This application claims priority to Chinese Patent Application No. CN201611041042.5, filed on Nov. 22, 2016.
The present invention relates to lighting apparatus field, with particular emphasis on an LED strip light.
In ordinary daily life, all kinds of lighting apparatus can be seen everywhere, such as fluorescent lamps, street lamps, table lamps, artistic lamps and so on. In the above-described lighting apparatus, the tungsten bulb is traditionally used as a light-emitting light source. In recent years, due to the ever-changing technology, light-emitting diode (LED) has been used as a light source. Moreover, in addition to lighting apparatus, for the general traffic signs, billboards, headlights etc., light-emitting diode (LED) has also been used as a light source. The light-emitting diode (LED) as a light source has the advantages of energy-saving and greater brightness. Therefore, it has been gradually common.
With the popularity of LED lamps, more and more occasions began to use LED lamps. For the increasingly common use of LED strip lights, its installation has become the focus of attention.
The drawings described herein are intended to promote a further understanding of the present invention, as follows:
The present application is illustrated by way of the following detailed description based on of the accompanying drawings. It should be noted that illustration to the embodiment in this application is not intended to limit the invention.
Referring to
The strip-shaped lamp holder 10 includes a first mounting surface 11 and a second mounting surface 12 which are adjacent and perpendicular to each other, and two light source slots respectively set at the radial free ends of the first and second mounting surfaces 11, 12, a lampshade connection edge 15 perpendicular to the second mounting surface 12, a light-barrier reflective strip 16 provided on the free side of the lampshade connection edge 15, a first lampshade groove 17 provided on the lampshade connection edge 15, a second lampshade groove 18 provided on the first mounting surface 11. The strip-shaped lamp holder 10 can be made of a metal excellent in heat dissipation performance, such as an aluminum alloy or an aluminum-magnesium alloy. The first and second mounting surfaces 11, 12 are different mounting surfaces which can be respectively used when the LED strip light 100 is installed in a different environment, so that the exit light of the LED strip light 100 can be emitted to a different area through different surfaces, for example, when the LED strip lamp 100 is used on a shelf, the first mounting surface 11 is mounted in conformity with the laminates of the shelf, and when the LED strip light 100 is used for the vertical freezer, the second mounting surface 12 will be fitted to the post of the vertical freezer. The first and second mounting surfaces 11, 12 both are flat so as to facilitate installation, and the length of the cross-section of the first mounting surface 11 is greater than that of the second mounting surface 12 to assembly the light source module 20. The first and second mounting surfaces 11, 12 are respectively provided with a mounting groove 111, 121 in the extending direction thereof, one of the two mounting grooves 111, 121 is a U-shaped groove and another is V-shaped groove. In the present embodiment, the mounting groove 111 provided in the first mounting surface 11 is a U-shaped groove, and the mounting groove 121 provided in the second mounting surface 12 is a V-shaped groove. The two light source slots 13 are provided for inserting the light source module 20, and the structure is a groove for inserting the following circuit board 21 included in the light source module 20. The angle between the light source mounting surface formed by the two light source slots and the first mounting surface being an acute angle θ between 30 and 40 degrees. The light source mounting surface formed by the two light source slots 13 is the plane in which the circuit board 21 is located, and the angle between the plane and the first mounting surface 11 is an acute angle. In order to apply the LED strip light 100 to a special environment, i.e., cabinet lighting, the angle between the plane and the first mounting surface 11 should be limited to between 30 degrees and 40 degrees, then excellent light distribution effect can be achieved. In order to protect the light source module 20 and to achieve a certain light effect such as a polarizing or line light source, the strip-shaped lamp holder 10 is provided with the lampshade connection edge 15 extending vertically from the second mounting surface 12 so that the lampshade connection edge 15, the lampshade 40, and the first and second mounting surfaces 11, 12 may form an inner cavity to set and protect the light source module 20. The lampshade connection edge 15 serves to increase the cross-sectional area of the inner cavity. When the length of the cross-section of the first and second mounting surfaces 11, 12 is large enough, the shade connection side 15 may not be used. The light-barrier reflective strip 16 is provided on the free side of the lampshade connection edge 15, and the length of the cross section of the first mounting surface 12 is larger than the length of the cross section of the second mounting surface, and the angle between the light source mounting surface and the first mounting surface 11 is between 30 and 40 degrees, so that the exit light of the light source module 20 can be is emitted toward the second mounting surface 12. In order to prevent glare, the light-barrier reflective strip 16 needs to keep out the glare to avoid discomfort the glare into the human eye and then avoid discomfort. The angle between the light-barrier reflective strip 16 and the first mounting surface 11 is an acute angle β less than 25 degrees. Since the angle θ between the light source mounting surface and the first mounting surface 11 is between 30° and 40° and the LED strip light 100 is used for cabinet lighting, when the angle β between the light-barrier reflective strip 16 and the first mounting surface 11 is less than 25 degrees, then most of the glare can be prevented. No matter what the user observe the goods displayed within the cabinet from any perspective, the glare can't enter into the human eye and then shopping experience can be improved for people. The first lampshade groove 17 is provided on side of the free end of the lampshade connection edge 15 and the second lampshade groove 18 is provided on one side of the free end of the first mounting surface 11, the first and lampshade grooves 17, 18 are used to insert the lampshade 40, and it is conceivable that the first and lampshade grooves 17, 18 should be respectively located on outside of the two light source slots 13.
