This application claims the priority benefit of Taiwan application serial no. 102128852, filed on Aug. 12, 2013. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
The disclosure generally relates to a fixing bracket. More particularly, the disclosure relates to a fixing bracket for signal connector.
With the continuous advancement and improvement of electronic technology and communication techniques, various signal connectors may used for transmitting signals between electronic devices.
All of the fixing manners of fixing the signal connector to the circuit board illustrated above need a metal element or metal elastic element, and this not only increases the manufacturing cost but also increases complexity in assembling.
The disclosure provides a fixing bracket for signal connector, wherein the fixing bracket is adapted for a signal connector may rapidly and simply be fixed to a circuit board, and has a lower manufacturing cost.
The disclosure provides a fixing bracket for signal connector adapted for fixing a signal connector onto a circuit board. The circuit board includes an assembling hole, and the signal connector includes a body and two protruding portions symmetrically protruding from the body. Each of the protruding portions has two opposite first surfaces, the body has two opposite second surfaces and two opposite third surfaces, each of the first surfaces, each of the second surfaces and each of the third surfaces are perpendicular to one another. The fixing bracket for signal connector includes a base, at least one fixing member and two engaging sets. The base includes a top surface and a bottom surface opposite to each other. The fixing member protrudes from the bottom surface of the base, wherein each of the fixing members is adapted to pass through the assembling hole from a surface of the circuit board and interfere with another surface of the circuit board. The two engaging sets protrudes from the top surface of the base, and each of the two engaging sets includes at least one first restricting surface perpendicular to the top surface, at least one second restricting surface perpendicular to the top surface, and a third restricting surface parallel to the top surface, and the first restricting surface is adjacent to the second restricting surface. The two at least one first restricting surfaces of the two engaging sets are adapted to respectively at least contact one of the two first surfaces of each of the two protruding portions of the signal connector, and the two first surfaces which contact the two at least one first restricting surfaces of the two engaging sets are not coplanar. The two at least one second restricting surfaces of the two engaging sets are adapted to respectively contact the two second surfaces of the signal connector. And the two third restricting surfaces of the two engaging sets and the top surface are adapted to respectively contact the two third surfaces of the signal connector, so as to fix the signal connector.
In one exemplary embodiment of the disclosure, each of the two engaging sets is a hook-shaped flexible arm, and the two engaging sets are staggered, such that projections of the two second restricting surfaces projecting onto a surface on which any one of the two second restricting surfaces exists are not overlapped to each other.
In one exemplary embodiment of the disclosure, each of the two engaging sets includes two hook-shaped flexible arms, and the two engaging sets are disposed oppositely.
In one exemplary embodiment of the disclosure, each of the two engaging sets includes a hook-shaped flexible arm and an engaging slot located at a side of the hook-shaped flexible arm, the two hook-shaped flexible arms are staggered and the two engaging slots are disposed opposite to each other, each of the engaging slots extends away from the top surface, and the first restricting surface is one of innerwall surfaces of the engaging slot.
In one exemplary embodiment of the disclosure, each of the two engaging sets includes two hook-shaped flexible arms and an engaging slot, the engaging slot is located between the two hook-shaped flexible arms and extends away from the top surface, the first restricting surface is one of innerwall surfaces of the engaging slot, and the two engaging sets are disposed oppositely.
In one exemplary embodiment of the disclosure, the fixing bracket for signal connector further includes a positioning protruding block protruding from the bottom surface of the base, and the circuit board further includes a positioning hole corresponding to the positioning protruding block.
In one exemplary embodiment of the disclosure, each of the fixing member comprises an end portion which is away from the bottom surface and at least two flexible segment portions, the flexible segment portions are averagely disposed around the end portion and extend toward the bottom surface, a maximum outer diameter of the flexible segment portions is W mm, a diameter of the assembling hole is D mm, wherein D mm≦W mm≦D+0.2 mm.
In one exemplary embodiment of the disclosure, a number of the fixing member is two, each of the fixing members includes two flexible segment portions, a connecting line of the two flexible segment portions of one of the two fixing members intersects a connecting line of the two flexible segment portions of the other of the two fixing members.
In one exemplary embodiment of the disclosure, a diameter of the assembling hole is D mm, and 3.3 mm<D<3.7 mm.
In one exemplary embodiment of the disclosure, the signal connector is an optical fiber signal connector.
In light of the above, in the fixing bracket for signal connector of the disclosure, two engaging sets protruding from the top surface are used for fixing the signal connector, and the first, second and third restricting surfaces of the two engaging sets may contact the first, second and third surfaces of the signal connector, so that the signal connector may be restricted in different directions. In addition, in the fixing bracket for signal connector of the disclosure, through the fixing member protruding from the bottom surface, wherein the flexible segment portions of the fixing member may be flexibly deformed to pass through the assembling hole of the circuit board first and may recover after passing through, and since the maximum outer diameter of the flexible segment portions is larger than the diameter of the assembling hole when the flexible segment portions are not compressed, the flexible segment portions may stay on the other surface of the circuit board, such that the fixing bracket is rapidly assembled to the circuit board in one only step. The fixing bracket for signal connector of the disclosure may be easily fixed to the circuit board, and is also provided for the signal connector being fixed thereto. The assembling process is quite rapid and simple, and any metal element is not required. Thus, manufacturing cost may be effectively reduced.
