TWM394473U - Male buckling structure of optical fiber access guiding connector - Google Patents

Description

M394473 V. New description: [New technical field] This is a kind of fiber-optic connection guide connector card a. It refers to a male-card combination structure used for docking connection between two guide connectors, especially [first] 】 Press, fiber optic cable has fast transmission characteristics, especially in =

During the transmission process, the noise of the electromagnetic wave can be effectively isolated, and the transmission of the mirror can be avoided, and the fiber optic cable has the south frequency and overcomes the excellent interference of the signal loss. The fiber cable is required to be based on the signal transmission link or the terminal processing. 'And the optical cable is connected, the guiding joint is combined with the fiber optic cable end: two fiber optic cables pass through the guiding joint and the other guiding joint or terminal processing fiber to the two fiber optic cable connection, due to the optical fiber The transmitted signal is optical two-way instead of the traditional electrical signal, so the functional fiber line and mirror provided by the guiding joint can be connected in parallel, so that the optical signal is not lost and the S = transmission, so the pair of guiding joints is connected. It is very important. As shown in the first and second figures, there is a conventional fiber optic splice guide 10'. The lead joint 10 has a first end 11 and a second end 12, and the first λ has at least one valley hole 13 The second end 12 of the guiding joint 1 is provided with at least one convex lens 14 , and the convex lens 14 is connected to the receiving hole 13 . The second end 12 of the guiding joint 1 is provided with a convex lens 14 . Corresponding to the setting 'when the male snap structure of the circular docking pole 15 is respectively provided on opposite sides of the convex lens 14, as shown in the third and fourth figures, the guiding joint 10 assembles the optical fiber cable 20 and is combined with another The second guiding joint 30 3 M394473 of the optical fiber cable 40 is also assembled. The guiding joint 10 is provided with a receiving hole 13 at the first end for the end of the optical fiber cable 2 to be assembled and assembled. The second guiding The connector 30 has a first end 31 and a second end 32. The first end 31 is provided with at least one receiving hole 33 extending toward the second end 32, so that the receiving hole 33 is in the form of a blind hole, and the second end The second end 32 of the guiding joint 3 is provided with at least one convex lens 34, and the convex lens 34 is disposed corresponding to the receiving hole 33. The opposite sides of the mirror 34 are respectively provided with a circular butt hole 35', and the butt hole (35) for guiding the joint 1{) is inserted into the pair of holes 35 so that the guiding joint and the second guiding joint are mutual Docking link. Generally speaking, the 'guide joint 1G and the second guide joint 3 () are butt jointed. The convex lens 14 of the guide joint 10 needs to be connected with the second guide joint 3 (): the positive pin is positive to transmit the optical signal in the system. As long as the very small = affects the transmission of the optical signal 1 and the above structure, since 1 only = 0 = the docking post 15 is inserted into the circular butt hole 35 to form a gap of the docking connection = as shown in the fifth, resulting in Touching the quasi-central position, the fruit with higher accuracy requirements directly affects the guide fine. Connected with the second guide 5 and then = the focal relationship 'affects the correct transmission of the optical signal, and the kind of 22:4:? Inferior strength' is easy to twist due to the torsion, it is necessary [new content] The creator has a simple circular docking column in view of the conventional fiber-optic connection, so that it is easy to deviate from the - /, a-card, and the structural strength of the joint is two. The idea of connecting the joints is discussed and tested by many parties. Experiment M394473, the final launch of this creation. The present invention provides a fiber-optic connecting guide male snap-fit structure having a first end and a second end, and the first end is provided with at least one receiving hole extending toward the second end to enable the receiving The hole is in the form of a blind hole. The second end of the guiding joint is provided with at least one convex lens, and the convex lens is disposed corresponding to the receiving hole, and the male engaging structure is respectively disposed on opposite sides of the convex lens. The engaging structure is a circular butt joint with a taper, and at least two of the plurality of positive guiding bumps are equally divided on the circumference of the circular docking pole. In use, the guiding joint is assembled with the accommodating hole of the first end, and is connected to another second guiding joint of the same assembled optical fiber cable. The first guiding joint is provided with a taper. a circular butt hole, and a plurality of guide slots are equally divided on the inner edge of the circular butt hole, and the butt joint of the guide joint for guiding the joint is inserted into the guide, so that the guide joint and the second guide The lead joints are connected to each other. The main purpose of this creation is the correct transmission of the guide signals of the circular bumps and the guide slots.