The light source module 20 includes a circuit board 21 and a plurality of LED chips 22 arranged in an axially spaced arrangement along the lamp holder. The circuit board 21 is well known in the art for electrically connecting with the plurality of LED chips 22. The circuit board 21 includes various functional wires and even some electronic components such as transistors, diodes, resistors, etc., so that the plurality of LED chips 22 can operate normally. The LED (Light Emitting Diode) chip 22 serves as a light source for emitting light. It is contemplated that each LED chip 22 is a point light source for uniform lighting at the exit angle formed by the primary encapsulation of the LED chip. In the present embodiment, the LED chips 22 are arranged in a plurality of rows and equally spaced and the LED chips 22 are provided on the circuit board 21.
Please also referring to
The laminar mounting clip 30 includes a blocking portion 35 extending vertically from one end of the laminar mounting abutment plate 33 and at least one laminar mounting hole 36 mounted on the laminar mounting abutment plate 33. When mounting the strip-shaped lamp holder 10, at first, the fastener, such as a screw, should pass through the layer mounting hole 35 and be fastened on the laminates, and then the strip-shaped lamp holder 10 is clamped into the laminar mounting clip 30 according to the way as described above. The blocking portion 35 can prevent the false engaging position of the strip-shaped lamp holder 10 and can suspend the laminar mounting clip 30 and the strip-shaped lamp holder 10 to a device such as the arm on the shelf.
The lampshade 40 includes a light-emitting portion 41, and two insertion portions 42 respectively provided on both sides of the light-emitting portion 41 which is a plate type lampshade made of a translucent material. The cross-sectional shape of the light-emitting portion 41 is that the side of the contour line of the light-emitting portion 41 which is in contact with the light-barrier reflective strip 16 is tangent to the light-barrier reflective strip 16. The side of the contour line of the light-emitting portion 41, which is in contact with the second lampshade groove 18, is tangent to the second lampshade groove 18. The side of the contour line of the light-emitting portion 41 is in contact with the light-barrier reflective strip 16 and the outer end of the second lampshade groove continuously transits. The structure of the LED strip light 100 is made more beautiful by the structure of the light emitting portion 41 as described above, and the light emitting portion 41 is further moved away from the light source module 20 to achieve the purpose of forming a line light source. When the LED strip light 100 works, even one luminous LED chip 22 will not be seen from the outside of the light.
As described above, as the LED strip light 10 includes the first and second mounting surfaces 11, 12 and U-shaped and V-shaped mounting groove 14 respectively installed in the first and second mounting surfaces 11, 12, it is easier to install the LED strip light 100 and can be more installations. Meanwhile, as the angle between the light source mounting surface and the first mounting surface 11 is an acute angle between 30 to 40 degrees, the LED strip light 100 is more suitable for cabinet lighting such as shelves laminates, vertical freezers, horizontal freezers, etc.
Referring to
The horizontal cabinet U-shaped groove engaging portion 301 includes a horizontal cabinet transition portion 3011 vertical to the horizontal cabinet mounting abutment plate 302, and an L-shaped structure 3012 connecting with the horizontal cabinet transition portion 3011. One side of the L-shaped structure 3012 is connected to the horizontal cabinet transition portion 3011 and the other is inserted into the U-shaped groove of the strip-shaped lamp holder 10.
And same as the laminar mounting clip 30, the height of the sleeper transition portion 3011 can be set according to the actual requirement such as the thickness of the first mounting surface 11 and the like. In addition, since the horizontal cabinet U-shaped groove engaging portion 301 is clamped into the U-shaped groove, a support function may be provided. Since the horizontal cabinet V-shaped groove engaging portion is clamped into the V-shaped groove, a buckle function may be provided. It is also possible to adjust the angle of the first mounting surface 11 with respect to the horizontal cabinet mounting abutment plate 303 by adjusting the height of the horizontal cabinet transition portion 3011 so that the angle of the first mounting surface 11 with respect to the one side of the horizontal cabinet can be adjusted, and then the light emitting direction of the LED strip lamp 100 with respect to the one side of the horizontal cabinet can further be adjusted. The horizontal cabinet V-shaped groove engaging portion 302 includes a horizontal cabinet engaging edge connecting with the horizontal cabinet connecting portion 303. The angle between the horizontal cabinet engaging edge and the horizontal cabinet connecting portion 303 is less than or equal to 90 degrees, and the horizontal cabinet engaging edge is clamped into the V-shaped groove.
