Source: http://www.google.es/patents/WO2014202380A1?cl=en
Timestamp: 2018-01-18 18:19:00
Document Index: 232078579

Matched Legal Cases: ['art 2', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'art 3', 'art 3', 'art 3', 'arts 3', 'arts 3', 'arts 3', 'art 3', 'art 2', 'art 2', 'art 2', 'art 3', 'art 3', 'art 34', 'art 3', 'art 34', 'art 34', 'art 3', 'art 3', 'art 3', 'art 3', 'art 34', 'arts 3', 'arts 3', 'art 34', 'art 34', 'art 3', 'art 3', 'arts 3', 'art 2', 'arts 2', 'art 2', 'art\n3', 'art\n31']

Patente WO2014202380A1 - Lens for illuminating device and illuminating device having said lens - Google Patentes
The present invention relates to a lens (100) for an illuminating device and an illuminating device having a lens of the above mentioned type, wherein the lens (100) comprises a bottom plate (1) and at least one optical part (2) formed on the bottom plate (1), wherein the lens (100) further comprises...http://www.google.es/patents/WO2014202380A1?cl=en&utm_source=gb-gplus-sharePatente WO2014202380A1 - Lens for illuminating device and illuminating device having said lens
Número de publicación WO2014202380 A1
Número de solicitud PCT/EP2014/061451
También publicado como CN104235754A, EP3011809A1, US9629247, US20160143146
Número de publicación PCT/2014/61451, PCT/EP/14/061451, PCT/EP/14/61451, PCT/EP/2014/061451, PCT/EP/2014/61451, PCT/EP14/061451, PCT/EP14/61451, PCT/EP14061451, PCT/EP1461451, PCT/EP2014/061451, PCT/EP2014/61451, PCT/EP2014061451, PCT/EP201461451, WO 2014/202380 A1, WO 2014202380 A1, WO 2014202380A1, WO-A1-2014202380, WO2014/202380A1, WO2014202380 A1, WO2014202380A1
Inventores Xiongjie CHENG, Zuzhi WANG, Aimin Lin, Tingming LIU
Solicitante Osram Gmbh
Citas de patentes (4), Otras citas (1), Clasificaciones (13), Eventos legales (3)
WO 2014202380 A1
The present invention relates to a lens (100) for an illuminating device and an illuminating device having a lens of the above mentioned type, wherein the lens (100) comprises a bottom plate (1) and at least one optical part (2) formed on the bottom plate (1), wherein the lens (100) further comprises at least two assembly parts (3) that are position-fixedly formed on the bottom plate (1), and the assembly parts (3) are configured to be respectively aligned with assembly positions (41) on a circuit board (4) of the illuminating device and configured to allow to be soldered to the circuit board (4).
A lens (100) for an illuminating device, the lens (100) comprising a bottom plate (1) and at least one optical part (2) formed on the bottom plate (1), characterized in that the lens (100) further comprises at least two assembly parts (3) that are position-fixedly formed on the bottom plate (1), and the assembly parts (3) are configured to be respectively aligned with assembly po¬ sitions (41) on a circuit board (4) of the illuminating device and configured to allow to be soldered to the circuit board (4) .
The lens (100) according to Claim 2, characterized in that the assembly parts (3) are formed integrally with the bottom plate (1) as one piece.
The lens (100) according to Claim 1 or 2, characterized in that the assembly part (3) is configured to allow the lens (100) to be mounted to the circuit board (4) through surface mount technology.
The lens (100) according to Claim 3, characterized in that the assembly part (3) is formed in the bottom plate (1) through insert moulding process.
The lens (100) according to Claim 4, characterized in that the assembly part (3) is partially encapsulated in the bottom plate (1) .
The lens (100) according to Claim 5, characterized in that a thermal insulation layer (31) is provided on a section of the assembly part (3) that is encapsulated by the bottom plate (1) .
The lens (100) according to Claim 6, characterized in that the thermal conductivity of the thermal insulation layer (31) is less than 0.5 W/ (m*K) .
8. The lens (100) according to Claim 5, characterized in that the assembly part (3) is configured to have a U- shaped section profile, wherein the U-shaped assembly part (3) includes a first landing leg (32), a second landing leg (33), and a connecting part (34) connected between the first landing leg (32) and the second land¬ ing leg (33), wherein the first landing leg (32) is configured as a part encapsulated by the bottom plate (1) .
