TWM415309U - Fresnel lens combination structure - Google Patents

Description

V. New description: [New technology field] [0001] This work is about a Fresnel lens assembly structure, especially for a kind of movable combination of multiple lenses into a large Fresnel lens. , with a Fresnel lens combination structure with strong concentrating effect and easy to carry. [Prior Art] [0002] Fresnel 1 ens, also known as a threaded lens, is compared to a conventional spherical lens. The Fresnel lens divides the lens into a series of theoretically numerous concentrics. The rounded path achieves the same optical effect while saving material usage. [0003] Since the use of Fresnel lenses to project light reduces imaging quality, Fresnel lenses are typically used where image quality is less demanding or where general lenses are not available, such as lenticular projectors, rear projection televisions, Traffic lights, car headlights, solar cookers or solar water heaters, etc. [0004] However, in today's society, how to use renewable energy is a very important issue because of environmental protection. As described above, the Fresnel lens can be applied to a solar cooker or a solar water heater, etc., and it can be seen that the Fresnel lens has a relatively good condensing effect to use a solar light source for cooking and the like. At present, a structure for solar condensing projection using a Fresnel lens is as shown in Fig. 1, and the frame 11 and the Fresnel lens 12 are combined into a two-dimensional array to perform multi-point condensing using four Fresnel lenses 12. Although such a structure has a multi-point concentrating effect, in the case of the frame 11 of the same size, the combination of the frame 11 and the Fresnel lens 12 limits the size of the Fresnel lens 12 and makes it condense. It is not strong, and such a frame 11 cannot be formally disassembled or assembled in a form number A0101 page 3/15 pages M415309, so that the user cannot carry and store it conveniently [new content] [0005] In view of the above-mentioned prior art The problem is that the purpose of the present invention is to provide a Fresnel lens assembly structure to solve the problem that the conventional Fresnel lens structure has a low concentration effect and is not convenient to carry and store. [0006] According to the purpose of the present creation, a Fresnel lens assembly structure is proposed which includes a plurality of lenses and a plurality of frames. Each lens system is actively combined to form a Fresnel lens. Each of the frames is movably joined to each other and to the side of the Fresnel lens, thereby fixing the Fresnel lens. Preferably, the inner side of each frame has a recess, and when the frames are joined to fix the Fresnel lens, the sides of the Fresnel lens are embedded in the recesses of each frame. [0008] Preferably, two of the plurality of frames are provided with a rotating shaft, and each of the rotating shafts is located on one side and opposite sides of the plurality of frames. [0009] Preferably, the Fresnel lens assembly structure of the present invention further includes two support frames, each of which is movably engaged with each of the rotation shafts. [0010] Preferably, the Fresnel lens assembly structure of the present invention further includes a plurality of supporting steel cables, each of which is connected to one end of the plurality of frames and opposite to the other end, and holds the Fresnel One side of the lens and the other side of the lens, thereby stabilizing the Fresnel lens. [0011] Preferably, the plurality of frames are combined and formed into a rectangular shape. [0012] According to the purpose of the present invention, a Fresnel lens assembly structure is further proposed, which is in the form of a plurality of Fresnel lenses and a plurality of frames. Each Fresnel lens is operatively combined to form a multi-point concentrating lens. The frames are movably joined to each other and the side edges of the multi-point concentrating lens are engaged, thereby fixing the multi-point concentrating lens. Preferably, the inner side of each frame has a recess, and when the frames are joined to fix the multi-point concentrating lens, the sides of the multi-point concentrating lens are embedded in the grooves of each frame. [0014] Preferably, two of the plurality of trusses are provided with a rotating shaft, and each of the rotating shafts is located on one side and opposite sides of the plurality of frames. [0015] Preferably, the Fresnel lens assembly structure of the present invention further includes two support frames, each of which is movably engaged with each of the rotation shafts. [0016] Preferably, the Fresnel lens assembly structure of the present invention further includes a plurality of supporting steel cables, and each supporting steel cable is connected to one end of the plurality of frames and opposite to the other end, and clamps multiple points. One side of the concentrating lens and the other side are opposite, thereby stabilizing the multi-point concentrating lens. [0017] Preferably, the plurality of frames are combined and formed into a rectangular shape. [0018] As described above, the Fresnel lens assembly structure according to the present invention may have one or more of the following advantages: [0019] (1) The Fresnel lens assembly structure may be combined into a plurality of lenses. The large Philippine lens is more dense and dense than the conventional technique, and the concentrating effect of the same size frame is stronger than the conventional technique. [0020] (2) The Fresnel lens assembly structure can be assembled or disassembled by the lens and the frame, so whether it is carried or stored, the form number A0101 is 5/15 M415309 Lee. [0021] (3) Since the Fresnel lens assembly structure is provided with a rotating shaft structure, the user can adjust the angle of the Fresnel lens according to the direction in which the solar light source is located to obtain an optimum concentrating effect. [0022] (4) Since the Fresnel lens assembly structure