To make the above features and advantages of the disclosure more comprehensible, several embodiments accompanied with drawings are described in detail as follows.
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
The fixing bracket for signal connector of the disclosure is adapted for fixing a signal connector 10 which is shown in
The base 110 includes a top surface 112 and a bottom surface 114 opposite to each other. The two engaging sets 130 protrude from the top surface 112 of the base 110 and are oppositely disposed. Each of the engaging sets 130 includes two hook-shaped flexible arms 132 and an engaging slot 134, wherein the engaging slot 134 is located between the two hook-shaped flexible anus 132 and extends toward a direction away from the top surface 112.
Each engaging set 130 includes a first restricting surface LS1 and a second restricting surface LS2 which are perpendicular to the top surface 112 and adjacent to each other, and a third restricting surface LS3 which is parallel to the top surface 112. In the embodiment, each engaging slot 134 has two first restricting surfaces LS1 and two second restricting surfaces LS2, wherein the two first restricting surfaces LS1 are the two opposite innerwall surfaces of the engaging slot 134, and the two second restricting surfaces LS2 are respectively adjacent to the two first restricting surfaces LS1. Each hook-shaped flexible arm 132 has a second restricting surface LS2 and a third restricting surface LS3 which are adjacent to each other. In the embodiment, all of the engaging slots 134 and the hook-shaped flexible anus 132 have second restricting surfaces LS2, however in other embodiments it is not limited thereto, as long as at least one of each engaging slot 134 and each hook-shaped flexible arm 132 has the second restricting surface LS2.
When the signal connector 10 is assembled to the fixing bracket for signal connector 100, since the hook-shaped flexible arms 132a are flexible, and as long as the signal connector 10 is compressed into the fixing bracket for signal connector 100, the four hook-shaped flexible arms 132 may be slightly and flexibly deformed outward, such that the signal connector 10 may have a sufficient room to enter between the two engaging sets 130. Or, the user may also directly separate the hook-shaped flexible arms 132, such that the signal connector 10 enters between the two engaging sets 130.
If the fixing bracket for signal connector 100 is going to be fixed onto the circuit board 20, the positioning protruding block 140 may be aligned with the positioning hole 24 of the circuit board 20 and the two fixing members 120 respectively pass through the two assembling holes 22, and since the flexible segment portions 124 are flexible, in the process of when the fixing member 120 passes through the assembling hole 22, the two flexible segment portions 124 of each fixing member 120 may slightly be approached to each other and pass through the assembling hole 22. When the flexible segment portions 124 pass through the assembling hole 22 and extend toward the other surface of the circuit board 20, the flexible segment portions 124 may move toward directions away from one another in order to return to the original status. In the embodiment, the maximum outer diameter of the flexible segment portions 124 of the fixing member 120 is W mm, the diameter of the assembling hole 22 is D mm, wherein D mm<W mm≦D+0.2 mm, and in another embodiment, the maximum outer diameter of the flexible segment portions 124 may comply with: D mm<W mm≦D+0.1 mm. In other words, under a condition that the flexible segment portions 124 are not compressed, the maximum outer diameter may be larger than the diameter of the assembling hole 22. Thus, the flexible segment portions 124 may stay at the other surface of the circuit board 20, such that the fixing bracket for signal connector 100 is fixed to the circuit board 20. In the embodiment, the diameter D mm of the assembling hole 22 is between 33 mm and 3.7 mm. In another embodiment, D mm is 3.5 mm, but the disclosure is not limited by the abovementioned embodiments.
Moreover, when the flexible segment portions 124 may stay at the other surface of the circuit board 20, the flexible segment portions 124 may contact the circuit board 20 as shown in
The abovementioned only illustrates one of the conditions of the fixing member 120, in other embodiments, the fixing bracket for signal connector 100 may merely have one fixing member 120a.
In addition, the method for the fixing bracket for signal connector 10 being fixed to the circuit board 20 is not limited by the abovementioned.
The fixing bracket for signal connector 100 of the embodiment may be assembled to the circuit board 20 in only one step through the fixing member 120, 120a, 120b, and the signal connector 10 may be restricted by the two engaging sets 130 in only one step. In the manufacturing process, the signal connector 10 may be assembled to the fixing bracket for signal connector 100 in advance and after that together fixed to the circuit board 20, or the fixing bracket for signal connector 100 may be fixed to the circuit board 20 in advance and after that the signal connector 10 may be assembled to the fixing bracket for signal connector 100, and in any of mentioned methods, it is very rapid and simple in assembling, and no metal element is required, and thus the assembling steps and manufacturing cost may be effectively reduced.