9. The lens (100) according to Claim 8, characterized in that the U-shaped assembly part (3) is configured in such a manner that after fixation onto the bottom plate (1), all the parts, with exception of the first landing leg (32), are separated from the bottom plate (1) .
10. The lens (100) according to Claim 8, characterized in that the assembly part (3) is fixed in the bottom plate
(1) such that the second landing leg (33) extends paral¬ lel to the circuit board (4), wherein one surface of the second landing leg (33) forms a solder side.
11. The lens (100) according to Claim 1 or 2, characterized in that the assembly parts (3) respectively have a first reference position (35), and the assembly positions (41) of the circuit board (4) have a second reference posi¬ tion (411) for alignment with the first reference posi¬ tion (35) . 12. The lens (100) according to Claim 11, characterized in that a free end of the second landing leg (33) forms the first reference position (35) .
13. The lens (100) according to Claim 1 or 2, characterized in that the assembly part (3) is formed by bending a sheet metal.
The lens (100) according to Claim 13, characterized in that the sheet metal is made of copper.
15. An illuminating device (200), comprising: a circuit board (4); and at least one LED chip (5) provided on the circuit board (4), characterized in that the illuminat¬ ing device (200) further comprises a lens (100) accord¬ ing to any of Claims 1 to 14, and the lens (100) is sol¬ dered on the circuit board (4) .
16. The illuminating device (200) according to Claim 15, characterized in that at least two assembly positions (41) are provided on the circuit board (4), and assembly parts (3) of the lens (100) are respectively soldered at the assembly positions (41).
17. The illuminating device (200) according to Claim 16,
characterized in that the assembly position (41) is com¬ posed of a metal plate, wherein at least one edge posi¬ tion of the metal plate is configured as the second ref¬ erence position (411) .
The present invention relates to a lens for an illuminating device. In addition, the present invention further relates to an illuminating device having a lens of the above mentioned type.
At present, LED products are applied to daily life in a great amount. Because of advantages of LEDs (light emitting diodes) such as stable performance, easy and inexpensive manufacture, and low power consumption, conventional halogen lamps are gradually replaced with LEDs. However, due to own character¬ istics of LED light sources, light emitted hereby have to be subjected to secondary optical processing; otherwise, appli¬ cation requirements in most application situations will not be satisfied. For this reason, LED light sources have to be equipped with a lens, and a specially designed lens can ena¬ ble light emitted by the LED light sources to achieve ex¬ pected effects.
For practical applications, for example, a plurality of LED chips distributed in an array is usually used in a street¬ light which utilizes LED chips as light sources, and a spe¬ cial lens is equipped for each LED chip or a common lens is equipped for the plurality of LED chips. However, a problem often occurs, viz. the assembly accuracy between the LED chips and the lens determines whether the practical illumi¬ nating effect of the streetlight is good or bad. In order to solve the above problem, several technical solutions are raised in the prior art, wherein according to a technical so¬ lution, an erection column is formed on the lens, a threaded hole is formed in the erection column, and the lens is fixed on a circuit board by screwing a bolt into the threaded hole. However, such a bolted connection mode cannot well assure the assembly accuracy between the lens and the LED chips. Another technical solution provides that an assembly hole is opened on the circuit board, while a locating pin is formed on the lens, said locating pin is inserted into the assembly hole, and a part of the locating pin, which is exposed through the circuit board, is melted at the other side of the circuit board and forms a fixing and holding part after cooling. However, the disadvantage of said technical solution lies in that a gap exists between the locating pin and a mounting plate, which might result in a relative displacement of the lens with respect to the LED chips, and then detrimentally influence the illuminating performance of the illuminating device .
In order to solve the above technical problem, the present invention provides a lens for an illuminating device. Said lens can ensure a precise alignment between the lens and the LED chips, while assuring that no translocation occurs be¬ tween the lens and the LED chips after the assembly, and hereby realizing expected light distribution performance. In addition, the present invention further relates to an illumi- nating device having a lens of the above mentioned type.
The first object of the present invention is achieved through a lens for an illuminating device, viz. said lens comprises a bottom plate and at least one optical part formed on the bot¬ tom plate, wherein the lens further comprises at least two assembly parts that are position-fixedly formed on the bottom plate, and the assembly parts are configured to be respec¬ tively aligned with assembly positions on a circuit board of the illuminating device and configured to allow to be sol¬ dered to the circuit board. In an embodiment of the present invention, during assembly, the lens has to be firstly pre- cisely aligned with the assembly position on the circuit board, and then soldered on the assembly position on the cir¬ cuit board. It assures on one hand an accurate alignment be¬ tween the lens and the light source of the illuminating de- vice during installation, and prevents, after the assembly, the lens from moving with respect to the light source through the way of soldering, and assures the illuminating performance of the illuminating device in this way.