fixes the Fresnel lens by the concave structure of the frame, the support wire is used to sandwich and fix the Fresnel lens, making it difficult to shake or separate. [Embodiment] [0023] For the valuable examiner to understand the technical features, contents and advantages of the present creation and the effects thereof, the present invention will be described in detail with reference to the drawings, and the details of the embodiments are as follows. The schematics used are for the purpose of illustration and supplementary instructions. They are not necessarily true proportions and precise configurations after the implementation of the creation. Therefore, the proportions and configuration relationships of the attached drawings should not be interpreted or limited. The scope of rights in actual implementation is described first. [0024] Hereinafter, embodiments of the Fresnel lens assembly structure according to the present invention will be described with reference to the related drawings. For ease of understanding, the same elements in the following embodiments are denoted by the same reference numerals. [0025] Please refer to FIGS. 2 and 3, which are schematic diagrams and a combination diagram of the first embodiment of the Fresnel lens assembly structure of the present invention. In the first embodiment, the Fresnel lens assembly structure 2 of the present invention comprises a plurality of lenses 21, a plurality of frames 22, two rotating shafts 23, two support frames 24, and a plurality of support wires 25. In this embodiment, there are six rectangular lenses 21, but not limited thereto, and the shape of each lens 21 may be circular or square or the like. In the figure, the form number A0101, page 6 / page 15 of each frame 22 may be cylindrical and the length of each frame 22 is different, and only this embodiment 'should not be limited thereto, the number of frames 22 The shape and length can be changed in accordance with the pattern of the lens 21, and each frame 22 has a groove 221 on the inner side thereof. The two rotating shafts 23 can be respectively disposed in two of the plurality of frames 22. The two support frames 24 are movably coupled to the respective rotating shafts 23, and the two towers 24 are movable and expandable. In the first embodiment, each lens 21 is movably spliced into a Fresnel lens, and each frame 22 is movably coupled to each other to engage the Fresnel lens after stitching the lenses 21. The side edges thereby hold the Fresnel lens, and the sides of the Fresnel lens are embedded in the grooves 221 inside the respective frames 22. Since each lens 21 has a rectangular shape in this embodiment, and each frame 22 is matched with the lens 21, each lens 21 and each frame 22 are combined in a rectangular shape. The two rotating shafts 23 are located on one side and the other side of the combination of the respective lenses 21 and the frames 22. The two rotating shafts 23 can provide the user with the angle of the Fresnel lens facing the light source according to the current position of the solar light source. After the two support frames 24 are coupled to the two rotating shafts 23, they can be used to support the assembled frames 22, and the two support frames 24 are telescopically provided to provide the user with the height of the Fresnel lens. In addition, the user can connect the support cables 25 to one end of the combined frame 22 and the opposite end, and hold one side of the Fresnel lens and the other side, thereby stabilizing the Fresnel lens. It is not easy to shake or separate. [0027] In the first embodiment, since the Fresnel lens is combined and combined by a plurality of lenses 21, the area of the Fresnel lens is relatively large, and the number of thread engravings is also large, so that more light sources can be obtained. In order to get a strong concentrating effect. Moreover, each frame 22 and each lens 21 can be movably assembled or detached so that the user can conveniently carry or store the form number A0101 page 7/15. Further, since the rotating shaft 23 and the retractable supporting frame 24 are provided, the user can adjust the angle and height of the Philip lens according to the position of the solar light source to obtain the best concentrating effect. Referring to Figures 4 and 5, the disassembled schematic circle and combination diagram of the first embodiment of the Fresnel lens assembly structure of the present invention. The Fresnel lens assembly structure 3 of the present embodiment includes a plurality of Fresnel lenses 31, a plurality of frames 32, two rotating shafts 33, two support frames 34, and a plurality of support chords 35, each of which is The inner side has a recess 321 . Wherein, the shape, the length of the above-mentioned components, or the change of the movable property of the pattern, the illustration of the two figures is only an embodiment, and should not be limited thereto. [0029] ^ ^ ui In the example, each of the Fresnel lenses 31 can be spliced and combined into a spot condenser lens, and the frames 32 are movably combined with each other and can be engaged by the grooves 321 The side of the multi-point concentrating lens after the Fresnel lens 31 is spliced, thereby fixing the multi-point concentrating lens ◊ each frame 32 and the multi-point concentrating lens assembled and fixed by each Fresnel lens 31, which can achieve more The effect of spotlighting, if the user uses a plurality of objects such as a solar cooker, the cooking can be performed simultaneously. This embodiment can be used in combination with the first embodiment, and the user can select and assemble according to the needs thereof. The lens. [0030] In the above description, after the assembly and splicing of the frames 32 and the Fresnel lenses 31 are completed, the respective rotation shafts 33 are respectively located on one side and the other side of each of the assembled frames 32 to provide a user according to the solar light source. The position of the multi-point concentrating lens is adjusted to the angle of the solar