The horizontal cabinet mounting abutment plate is coupled to the first mounting surface of the strip-shaped lamp holder 10 and includes a horizontal cabinet spring lamination 3031 extending toward the first mounting surface 11. The horizontal cabinet spring lamination 3031 abuts against the first mounting surface 11. The horizontal cabinet spring lamination 3031 is mounted on the horizontal cabinet connecting portion 304, and the horizontal cabinet connecting portion 304 is coupled to the second mounting surface 12 of the strip-shaped lamp holder 10.
Further, the horizontal cabinet mounting clip 300 further includes a blocking portion 305 extending vertically from one end of the horizontal cabinet mounting abutment plate 303, and at least one horizontal cabinet mounting hole 306 mounted on the horizontal cabinet mounting abutment plate 303. The horizontal cabinet mounting hole 306 and the horizontal cabinet U-shaped and V-shaped groove engaging portions 301, 302 are respectively located on both sides of the blocking portion 305. It is well known that, due to the structure of the horizontal freezer itself, the horizontal freezer generally has a push-pull freezer flip and the edge of the freezer cover is opaque. The opaque portion of the freezer flip can be partly overlapped with the horizontal cabinet mounting hole 306 so that it is easy to install, meanwhile the position of the blocking portion 305 can be appropriately adjusted to adjust the position of the entire LED strip light 100.
As shown in
The U-shaped groove engaging hook 401 is hook up in the U-shaped groove of the strip-shaped lamp holder 10. The light-barrier engaging hook 402 is hook up at the free end of the light-barrier reflective strip 16. The first post mounting abutment plate 403 is fitted to the first mounting surface 12 of the strip-shaped lamp holder 10. The second post mounting abutment plate 404 is fitted to the second mounting surface 12 and includes a post spring lamination 405 extending toward the second mounting surface 12. The post spring lamination abuts against the second mounting surface so that the strip-shaped lamp holder 10 can be engaged with the position between the U-shaped groove hook 401 and the light-barrier engaging hook 402 and the post spring lamination 405. The strip-shaped lamp holder 10 can be prevented from loosening due to the elasticity of the post spring lamination 405.
As shown in
Referring again to
It is further noted that the “convex” and “concave” of the first convex lens exit surface 5042 and a second convex lens exit surface 5043 is defined with respect to the optical axis of each of the surface 5023, and the direction of the light determines the convergence or divergence direction of the lens.
The incident surface 5041 may be a plane such that the incident angle of the incident light is regular to design the light exit conveniently.
The arc length and the radius of curvature of the cross section of the contour line of the first convex lens exit surface 5042 perpendicular to the optical axis surface 5023 are larger than that of the corresponding contour line of the second convex lens exit surface 5043 and the irradiation distance of the light emitted from the first convex lens exit surface 5042 is smaller than that from the second convex lens exit surface 5043. Referring to
The third concave lens exit surface 5044 is used to diffuse the light arriving at a further distance from the light source module 502 for compensating the area where the second convex lens exit surface 5043 fails to provide sufficient light while the polarizing lens 504 may also use the light of the edge of the LED chip 22. The light emitted from the third concave lens exit surface 5044 is emitted to the side of the second mounting surface 12.
It should be noted that the arcs on the first convex lens exit surface 5042, the second convex lens exit surface 5043, and the third concave lens exit surface 5043 may be a smooth curve or may be connected with a plurality of curves.
It should be noted that the term “arc length” mentioned in the present invention means the length of the curve of the contour line of the first convex lens exit surface 5042 and the second convex lens exit surface 5043 which are intersected to the cross section of the polarizing lens 504 along the optical axis surface 5041. Similarly, the “radius of curvature” mentioned in the present invention means the radius of curvature of the contour line. In the present embodiment, the polarizing lens 504 is an elongated shape, the cross-section of the vertical optical axis surface 5041 is a cross section of the polarizing lens 504. The arc length and the radius of curvature of the cross section of the contour line of the first convex lens exit surface 5042 perpendicular to the optical axis surface 5023 are larger than the arc length and the radius of the corresponding contour line of the second convex lens exit surface 5043, and the light collection power of the second convex lens exit surface 5043 is smaller than that of the first convex lens exit surface 5042. It is conceivable that taking the same irradiation distance into consideration, the smaller the irradiated area from the light source with higher light collection is, the stronger the light energy per unit area is. And the light beam has a divergence, so the farther the irradiation distance is, the larger the irradiation area is. That makes the light energy dispersion. It can be seen that the light source with strong light collection can compensate for the energy dispersion caused by long-range irradiation.
The above disclosure has been described by way of example and in terms of exemplary embodiment, and it is to be understood that the disclosure is not limited thereto. Rather, any modifications, equivalent alternatives or improvement etc. within the spirit of the invention are encompassed within the scope of the invention as set forth in the appended claims.
Number | Date | Country | Kind |
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201611041042.5 | Nov 2016 | CN | national |