This application claims priority to Chinese Application No. 201910875992.5, filed on Sep. 17, 2019, which is incorporated by reference in its entirety.
The present disclosure relates to a connector assembly, and more particularly, the present disclosure relates to a connector assembly having a clip.
Japanese patent application publication No. JP2002-261212A discloses a clip. The clip has a front mounting leg section and a rear mounting leg section and a front stopping leg and a rear stopping leg which respectively contact a front edge and a rear edge of a base plate of a heat sink. In an embodiment of the patent document, the front stopping leg and the rear stopping leg each include a connecting part. The connecting part of the front stopping leg is connected to a lower surface of a middle part of a front connecting section in a length direction. The connecting part of the rear stopping leg is connected to a lower surface of a middle part of a rear connecting section in the length direction.
In another embodiment of the patent document, a heat sink fixing clip is integrally formed from a metal sheet. A structure of a front stopping leg of the heat sink fixing clip is to form a general U-shape cut opening in a middle part of a front connecting section in a length direction and then bend downwardly into a groove of the base plate. A structure of a rear stopping leg of the heat sink fixing clip is similar to that of the front stopping leg. Therefore, displacement of the heat sink in a front-rear direction is limited
In a case that an upper surface of a heat sink is configured as a plane, for example, the upper surface of the heat sink does not have a groove for receiving a clip as the above patent document, a clip or a heat sink fixing clip cannot limit displacement of the heat sink in the front-rear direction. For example, when a plug is inserted into or pulled out in the front-rear direction, the heat sink is relatively easy to displace and disengage.
The description of the above “background” only provides a background, and it is not admitted that the description of the above “background” discloses the protection scope of the present disclosure, and the description of the above “background” does not constitute the background of the present disclosure, and any description of the above “background” should not be considered as any part of the present disclosure.
An embodiment of the present disclosure provides a connector assembly comprising a shielding shell, a heat dissipating module and a clip. The shielding shell comprises a top wall, two side walls and a receiving space which extends along a front-rear direction, the receiving space comprises a front end toward the front. The front end comprises an insertion opening, The heat dissipating module comprises a thermal conducting plate which corresponds to the receiving space and is provided to the top wall of the shielding shell. Side edges of the thermal conducting plate comprise rearward stopped portions toward the rear. The clip comprises an elastic pressing portion which presses against a top surface of the thermal conducting plate and outer side plates which are assembled to the corresponding side walls of the shielding shell. The outer side plate comprises a rearward displace limiting portion which cooperates with the corresponding rearward stopped portion of the thermal conducting plate so as to limit relative displacement of the thermal conducting plate relative to the shielding shell toward the rear.
In some embodiments, the side edge of the thermal conducting plate comprises a notch, the notch comprises a front end. The front end comprises the rearward stopped portion. The rearward stopped portion comprises an inner edge of the front end of the notch toward the rear. The rearward displace limiting portion of the clip comprises a front sheet. The front sheet extends to the rear of the corresponding rearward stopped portion of the thermal conducting plate.
In some embodiments, the side edge of the thermal conducting plate further comprises a forward stopped portion toward the front. The outer side plate of the clip further comprises a forward displace limiting portion. The forward displace limiting portion cooperates with the corresponding forward stopped portion of the thermal conducting plate so as to limit relative displacement of the thermal conducting plate relative to the shielding shell toward the front.
In some embodiments, the side edge of the thermal conducting plate comprises a notch. The notch comprises a front end and a rear end. The front end comprises the rearward stopped portion. The rearward stopped portion comprises an inner edge of the front end of the notch toward the rear. The rear end comprises the forward stopped portion. The forward stopped portion comprises an inner edge of the rear end of the notch toward the front. The rearward displace limiting portion of the clip comprises a front sheet. The front sheet extends to the rear of the corresponding rearward stopped portion of the thermal conducting plate. The forward displace limiting portion of the clip comprises a rear sheet. The rear sheet extends to the front of the corresponding forward stopped portion of the thermal conducting plate.