light source to obtain the best concentrating effect. Each of the support frames 34 can be respectively coupled to each of the rotating shafts 33 to support the combined frames 32, and each of the support frames 34 can be telescopic to provide the user with adjusting the height of the multi-point collecting lens. Furthermore, after the user associates each frame form A0U)1 s 8 pages/15 pages M415309 32 and each Fresnel lens 3, each support cable 35 can be connected to each of the assembled cables 35 One end of the frame 32 and the opposite end of the frame 32 hold one side of the multi-point collecting lens and the other side, thereby more stably fixing the multi-point collecting lens, making it difficult to separate or shake. [0031] In summary, the Fresnel lens assembly structure of the present invention obtains a large Fresnel lens with a strong concentrating effect by merging a plurality of lenses, or a multi-point concentrating lens capable of concentrating multiple points at the same time. It is not only convenient for the user to carry or store, but also allows the user to use the lens without effect, which is both usable and convenient. [0032] Looking at the above, it can be seen that the creation of the creation has achieved the desired effect under the previous technology, and it is not easy for the person skilled in the art to think about it. Moreover, this creation has not been disclosed before the application, and Its progressive and practical nature has been met with the requirements for the patented towel, and the patent application has been filed according to law. You are requested to approve the patent application for this article to encourage creation and to the sense of virtue. [_] The embodiment described in W_L is only for explaining the technical idea and characteristics of the creation, and its purpose is to enable those skilled in the art to understand the content of the creation and implement it according to the definition. The scope of patents, that is, the equivalent changes or modifications made by the authors in the spirit of this creation, shall remain covered by the scope of this creation. [Simple diagram of the diagram] _] W diagram is a schematic diagram of the conventional technique - (4) mirror structure; Figure 2 is a schematic diagram of the disassembly of the first embodiment of the Philippine lens assembly structure of the creation; The first embodiment of the Philippine lens assembly structure of the present invention is the 9th page of the first embodiment of the M415309 combination 7F, and the fourth figure is the second embodiment of the Fresnel lens assembly structure of the present invention. The schematic diagram of the solution; and the fifth diagram is a combination diagram of the third embodiment of the Fresnel lens assembly structure of the present invention. [Main component symbol description] [0035] 11, 2, 3 2: frame 12, 31: Fresnel lens 2, 3: Fresnel lens assembly structure 21: lens 221, 321 : groove 23, 33: shaft 24, 34: Support frame 25, 35: Support cable form number A0101 Page 10 of 15

Claims (1)

M415309:, the scope of patent application: 1. A Fresnel lens assembly structure, comprising: a plurality of lenses, which are combined in an active manner to form a Fresnel lens; and a plurality of frames, each of which is actively mutually The side edges of the Fresnel lens are joined and engaged, thereby fixing the Fresnel lens. 2. The Fresnel lens assembly according to claim 1, wherein each of the frames has a groove on the inner side thereof, and the plurality of frames are joined to fix the Fresnel lens, and the Fresnel lens is The side edges are embedded in the grooves of each of the frames. 3. The Fresnel lens assembly structure of claim 1, wherein two of the plurality of frames are provided with a rotating shaft, and each of the rotating shafts is located at one side of the plurality of frames and formed oppositely One side. 4. The Fresnel lens assembly structure of claim 3, further comprising two support frames, each of which is movably coupled to each of the rotary shafts. 5. The Fresnel lens assembly according to claim 1, further comprising a plurality of supporting cables, each of the supporting cables being connected to one end of the plurality of frames and opposite to the other end, and sandwiched The Fresnel lens is stabilized by holding one side of the Fresnel lens and the other side. 6. The Fresnel lens assembly structure of claim 1, wherein the frames are combined to form a rectangular shape. a Fresnel lens assembly structure comprising: a plurality of Fresnel lenses operatively combined to form a multi-point concentrating lens; and a plurality of frames each of which is movably coupled to each other The side of the multi-point 100211362 concentrating lens is engaged, thereby fixing the multi-point concentrating lens. The Fresnel lens assembly structure of claim 7, wherein each of the frames has a groove on the inner side thereof, and the plurality of frames are joined to each other. When the multi-point collecting lens is fixed, the side of the multi-point collecting lens is embedded in the groove of each of the frames. 9. The Fresnel lens assembly structure of claim 7, wherein two of the plurality of frames are provided with a rotating shaft, and each of the rotating shafts is located at one side and opposite of the plurality of frames. the other side. 10. The Fresnel lens assembly of claim 9, further comprising two support frames, each of which is movably coupled to each of the rotary shafts. 11. The Fresnel lens assembly structure of claim 7, further comprising a plurality of support cables, each of the support cables being connected to one end of the plurality of frames and opposite to the other end, and sandwiched The multi-point concentrating lens is stabilized by holding one side of the multi-point concentrating lens and the opposite side. 12. The Fresnel lens assembly structure of claim 7, wherein the frames are formed into a rectangular shape after being combined. 100211362 Form No. A0101 Page 12 of 15 1002037075-0