According to the present invention, it is provided that the assembly parts are formed integrally with the bottom plate as one piece. During assembly, it is generally required that the lens is placed at the assembly position of the circuit board, and the assembly part, which is formed integrally with the bottom plate as one piece, is placed on the assembly position together with the lens during the installation, so that an assembly operator does not have to separately place the as¬ sembly part between the lens and the circuit board, in which the assembly efficiency is improved. Moreover, the position of the assembly part is determined at the beginning of the manufacture of the lens, and thus, a precise alignment be¬ tween the lens and the light source can be realized just by aligning the assembly part with the assembly position on the circuit board during the assembly.
It is preferable that the assembly part is configured to al- low the lens to be mounted to the circuit board through sur¬ face mount technology. The assembly difficulty of the lens according to the present invention on the circuit board is further simplified through the surface mount technology.
According to the present invention, it is provided that the assembly part is formed in the bottom plate through insert moulding process. The assembly part can be simply fixed in the bottom plate through the insert moulding process.
It is preferable that the assembly part is partially encapsu¬ lated in the bottom plate. In other words, a part of the as- sembly part is exposed out of the bottom plate, and said ex¬ posed part can support the lens, while simultaneously being at least partially used as a soldering position for soldering with the assembly position. It is further preferable that a thermal insulation layer is provided on a section of the assembly part that is encapsu¬ lated by the bottom plate. During soldering of the assembly part, a great amount of heat is inevitably produced, and if said heat is transferred to the optical part of the lens, which is usually made of a transparent plastic, the optical part would be deformed. In the meanwhile, the thermal insula¬ tion layer can avoid heat transfer to the bottom plate, even the optical part, of the lens.
Preferably, the thermal conductivity of the thermal insula- tion layer is less than 0.5 W/ (m*K) . Thus a proper heat insu¬ lation effect can be ensured.
According to a preferable embodiment of the present inven¬ tion, it is provided that the assembly part is configured to have a U-shaped section profile, wherein the U-shaped assem- bly part includes a first landing leg, a second landing leg, and a connecting part connected between the first landing leg and the second landing leg, wherein the first landing leg is configured as a part encapsulated by the bottom plate. Actu¬ ally, the first landing leg of the U-shaped assembly part is inserted into the material of the bottom plate, so as to be firmly fixed at a predetermined position on the bottom plate.
It is further preferable that the U-shaped assembly part is configured in such a manner that after fixation onto the bot¬ tom plate, all the parts, with exception of the first landing leg, are separated from the bottom plate. A gap is hereby formed between the second landing leg and the bottom plate, and between the connecting part and the bottom plate. When soldering the assembly part, deformation of the assembly part resulted from a high temperature thereof would not directly influence the bottom plate, so as to avoid damage of the lens .
It is advantageous that the assembly part is fixed in the bottom plate such that the second landing leg extends paral- lei to the circuit board, wherein one surface of the second landing leg forms a solder side. The second landing leg has a certain surface area, and its use as a solder side can assure that the lens is firmly fixed at the assembly position on the circuit board. It is provided according to the present invention that the assembly parts respectively have a first reference position, and the assembly positions of the circuit board have a second reference position for alignment with the first reference po¬ sition. It is advantageous that a free end of the second landing leg forms the first reference position. In order that the lens can be precisely arranged on the circuit board, a reference position has to be predefined on the assembly part. And the second reference position can be an edge of a solder pad on the circuit board, which solder pad serves as the as- sembly position. As a result, during actual assembling pro¬ cess, the assembly operator can assure a precise arrangement of the lens on the circuit board, just by aligning the first reference position with the edge of the solder pad.
It is further provided according to the present invention that the assembly part is formed by bending a sheet metal. A sheet metal is more beneficial to soldering. And it is advan¬ tageous that the sheet metal is made of copper. The metal copper is more suitable for soldering.
Another object of the present invention is achieved through an illuminating device, said illuminating device comprising a circuit board; and at least one LED chip provided on the cir¬ cuit board, wherein the illuminating device further comprises a lens of the above mentioned type, and the lens is soldered on the circuit board. It is advantageous that at least two assembly positions are provided on the circuit board, and the assembly parts of the lens are respectively soldered at the assembly positions.