In some embodiments, the front sheet is a sheet whose sheet face is in vertical or a sheet whose sheet face horizontally lies.
In some embodiments, the front sheet and the rear sheet each are a sheet whose sheet face is in vertical or a sheet whose sheet face horizontally lies.
In some embodiments, the top wall of the shielding shell comprises a window which passes through and communicates with the receiving space, wherein the heat dissipating module further comprises a contacting plate which is provided to a bottom surface of the thermal conducting plate, the contacting plate extends into the receiving space via the window.
In some embodiment, the thermal conducting plate is a vapor chamber heatsink.
Another embodiment of the present disclosure provides a connector assembly. The connector assembly comprises a shielding shell, at least two heat dissipating modules and a clip. The shielding shell comprises a top wall, two side walls and at least two receiving spaces which extend along a front-rear direction. Each receiving space comprises a front end toward the front. The front end comprises an insertion opening. The at least two heat dissipating modules respectively correspond to the at least two receiving spaces. Each heat dissipating module comprises a thermal conducting plate which is provided to the top wall of the shielding shell. The thermal conducting plate comprises two side edges. The two side edges of the thermal conducting plate each comprise a rearward stopped portion toward the rear. The clip comprises an inner fixing portion fixed to the top wall of the shielding shell, outer side plates which are assembled to the corresponding side walls of the shielding shell, elastic pressing portions which press against top surfaces of the corresponding thermal conducting plates, and inner side plates which each are provided between the elastic pressing portion and the inner fixing portion. The outer side plate of the clip comprises a first rearward displace limiting portion, and the inner side plate of the clip comprises a second rearward displace limiting portion. The first rearward displace limiting portion of the outer side plate of the clip and the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate cooperate with each other and the second rearward displace limiting portion of the inner side plate of the clip and the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate cooperate with each other, so as to limit relative displacement of the corresponding thermal conducting plate relative to the shielding shell toward the rear.
In some embodiments, the two side edges of the thermal conducting plate each comprise a notch. The notch comprises a front end. The front end comprises the rearward stopped portion. The rearward stopped portion comprises an inner edge of the front end of the notch toward the rear. The first rearward displace limiting portion of the outer side plate of the clip comprises a front sheet. The front sheet extends to the rear of the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate. The second rearward displace limiting portion of the inner side plate of the clip comprises a front edge. The front edge extends to the rear of the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate.
In some embodiments, the two side edges of the thermal conducting plate each further comprise a forward stopped portion toward the front. The outer side plate of the clip comprises a first forward displace limiting portion, and the inner side plate of the clip comprises a second forward displace limiting portion. The first forward displace limiting portion of the outer side plate of the clip and the forward stopped portion of the corresponding side edge of the corresponding thermal conducting plate cooperate with each other and the second forward displace limiting portion of the inner side plate of the clip and the forward stopped portion of the corresponding side edge of the corresponding thermal conducting plate cooperate with each other, so as to limit relative displacement of the corresponding thermal conducting plate relative to the shielding shell toward the front.
In some embodiments, the two side edges of the thermal conducting plate each comprise a notch. The notch comprises a front end and a rear end. The front end comprises the rearward stopped portion. The rearward stopped portion comprises an inner edge of the front end of the notch toward the rear. The first rearward displace limiting portion of the outer side plate of the clip comprises a front sheet. The front sheet extends to the rear of the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate. The first forward displace limiting portion of the outer side plate of the clip comprises a rear sheet. The rear sheet extends to the front of the forward stopped portion of the corresponding side edge of the corresponding thermal conducting plate. The second rearward displace limiting portion of the inner side plate of the clip comprises a front edge. The front edge extends to the rear of the rearward stopped portion of the corresponding side edge of the corresponding thermal conducting plate. The second forward displace limiting portion of the inner side plate of the clip comprises a rear edge. The rear edge extends to the front of the forward stopped portion of the corresponding side edge of the corresponding thermal conducting plate.
