1. Technical Field
The present disclosure generally relates to power connectors, and more specifically relates to a power plug.
2. Description of Related Art
A three-pole power plug includes an upper case and a lower case coupled with the upper case to form a receiving space. The upper case includes a positive terminal, a negative terminal and a ground terminal to electrically connect to a corresponding power jack. The lower case includes two outputting terminals respectively connect to the positive terminal and the negative terminal through connecting wires. A part of the connecting wires are packaged in the receiving space of the power plug. During an assemble process of the power plug, the connecting wires are respectively connected to the positive terminal, the negative terminal and the outputting terminals by means of soldering. However, it is inconvenient to assemble the power plug by soldering.
Therefore, a heretofore unaddressed need exits in the industry to overcome the aforementioned deficiency.
The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the plug. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Embodiments of the present disclosure will be described with reference to the accompanying drawings.
Referring to
Further referring to
In the embodiment, each of the first connecting pole 22, the second connecting pole 24 and the third connecting pole 26 is a cuboid-shaped metal sheet. Each of the first connecting pole 22, the second connecting pole 24 and the third connecting pole 26 has a first distal end away from the upper case 20 and an opposite second end embedded in the upper case 20. The diameter of the first distal end is smaller than that of the second end. Such that the first connecting pole 22, the second connecting pole 24 and the third connecting pole 26 can be easily inserted into the power jack. The length of the first connecting pole 22 is greater than that of the second connecting pole 24 and the third connecting pole 26. When the power plug 100 is inserted into the jack, the first connecting pole 22 is firstly contacted to the ground terminal of the power jack for safety. When the power plug 100 is pulled out, the second connecting pole 24 and the third connecting pole 26 are firstly disconnected from the jack before the first connecting pole 22 is disconnected, thereby preventing a user from getting an electric shock.
Referring to
The upper case 20 further defines a resisting member 29 located on a surface of the upper case 20 facing to the lower case 10, and includes a resisting surface 290 extending from the upper case 20 to resist against the conductive resilient sheets 30. In this embodiment, the resisting member 29 is âTâ shaped, and includes a resisting wall 291 and a spacing wall 293 intersecting with the resisting wall 291. The resisting wall 291 extends from an edge of the upper case 20. The spacing wall 293 extends from the center of the resisting wall 291 and is located between the first and second connecting terminals 27, 28. The resisting wall 291 defines the resisting surface 290 resisting against the two conductive resilient sheets 30 to prevent the conductive resilient sheets 30 from slipping out of the lower case 10. The spacing wall 293 is insulatively space apart the two conductive resilient sheets 30 from each other.
Referring to
Each conductive resilient sheet 30 includes a connecting portion 31, a first conductive member 33 defined at one end of the connecting portion 31, and a second conductive member 35 defined at another opposite end of the connecting portion 31. The first conductive member 33 is fixed to the connecting portion 31 along a first direction, and is received in the outputting cavity 19 through the through hole 17 to connect the external device. The second conductive member 35 is fixed to the connecting portion 31 along a second direction perpendicular to the first direction to electrically connect to the first connecting terminal 27 or the second connecting terminal 28. The first direction is the positive direction of an X axis (as shown in
The connecting portion 31 includes a first connecting section 311 and a second connecting section 313. The first connecting section 311 is connected with the first conductive member 33. The second connecting section 313 is connected with the second conductive member 35. The first connecting section 311 is perpendicular to the second connecting section 313 to form an âLâ shape. A locking member 37 corresponding to the fastening member 14 is defined on the second connecting section 313 to fix a corresponding conductive resilient sheet 30 to the lower case 10. A resilient sheet 315 is connected between the second connecting section 313 and the second conductive member 35. The resilient sheet 315 is deformed when the second conductive member 35 is sleeved on the first connecting terminal 27 or the second connecting terminal 28.
In the embodiment, the first conductive member 33 is cylinder shaped. The first conductive member 33 includes a first cylindrical part 330 and a first output port 331 connected to the first cylindrical part 330. One end of the first cylindrical part 330 is connected to the first connecting section 311. Another end of the first cylindrical part 330 is connected to the first output port 331. A first waist portion 332 is defined on the first output port 331 to connect with the first cylindrical part 330. In this embodiment, the diameter of the first waist portion 332 is less than that of the first cylindrical part 330 and that of the first output port 331. Using the first output port 331 and the first waist portion 332, the first conductive member 33 can be more firmly sleeved on other components, e.g., wires or cylindrical conductive terminals. Further, at least one first slit 334 is defined to pass through the first output port 331, the first waist portion 332 and a part of the first cylindrical part 330 along the length direction of the first conductive member 33. In the embodiment, the number of the first slit 334 is three to divide one end of the first conductive member 33 away from the first connecting section 311 into three parts. Thus, the inner diameter of the first conductive member 33 can be adjusted to facilitate inserting other components therein. In other embodiments, the number of the at least one first slit 334 may be two or more than three.
The structure of the second conductive member 35 is similar to that of the first conductive member 33. The second conductive member 35 includes a second cylindrical part 350 and a second output port 351 connected to the second cylindrical part 350. One end of the second cylindrical part 350 is connected to the second connecting section 313. Another end of the second cylindrical part 350 is connected to the second output port 351. A second waist portion 352 is defined on the second output port 351 to connect with the second cylindrical part 350. In this embodiment, the diameter of the second waist portion 352 is less than that of the cylindrical part 350 and that of the second output port 351.
In other embodiments, the first conductive member 33, the second conductive member 35 and the connecting portion 31 can be integrated. The second conductive members 35 are correspondingly connected to the first connecting terminal 27 and the second connecting terminal 28. The first conductive members 33 are correspondingly received in the outputting cavities 19 to connect the external device. The connecting portion 31 connects between the first conductive member 33 and the second conductive member 35.
Referring to
In the embodiment of the present disclosure, the conductive resilient sheets 30 of the power plug 100 are electrically connected to the second connecting pole 24 and the third connecting pole 26 of the upper case 20, to conduct the voltage applied to the two connecting poles 24, 26 to the external device. Thus, previous means of jointing the connecting wires and the first, second, and third connecting poles 22, 24, 26 of the power plug 10 are not needed any more. And since the conductive resilient sheets 30 replace the connecting wires, the assemble of the power plug 100 is more convenient.
While various embodiments have been described and illustrated, the disclosure is not to be construed as being limited thereto. Various modifications can be made to the embodiments by those skilled in the art without departing from the true spirit and scope of the disclosure as defined by the appended claims.
Number | Date | Country | Kind |
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2012 1 0335907 | Sep 2012 | CN | national |
Number | Name | Date | Kind |
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5482478 | Liao | Jan 1996 | A |
Number | Date | Country | |
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20140073200 A1 | Mar 2014 | US |