vary from what is stated herein and is still subject to protection requirements.

Components: 1. Mechanically textured optical fiber optic rod 2. Shield 3. Sector reflector 4. End plug 5. Light source, COB LED module (Citizen Electronics COB LED) 6. Circuit board 7. Connecting cable 8. Spring connector 9. Retaining ring 11. Retaining screw 11. Spring screw Insulating ring 13.0the handlebar 14. An opening for the handlebar

Claims (4)

PROTECTION REQUIREMENTS A luminaire comprising lighting components (1,2, 3, 5), electrotechnical parts (6, 7, 8, 12), a structural bearing part (9), protective parts (2 and 4) and fastening and guiding parts (9). , 10, 11, 13), characterized in that a mechanically machined optical light guide rod (1) or tube, which is acrylic and has a mechanically or laser-machined, specially marked, engraved, printed or printed surface, is an integral part of the luminaire for distributing the input light over the length of the photoconductor rod (1), the light source being a COB LED module (5) and including a quick mounting means for removably securing the COB LED module (5) to the end of the photoconductor rod (1). Luminaire according to protection claim 1, wherein the COB LED module (5) comprises a circuit board (6), characterized in that the COB LED module (5) is designed to be replaced by replacing the wires to be soldered at its soldering points with spring-loaded clamps 8) through which the COB LED module (5) is supplied with supply voltage. Luminaire according to protection claim 2, characterized in that it comprises a retaining ring (9) attached to the light guide rod (1) which forms a detachable attachment to the COB LED module (5). Luminaire according to protection claim 3, characterized in that it comprises a removable end plug (4) with which the COB LED module (5) can be fixedly fixed to the end of the light guide rod (1) when the end plug (4) is locked into the retaining ring (9).