Patent Grant
11509085
This application claims the benefit of China Patent Application No. 202011010537.8, filed Sep. 23, 2020, the entirety of which is incorporated by reference herein.
The application relates in general to a connecting socket, and in particular, to a connecting socket having an electronic member.
Many electronic devices use connecting structures to electrically connect other electronic devices, so as to transmit power, signals, or data. However, if the connecting structure is not properly designed and a large current flows through the connector during the transmission, the temperature of the terminal where the plug is in contact with the socket of the connecting structure may become higher, the transmission efficiency may be reduced, and the connector may be further damaged due to the high temperature. Therefore, how to address the aforementioned problem has become an important issue.
To address the deficiencies of conventional products, an embodiment of the invention provides a connecting socket configured to connect a connector. The connecting socket includes a conductive member, an opening, and an electronic member. The conductive member has a recess. The opening is formed on an end of the connecting socket and communicates with the recess. The electronic member is accommodated in the recess, and has a main body and a plurality of cantilever structures. Each of the cantilever structures includes a fixed end, a free end, a first contact point, and a second contact point. The fixed end is connected to the main body of the electronic member, and the free end is disposed between the opening and the fixed end. The first contact point and the second contact point are disposed on opposite surfaces of the cantilever structure. When the connecting socket is connected to the connector, the first contact point contacts the connector, and the second contact point contacts the conductive member.
In some embodiments, the main body has an inner surface, and the first contact point protrudes from the inner surface.
In some embodiments, the recess has a bottom surface and a lateral wall, the lateral wall is disposed between the opening and the bottom surface, and some of the cantilever structures are arranged in a line from the bottom surface to the opening. The connecting socket includes a main axis passing through the center of the bottom surface and the center of the opening. The line is parallel to the main axis. In some embodiment, the line is inclined relative to the main axis.
In some embodiments, some cantilever structures surround the main axis.
In some embodiments, the electrical conductivity of the conductive member is greater than the electrical conductivity of the electronic member, and the electronic member has high elasticity. The cantilever structures are electrically connected to each other in parallel via the main body. A plate structure is formed between the second contact point and the fixed end.
In some embodiments, the distance between the first contact point and the second contact point is less than the distance between the second contact point and the fixed end. In some embodiments, the distance between the first contact point and the second contact point is greater than the distance between the second contact point and the fixed end.
In some embodiments, the connecting socket further comprises a positioning member, and the positioning member is engaged with the conductive member and configured to affix the electronic member in the recess. The opposite ends of the electronic member are respectively in contact with the positioning member and the bottom surface. The opening is formed on the positioning member. The positioning member comprises low electrical conductivity material or non-electrical conductivity material.
In some embodiments, the cantilever structures are parallel to each other. The main body has an outer surface, and the electronic member further comprises a plurality of protrusions. The protrusions protrude from the outer surface and are in contact with the conductive member. Some protrusions are adjacent to the bottom surface of the recess.
The invention can be more fully understood by reading the subsequent detailed description and examples with references made to the accompanying drawings, wherein:
The making and using of the embodiments of the connecting socket are discussed in detail below. It should be appreciated, however, that the embodiments provide many applicable inventive concepts that can be embodied in a wide variety of specific contexts. The specific embodiments discussed are merely illustrative of specific ways to make and use the embodiments, and do not limit the scope of the disclosure.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It should be appreciated that each term, which is defined in a commonly used dictionary, should be interpreted as having a meaning conforming to the relative skills and the background or the context of the present disclosure, and should not be interpreted in an idealized or overly formal manner unless defined otherwise.
Referring to
In some embodiments, the connector 20 can be a terminal of an AC power plug, and the connecting socket 10 can be a terminal of an AC power socket. In some embodiments, the connector 20 and the connecting socket 10 can respectively be a terminal of a plug and a terminal of a socket of an AC/DC electric vehicle connector, an AC/DC machine tool connector, or a connecting apparatus which requires transmitting a large current, but it is not limited thereto.
As shown in
The recess 110 includes a bottom surface 111 and a lateral wall 112, wherein the bottom surface 111 faces the opening 11, and the lateral wall 112 is extended from the bottom surface 111 to the opening 11. In this embodiment, the depth of the recess 110 (i.e. the distance from the bottom surface 111 to the opening 11) is substantially the same as the length of the electronic member 200, and the dimensions of the portion of the recess 110 adjacent to the opening 11 is larger than the dimensions of the portion of the recess 110 adjacent to the bottom surface 111. Furthermore, a line extending from the center of the bottom surface 111 to the center of the opening 11 can be defined as a main axis R of the recess 110.
Referring to
Each of the cantilever structures 220 includes at least one first contact point 223 and at least one second contact point 224, respectively situated on opposite surfaces of the cantilever structure 220. The first contact point 223 protrudes from an inner surface 211 of the main body 210, and is adjacent to the free end 222 of the cantilever structure 220. The second contact point 224 and an outer surface 212 of the main body 210 face the inner wall of the recess 110, and the second contact point 224 is disposed between the first contact point 223 and the fixed end 221 of the cantilever structure 220. Therefore, the distance between the second contact point 224 and the fixed end 221 is less than the distance between the first contact point 223 and the fixed end 221. In this embodiment, the distance between the first contact point 223 and the second contact point 224 is less than the distance between the second contact point 224 and the fixed end 221.
The cantilever structures 220 on the electronic member 200 are arranged from the bottom surface 111 of the recess 110 to the opening 11, and arranged around the main axis R of the recess 110. In this embodiment, the arrangement direction D of the cantilever structures 220 is inclined relative to the main axis R. That is, the direction of the cantilever structures 220 arranged from the bottom surface 111 of the recess 110 to the opening 11 is dislocated.