It is further advantageous that the assembly position is com¬ posed of a metal plate, wherein at least one edge position of the metal plate is configured as the second reference posi¬ tion.
It is to be understood that the features of the various exem¬ plary embodiments described herein may be combined with each other, unless specifically noted otherwise.
The accompanying drawings constitute a part of the present Description and are used to provide further understanding of the present invention. Such accompanying drawings illustrate the embodiments of the present invention and are used to de¬ scribe the principles of the present invention together with the Description. In the accompanying drawings, the same components are represented by the same reference numbers. As shown in the drawings :
Figure 1 is a sectional view of a lens according to the pre¬ sent invention;
Figure 2 is an amplified sectional view for the region of as¬ sembly parts of the lens according to the present invention;
Figure 3 is a top view of a circuit board of an illuminating device according to the present invention; and
Figure 4 is a top view of the illuminating device according to the present invention.
Detailed Description of the Embodiments In the following detailed description, reference is made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration specific embodiments in which the invention may be practiced. In this regard, direc- tional terminology, such as "left", "right", "upper", "low¬ er", is used in reference to the orientation of the figures being described. Because components of embodiments of the present invention can be positioned in a number of different orientations, the directional terminology is used for purpos- es of illustration and is in no way limiting. It is to be understood that other embodiments may be utilized and structur¬ al or logical changes may be made without departing from the scope of the present invention. The following detailed de¬ scription, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined by the ap¬ pended claims.
Figure 1 shows a sectional view of the lens 100 according to the present invention. It can be seen from the figure that said lens 100 comprises a bottom plate 1 and at least one op- tical part 2 formed on the bottom plate 1, wherein said lens 100 further comprises at least two assembly parts 3 that are position-fixedly formed on the bottom plate 1. In the example as shown in Figure 1, said lens 100 has assembly parts 3 re¬ spectively arranged at two opposite ends of the bottom plate 1 of the lens 100. However, according to embodiments of the present invention, the lens 100 can comprise assembly parts 3 of other amounts, e.g. 3 or 4 etc., and no matter how many assembly parts 3 are used, the assembly parts 3 are prefera¬ bly arranged on the bottom plate 1 in an equal interval. Moreover, in Figure 1, under the lens 100, a circuit board 4 of an illuminating device 200 and a light source arranged on the circuit board 4 are shown. In the present example, said light source is configured as an LED chip 5.
During a practical assembling process, the LED chip 5 is firstly soldered onto a circuit board 4 using a chip mounter. 0
The assembly part 3 is then soldered onto the assembly posi¬ tion 41 on the circuit board 4 of the illuminating device 200 (see Figure 3), so that the lens 100 is fixed on the circuit board 4. And certainly, during soldering the assembly part 3, the chip mounter could be used to conduct coordinate setting, or the coordinate setting could be simply conducted by the corresponding reference positions of the assembly part 3 and assembly position 41, so as to ensure an accurate positional relationship between the lens 100 and the LED chip 5.
Figure 2 shows an amplified sectional view for the region of the assembly parts 3 of the lens 100 according to the present invention. It can be seen from the figure that the assembly parts 3 and the bottom plate 1 are formed as one piece, in other words, the assembly parts 3 are formed in the bottom plate 1 through insert moulding process. However, it can further be seen from the figure that the assembly part 3 is only partially encapsulated in the bottom plate 1. Moreover, an thermal insulation layer 31 is provided on a section of the assembly plate 3, which is encapsulated by the bottom plate 1. Preferably, the thermal conductivity of the thermal insu¬ lation layer is less than 0.5 W/ (m*K) . In an embodiment of the present invention, the assembly part has to be soldered, which inevitably produces a great amount of heat, and if said heat is transferred to the optical part 2 of the lens 100 which is usually made of a transparent plastic, the optical part 2 would be deformed. In the meanwhile, the thermal insu¬ lation layer 31 can avoid heat transfer to the bottom plate 1, even the optical part 2, of the lens 100.
Moreover, it can be seen from the figure that the assembly part 3 is configured to have a U-shaped section profile, wherein the U-shaped assembly part 3 includes a first landing leg 32, a second landing leg 33, and a connecting part 34 connected between the first landing leg 32 and the second landing leg 33, wherein the first landing leg 32 is config- ured as a part encapsulated by the bottom plate 1. Actually, the first landing leg 32 is inserted into the material of the bottom plate 1. However, the U-shaped assembly part 3 is con¬ figured in such a manner that after fixation into the bottom plate 1, all the parts, except for the first landing leg, in¬ cluding the second landing leg 33 and the connecting part 34, are separated from the bottom plate 1. A gap 6 is hereby formed between the second landing leg 33 and the bottom plate 1, and between the connecting part 34 and the bottom plate 1. When soldering the assembly part 3, deformation of the assembly part 3 resulted from a high temperature thereof would not directly influence the bottom plate 1, so as to avoid damage of the lens 100.