In some embodiments, the front sheet is a sheet whose sheet face is in vertical or a sheet whose sheet face horizontally lies.
In some embodiments, the front sheet and the rear sheet each are a sheet whose sheet face is in vertical or a sheet whose sheet face horizontally lies.
In some embodiments, the top wall of the shielding shell comprises windows which each pass through and communicate with the corresponding receiving space, wherein each heat dissipating module further comprises a contacting plate which is provided to a bottom surface of the thermal conducting plate, each contacting plate extends into the corresponding receiving space via the corresponding window.
In some embodiments, the thermal conducting plate is a vapor chamber heatsink.
Another embodiment of the present disclosure provides a connector assembly. The connector assembly comprises a shielding shell, at least one heat dissipating module and a clip. The shielding shell comprises a top wall, side walls and at least one receiving space which extends along a front-rear direction. The receiving space comprises a front end toward the front. The front end comprises an insertion opening. The at least one heat dissipating module comprises a thermal conducting plate which corresponds to the receiving space and is provided to the top wall. Side edges of the thermal conducting plate comprising stopped portions. The clip comprises an elastic pressing portion which presses against a top surface of the thermal conducting plate and side plates. The side plate of the clip comprising a limiting portion, the limiting portion is configured to cooperate with the corresponding stopped portion of the thermal conducting plate so as to limit relative displacement of the thermal conducting plate relative to the shielding shell toward the front or toward the rear.
In the present disclosure, the clip, the thermal conducting plate and the shielding shell cooperate with each other to limit relative displacement of the thermal conducting plate relative to the shielding shell in the left-right direction, the up-down direction and the front-rear direction. Therefore, it can avoid the thermal conducting plate from unintentionally disengaging from the shielding shell.
The technical features and advantages of the present disclosure have been generalized quite broadly above, so that the detailed description of the present application below can be better understood. Other technical features and advantages constituting the protection scope of the claims of the present disclosure will be described below. Those skilled persons in the art should understand that the concepts and specific embodiments disclosed below can be easily utilized to modify or design other structures or manufacturing methods to achieve the same purpose as the present disclosure. Those skilled persons in the art should also understand that such equivalent construction cannot depart from the spirit and scope defined by the appended claims of the present disclosure.
The disclosed contents of the present disclosure can be more fully understood in conjunction with the detailed description and claims referring to the drawings, and the same reference numeral indicates the same element in the drawings.
The embodiments or examples of the disclosed contents illustrated in the drawings are described with specific language. It should be understood that it is not intended to limit the scope of the present disclosure. Reference numerals may be repeated in each embodiment, but even if they have the same reference numerals, the features in an embodiment are not necessarily used in another embodiment.
It will be understood that the various elements, assemblies, regions, layers or sections may be described herein using the terms first, second, third, etc., however, these elements, assemblies, regions, layers or sections are not limited to these terms. These terms are only used to distinguish one element, assembly, region, layer or section from another element, assembly, region, layer or section. The first element, assembly, region, layer or section described below may be referred to as a second element, assembly, region, layer or section without departing from the teachings of the inventive concept of the present disclosure.
The words used in the present disclosure are only used for the purpose of describing the specific exemplary embodiments and are not intended to limit the scope of the present disclosure. As used herein, “a” and “the” in singular form are also used to include plural, unless otherwise expressly indicated herein. It is to be understood that the word “include” used in the specification specifically indicates the existence of a feature, integer, step, operation, element or assembly which is described, but does not exclude the existence of one or more other features, integers, steps, operations, elements, assemblies or groups thereof.