The purpose is that the guiding joint and the second guiding joint-shaped docking pole are inserted into the circular butt hole, and the guiding position is positively positioned, so that accurate alignment can be provided, and the purpose of the light source creation is enhanced, and the guiding joint is The circular butt joint with the second guiding defect is inserted into the circular butt hole, and the guiding and grooving of the guiding groove is matched with each other. Therefore, the structural strength of the connecting is good, and the situation of loosening and skewing is not easy. No [Embodiment], (5) Matching. The present invention will be described in detail in the preferred embodiment of the present invention. As shown in the rear view of the fifth ivuy4473, as shown in the sixth diagram of the creative guide joint, and the seventh diagram of the creative guide bow 1 joint, the present optical fiber joint guide joint 50 has The first end 51 and the second end 52 are provided with at least one receiving hole extending toward the second end 52, so that the receiving hole 53 is in the form of a blind hole, and the guiding joint 50 is further The second end 52 is provided with at least a convex lens 54 , and the convex lens 54 is disposed corresponding to the receiving hole 53 . The opposite sides of the convex lens 54 are respectively provided with a male engaging structure, and the male engaging structure has a taper shape. The circular docking post 55 is provided with at least two plurality of positive guiding protrusions 56 on the periphery of the circular docking pole 55. The guiding protrusions 56 have a taper shape, a substantially square cross section, and a shorter length than the docking pole 55. Or the same length as the docking post 55. In use, as shown in the eighth, ninth, tenth, and eleventh drawings, the guiding joint 5 is assembled with the optical fiber cable 60, and the same optical fiber cable is assembled as the other one. The two V lead connectors 70 are connected, and the guiding joints 5 are provided with the receiving holes 53 of the first end for the ends of the optical fiber cable 60 The fiber-optic cable 6 去除 is removed at one end to remove the coated surface plate, so that the fiber at the end portion is barely extended, and the end portion is coated with the adhesive, and the first end is terminated by the guiding joint 5 The accommodating hole 53 has a first end 71 and a second end 72. The first end 71 is provided with at least one accommodating hole 73 extending toward the second end 72. The accommodating hole 73 is in the form of a blind hole, and the second end 72 of the second guiding connector 70 is provided with at least one convex lens 74 ′ and the convex lens 74 is disposed corresponding to the accommodating hole 73 ′ at the convex lens 74 . The opposite sides are respectively provided with a tapered circular abutting hole 75', and at least two of the plurality of positive guiding notches 76 are equally divided on the inner edge of the circular abutting hole 75, and the guiding and notching groove 76 has a taper and a broken The surface is substantially square, and the connecting hole is inserted into the butt post 55 of the guiding joint 50, and the guiding positive guiding block 56 guides the positive guiding position of the notching groove 76 to be engaged with each other to eliminate the gap, so that the guiding bow The 丨 joint 50 and the second guiding joint 7 〇 are accurately and stably connected to each other. The yoke joint 50 is connected to the second guiding joint 70 Then, as shown in the twelfth figure, the convex lens 54 of the guiding joint 50 and the convex lens of the second guiding joint 7 are accurately aligned, and the convex lenses 54 and 74 can be accurately focused to ensure that the optical signal can be guided through the guiding joint. 50 and the second guiding joint convex lens 54, 74 is correctly transmitted, and the process yield is high. From the structure of the above specific embodiment, the following benefits can be obtained: 1. Its guiding joint 50 and second guiding joint 7〇 When the butt joint is connected, the circular butt joints 55 are inserted into the circular butt holes 75, g: the plurality of positive guide bumps 56 disposed at the periphery of the butt joints 55 and the inner and outer edges of the butt holes 75 are provided. The positioning and the good adhesion degree can provide the precise alignment of the guiding joint 5〇 and the second guiding joint 70 to enhance the correct transmission of the optical signal and reduce the transmission loss. 2. When the guiding joint 50 and the second guiding joint 7 are butt-joined, the circular docking and the matching mating hole 75 are matched with the plurality of guiding protrusions 56 and the inner edge of the mating hole 75 which are disposed on the edge of the threat. The plurality of guide grooves 76 are fitted and engaged with each other to eliminate the gap, so that the structural strength of the connection is good, and it is not easy to be reversed due to the torsion (4) dynamic deflection f (four) minus the correct transmission of the reading condition. [Simple description of the diagram] The first picture: a perspective view of a conventional guide. Second: A plan view of a conventional guide. The second figure is a combination of two types of guide joints. Fig. 4 is a perspective view of another angle of the g-type second guiding joint. M394473 Figure 5: Schematic diagram of the optical signal transmission of the two-way guide. Figure 6: A perspective view of the creation guide. The seventh figure of the brother is the plan view of the guide joint of the present creation. f Eight Diagram: This is the combination diagram of the two guide joints. Ninth view: Another perspective view of the second guide joint of the present invention. Figure 10: A perspective view of the two guide joints of the present creation. Figure: is a cross-sectional view of the creation of two joints. The optical signal transmission diagram of the two guiding joints of the present invention 〇 [main component symbol description] [conventional] 10 guiding joint 12 second end 14 convex lens 20 optical fiber cable 31 first end 33 receiving hole 35 docking hole [this Creation] 50 guide joint 52 second end 54 convex lens 56 guide positive block 70 second guide joint 11 first end 13 receiving hole 15 docking post 30 second guiding joint 32 second end 34 convex lens 40 fiber optic cable 51 First end 53 accommodating hole 55 docking post 60 fiber optic cable 71 first end M394473 72 second end 73 accommodating hole 74 convex lens 75 butt hole 76 leading vacant slot 80 fiber optic cable

Claims (1)

M394473 VI. Patent Application Range: 1. A fiber-optic connection guide joint male snap-fit structure, the guide joint is provided with at least one fiber-optic cable assembly, wherein: one end of the guide joint is provided with at least one convex lens, the convex lens and the assembly Corresponding to the optical fiber cable, a male engaging structure is respectively disposed on opposite sides of the convex lens, the male engaging structure is a circular docking pole, and at least two plural guiding bodies are equally divided on the circumference of the circular docking pole Bump. 2. The fiber-optic joint guide joint male snap structure according to claim 1, wherein the docking pole has a taper. 3. The fiber-optic joint guide joint male snap structure of claim 1, wherein the guide bump has a taper. 4. The fiber-optic joint guide joint male snap structure according to claim 1, wherein the guide bump has a shorter length than the docking pole. 5. The fiber-optic joint guide joint male snap structure according to claim 1, wherein the length of the guide bump is equal to the length of the docking pole. 6. The optical fiber joint guiding joint male engaging structure according to claim 1, wherein the guiding joint is coupled to another second guiding joint, and the second guiding joint is provided with a circular butting hole The inner edge of the circular butt hole is equally divided into a plurality of guiding slots corresponding to the guiding protrusions. 7. The fiber optic splice guide male snap structure of claim 6, wherein the mating hole has a taper. 8. The fiber optic splice guide male snap structure of claim 6, wherein the guide slot has a taper.