In addition, as the U-shaped assembly part 3 is fixed in the bottom plate 1 in such a fixing way that the second landing leg 33 extends parallel to the circuit board 4, wherein one surface of the second landing leg 33 forms a solder side. Specifically, it can be seen from Figure 2 that the open end of the U-shaped assembly part 3 faces the right side of the shown view, while the connecting part 34 is aligned with an outer edge of the bottom plate 1 of the lens 100. Furthermore, in order to assure that the assembly parts 3 can be accurately aligned with the assembly positions 41 on the circuit board 4, the assembly parts 3 respectively have a first reference position 35, and the assembly positions 41 of the circuit board 4 have a second reference position 411 for alignment with the first reference position 35 (see Figure 3) . In the example as shown in Figure 2, a free end of the second landing leg 33 forms the first reference position 35. However, in an optional example, if the connecting part 34 can be oriented to be perpendicular to the circuit board 4, the surface of the connecting part 34 away from the U-shaped opening can be configured as a reference surface of the first reference position 35, so that the assembly part 3 is sol¬ dered after the reference surface has been aligned with the second reference position 411. In the present example, the assembly part 3 is formed by bending a sheet metal. It is preferably that said sheet metal is made of copper, and of course, it can also be made of oth¬ er metals suitable for soldering.
Figure 3 shows a top view of the circuit board 4 of the illu- minating device 200 according to the present invention. Said circuit board 4 is configured to be rectangular, and prefera¬ bly used in the illuminating device 200 as a streetlight. A plurality of LED chips 5 serving as light sources is arranged on the circuit board 4 in an array. It can be clearly seen from Figure 3, an assembly position 41 is arranged respec¬ tively on the left and right side of each of the LED chips 5. However, according to the embodiment of the present inven¬ tion, the number of the assembly position 41 is not limited to two, it could be more than two, for instance, three or four. In addition, the position of the assembly positions 41 on the circuit board 4 is not limited to the left and right side of each of the LED chips 5, it could be on the upper and lower side of each of the LED chips 5. It should be noticed that the number and also the position of the assembly posi- tions 41 are in accordance with that of the assembly parts 3 arranged on the lens 100. It can further be seen from the figure that said assembly position 41 is composed of a metal plate that is configured to be rectangular, wherein one edge position of said metal plate is configured as the second ref- erence position 411. In said example, the circuit board is an FR-4 type printed circuit board, and of course, it can also be a circuit board of other types, e.g. a metal core printed circuit board (MCPCT) or a ceramic printed circuit board etc.
Figure 4 shows a top view of the illuminating device 200 ac- cording to the present invention with an assembled lens 100. It can be seen from the figure that a plurality of lenses 100 is fixed on the circuit board 100, wherein each lens 100 cor¬ responding to one LED chip 5. However, it has to be emphasized hereby that there is unnecessarily only one optical part 2 on the lens 100, viz. the lens 100 can be configured to have a plurality of optical parts 2, wherein each optical part 2 corresponds to one LED chip 5, in other words, each lens 100 can simultaneously serve a plurality of LED chips 5 located in the lens 100.
The above is merely preferred embodiments of the present in- vention but not to limit the present invention. For the per¬ son skilled in the art, the present invention may have vari¬ ous alterations and changes. Any alterations, equivalent sub¬ stitutions, improvements, within the spirit and principle of the present invention, should be covered in the protection scope of the present invention.
2 optical part
3 assembly part
31 thermal insulation layer
32 first landing leg
33 second landing leg
35 first reference position 4 circuit board
41 assembly position
411 second reference position
US20100123164 * 20 Nov 2009 20 May 2010 Toyoda Gosei Co., Ltd. Light emiting device and method of making same
Clasificación internacional H05K1/18, F21K99/00, F21V17/00, H05K3/30
Clasificación cooperativa Y02P70/613, Y02P70/611, H05K1/181, H05K2201/10106, H05K2201/10568, H05K2203/166, H05K2201/10515, H05K2201/10121, H05K3/303
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