Since different signal connectors 10 may have protruding portions 14 with different length specifications, in order to avoid a condition that the engaging slot 234 has a limitation in depth and the protruding portions 14 having longer protruding lengths may not enter the engaging slot 234, in the embodiment, the engaging slot 234 of the fixing bracket for signal connector 200 is specifically designed to be two separated rectangular protruding columns 234a, wherein when the signal connector 10 is disposed into the fixing bracket for signal connector 200 of the embodiment, the protruding portions 14 of the signal connector 10 may be located between the two separated rectangular columns 234a. In each engaging set 230, the two opposite surfaces of the two rectangular columns 234a are two first restricting surfaces LS1, and the fixing bracket for signal connector 200 of the embodiment may similarly achieve the effect that through the two first restricting surfaces LS1, the signal connector 10 is restricted to have movement along the first axis A1. In addition, the fixing bracket for signal connector 200 of the embodiment may be used for fixing the signal connectors 10 in which the protruding portions 14 thereof have different length specifications.
In the embodiment, the width of the hook-shaped flexible arms 332 is wider, and in other embodiments, the width of the hook-shaped flexible arms 332 may be approximate to the width of the hook-shaped flexible arms 132 of
In the embodiment, each engaging slot 434 and the engaging slot 134 of
In the fixing bracket for signal connector 400 of the embodiment, via the two hook-shaped flexible arms 432 being staggered, after the signal connector 10 is assembled, it may provide a better restricting function to the third surfaces LS3 of the signal connector 10. Therefore, the fixing bracket for signal connector 400 of the embodiment may still firmly fix the signal connector 10 under a condition of having a less number of hook-shaped flexible arms 432.
Certainly, in other embodiments, each engaging set 430 may also merely include a hook-shaped flexible arm 432 and an engaging slot 434, and the two hook-shaped flexible arms 432 and the two engaging slots 434 of the two engaging sets 430 may be disposed oppositely, and the configuration of the hook-shaped flexible arms 430 and the engaging slots 434 is not limited thereto.
In detailed, each hook-shaped flexible arm 532 has a first restricting surface LS1, a second restricting surface LS2 and a third restricting surface LS3. The perpendicular distance between the two surfaces on which the two first restricting surfaces LS1 exist is substantially equal to the distance between the two first surfaces S1 of the protruding portions 14 of the signal connector 10. Thus, when the signal connector 10 is located between the two engaging sets 530, the first restricting surfaces LS1 of each hook-shaped flexible arm 532 respectively contact one of the first surface S1 of one of the protruding portions 14, and the two first surfaces S1 which contact the two first restricting surfaces LS1 are not coplanar, so as to restrict the signal connector 10 from moving along the first axis A1. The two second restricting surfaces LS2 of the two hook-shaped flexible arms 532 contact the two second surfaces S2 of the signal connector 10 respectively, in order that the signal connector 10 moving toward the second axis A2 is restricted, and the two third restricting surfaces LS3 and the top surface 512 contact the two third surfaces S3, in order that the signal connector 10 moving toward the third axis A3 is restricted. Therefore, the fixing bracket for signal connector 500 of the embodiment may achieve the effect of fixing the signal connector 10 by using less components.
In light of the foregoing, in the fixing bracket for signal connector of the disclosure, two engaging sets protruding from the top surface are used for fixing the signal connector, and the first, second and third restricting surfaces of the two engaging sets may contact the first, second and third surfaces of the signal connector, so that the signal connector may be restricted in different directions, and firmly fixed in the fixing bracket for signal connector. Since the hook-shaped flexible arms of the engaging sets are flexible, the signal connector may directly be compressed between the two engaging sets during the assembling process, or the user may directly separate the hook-shaped flexible arms, in order that the signal connector may enter the space between the two engaging sets, the signal connector may be fixed to the fixing bracket for signal connector in only one step. In addition, in the fixing bracket for signal connector of the disclosure, through the fixing member protruding from the bottom surface, wherein the flexible segment portions of the fixing member may be flexibly deformed to pass through the assembling hole of the circuit board first and may recover after passing through, and since the maximum outer diameter of the flexible segment portions when the flexible segment portions are not compressed is larger than the diameter of the assembling hole, the flexible segment portions may stay on the other surface of the circuit board, such that the fixing bracket is rapidly assembled to the circuit board in one only step. Moreover, through the flexible segment portions contacting the circuit board so as to provide the friction force between the fixing bracket and the circuit board, the signal connector is firmly fixed on the circuit board. Therefore, the fixing bracket for signal connector of the disclosure may be rapidly and simply fixed to the circuit board during the assembling process, and no metal element is required. Thus, manufacturing cost may be effectively reduced.
The fixing bracket for signal connector of the disclosure may be easily fixed to the circuit board, and is also provided for the signal connector being fixed thereto. The assembling process is quite rapid and simple, and any metal element is not required. Thus, manufacturing cost may be effectively reduced.
Although the disclosure has been described with reference to the above embodiments, it will be apparent to one of ordinary skill in the art that modifications to the described embodiments may be made without departing from the spirit of the disclosure. Accordingly, the scope of the disclosure will be defined by the attached claims and not by the above detailed descriptions.
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Number | Date | Country | |
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