The shielding shell 10 includes a top wall 10T and a bottom wall 10B which face each other and spaced apart from each other in an up-down direction Z1-Z2 (referring to
The top wall 10T of the shielding shell 10 includes a window 11 which passes through and communicates with the corresponding receiving space 20. The embodiment correspondingly includes four windows 11. Each receiving space 20 includes a front end 20F toward a front Y1 and a rear end 20R which is opposite to the front end 20F and covers a receptacle connector (not shown) provided on the board, as shown in
Referring to
Referring to
Moreover, each outer side plate 140 of the clip 100 includes a first rearward displace limiting portion 140F. The first rearward displace limiting portion 140F is configured to cooperate with the rearward stopped portion 46F of the thermal conducting plate 40 so as to limit relative displacement of the thermal conducting plate 40 relative to the shielding shell 10 toward the rear Y2. Displacement of the thermal conducting plate 40 toward the rear Y2 is limited. Specifically, the first rearward displace limiting portion 140F of each outer side plate 140 includes a front sheet 142F. The front sheet 142F extends to the rear of the rearward stopped portion 46F of the corresponding side edge 42 of the corresponding thermal conducting plate 40 so as to stop the inner edge 48F of the rearward stopped portion 46F of the corresponding side edge 42 of the corresponding thermal conducting plate 40. In the embodiment, the front sheet 142F of the clip 100 is a sheet whose sheet face is in vertical. However, the present disclosure is not limited thereto. In other embodiments, the front sheet 142F of the clip 100 may be a sheet whose sheet face horizontally lies (specifically shown in
In conclusion, with respect to the thermal conducting plate 40 positioned at the outermost side, the two side edges 42 of the thermal conducting plate 40 respectively cooperate with one outer side plate 140 and one inner side plate 160 of the clip 100 so as to limit relative displacement of the thermal conducting plate 40 relative to the shielding shell 10 in the front-rear direction Y1-Y2. With respect to the thermal conducting plate 40 positioned at the inner side, the two side edges 42 of the thermal conducting plate 40 respectively cooperate with the two inner side plates 160 of the clip 100 so as to limit relative displacement of the thermal conducting plate 40 relative to the shielding shell 10 in the front-rear direction Y1-Y2.
In some embodiments, the front sheet 142F of the clip 100 is a sheet whose sheet face is in vertical, and the rear sheet 142R of the clip 100 is a sheet whose sheet face horizontally lies. In some embodiments, the front sheet 142F of the clip 100 is a sheet whose sheet face horizontally lies, and the rear sheet 142R of the clip 100 is a sheet whose sheet face is in vertical.
Due to cooperation between each side edge 42 of the thermal conducting plate 40 and corresponding one of each outer side plate 140 and each inner side plate 160 of the clip 100, it can avoid the thermal conducting plate 40 unintentionally disengaging from the shielding shell 10 in the front-rear direction Y1-Y2.
Referring to
In the above description, the left-right direction X2-X1, the front-rear direction Y1-Y2, the up-down direction Z1-Z2, the up direction Z1, the down direction Z2, the front direction Y1, the rear direction Y2, the left direction X2 and the right direction X1 are used to illustrate relative positional relationship and action relationship of the components of
While the present disclosure and advantages thereof are described in detail, it is understood that various changes, replacements and substitutions may be made without departing from the spirit and scope of the present disclosure as defined by the appended claims. For example, many processes described above can be implemented in a variety of ways, and many processes described above can be replaced with other processes or combinations thereof. Further, the scope of the present disclosure is not limited to the specific embodiments of process, machinery, manufacturing, substance composition, means, method or step described in the specification. Those skilled in the art can understand from the disclosed contents of the present disclosure that existing or future developed process, machinery, manufacturing, substance composition, means, method or step which has the same function or achieve essentially the same result as the corresponding embodiment described herein can be used in accordance with the present disclosure. Accordingly, such a process, machinery, manufacturing, substance composition, mean, method or step is included in the claims of the present disclosure.
Number | Date | Country | Kind |
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201910875992.5 | Sep 2019 | CN | national |