The electronic member 200 further includes a plurality of protrusions 230. The protrusions 230 are disposed on the main body 210 and protrude from an outer surface 212 of the main body 210. The positions of the protrusions 230 are adjacent to opposite ends of the electronic member 200. In other words, some protrusions 230 are adjacent to the bottom surface 111 of the recess 110, and some protrusions 230 are adjacent to the opening 11 of the conductive member 100. When the electronic member 200 is disposed in the recess 110 of the conductive member 100, the protrusions 230 adjacent to the bottom surface 111 of the recess 110 are in contact with the inner wall of the recess 110. Therefore, the outer surface 212 of the main body 210 is spaced away from the inner wall of the recess 110. The outer surface 212 of the main body 210 is not directly in contact with the inner wall of the recess 110.
As shown in
It should be noted that, when the connector 20 enters the recess 110 and connects the connecting socket 10, the connector 20 is not in contact with the inner wall 211 of the main body 210. Moreover, since the distance between the first contact point 223 and the second contact point 224 is short, the current from the connector 20 can be rapidly transmitted to the conductive member 100, and the energy does not stay on the cantilever structures 220. Therefore, the condition in that the temperature becomes higher at partial portion (joule heating) can be avoided. Furthermore, the cantilever structures 220 are arranged on the main body 210 of the electronic member 200 in a checkerboard-shaped manner, and the arrangement direction D of the cantilever structures 220 arranged along the depth direction of the recess 110 is inclined relative to the main axis R, so that the current flowing through the conductive member 100 can be dispersed. The condition in that the temperature becomes higher at partial portion can be further prevented. For example, when the room temperature is 25° C. and the current with 80 ampere flows from the connector 20 to the connecting socket 10, the highest temperature of the portion of the connecting socket 10 is only 60° C.-80° C. (such as 70° C.). In addition, compared to the embodiment in
The electronic member 200 includes conductive metal material with high elasticity, such as beryllium copper, phosphor bronze, or brass, but it is not limited thereto. In this embodiment, the electrical conductivity of the conductive member 100 is greater than that of the electronic member 200.
In this embodiment, the electronic member 200 is formed by the following steps. The cantilever structures 220 can be formed on a metal plate by drilling and/or other suitable method, and then the metal plate can be bent to form the hollow cylindrical structure. Thus, the portion of each of the cantilever structures 220 from the fixed end 221 to the second contact point 224 has a plate structure. Since the inner wall of the recess 110 has an arc shape, each of the cantilever structures 220 has two second contact point 224 in this embodiment.
Referring to
As shown in
The protrusion 230 of the electronic member 200 adjacent to the opening 11 can also be in contact with the positioning member 300, so that the position of the electronic member 200 in the X-axis and/or Y-axis can be fixed more steadily. Since the positioning member 300 is made by low electrical conductivity material or non-electrical conductivity material, when the connector 200 inserts, the current does not flow into the conductive member 100 from the protrusion 230 adjacent to the opening 11. The efficacy of the cantilever structures 220 in that reducing the temperature becoming higher at partial portion can be maintained.
In this embodiment, at least one bending portion 310 is formed on the positioning member 300 at the opening 11, and the bending portion 310 is extended toward the recess 110 of the conductive member 100. The protrusion 230 of the electronic member 200 is in contact with the wall of the bending portion 310. Moreover, at least one notch 311 is formed on the bending portion 310. When the electronic member 200 is disposed in the recess 110 of the conductive member 100, the extending portion 240 of the electronic member 200 passes through the notch 311 and is in contact with the plate portion 320 of the positioning member 300 corresponding to the notch 311. Thus, the electronic member 200 can be positioned.
The connecting socket 10 can include electronic member with other types. For example, the electronic member 200 of the connecting socket 10 can be replaced by the electronic member 200A shown in
Referring to
In summary, a connecting socket configured to connect a connector is provided. The connecting socket includes a conductive member, an opening, and an electronic member. The conductive member has a recess. The opening is formed on an end of the connecting socket and communicates with the recess. The electronic member is accommodated in the recess, and has a main body and a plurality of cantilever structures. Each of the cantilever structures includes a fixed end, a free end, a first contact point, and a second contact point. The fixed end is connected to the main body of the electronic member, and the free end is disposed between the opening and the fixed end. The first contact point and the second contact point are disposed on opposite surfaces of the cantilever structure. When the connecting socket is connected to the connector, the first contact point contacts the connector, and the second contact point contacts the conductive member.
Although some embodiments of the present disclosure and their advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the disclosure as defined by the appended claims. For example, it will be readily understood by those skilled in the art that many of the features, functions, processes, and materials described herein may be varied while remaining within the scope of the present disclosure. Moreover, the scope of the present application is not intended to be limited to the particular embodiments of the process, machine, manufacture, compositions of matter, means, methods and steps described in the specification. As one of ordinary skill in the art will readily appreciate from the disclosure of the present disclosure, processes, machines, manufacture, compositions of matter, means, methods, or steps, presently existing or later to be developed, that perform substantially the same function or achieve substantially the same result as the corresponding embodiments described herein may be utilized according to the present disclosure. Accordingly, the appended claims are intended to include within their scope such processes, machines, manufacture, compositions of matter, means, methods, or steps. Moreover, the scope of the appended claims should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements.
While the invention has been described by way of example and in terms of preferred embodiment, it should be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements (as would be apparent to those skilled in the art). Therefore, the scope of the appended claims should be accorded the broadest interpretation to encompass all such modifications and similar arrangements.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202011010537.8 | Sep 2020 | CN | national |
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| Number | Date | Country | |
|---|---|---|---|
| 20220094096 A1 | Mar 2022 | US |
