1. Field of the Invention
The present invention relates to positioning structures, and particularly to a positioning structure for an external keypad for a portable electronic device.
2. Description of related art
An external keypad assembly is usually assembled with a portable electronic device (e.g., a mobile phone). The external keypad assembly is often positioned on the portable electronic device and communicates with the portable electronic device with wires/cables or wirelessly.
However, users may feel uncomfortable to operate the external keypad assembly, in case that the external keypad assembly may be unstable when positioned on the portable electronic device.
Therefore, a heretofore-unaddressed need exists in the art to address the aforementioned deficiencies and inadequacies.
In present aspect, a positioning structure for an external keypad assembly is provided. The external keypad assembly includes an upper shell and a lower shell. The positioning structure includes a first mounting portion, a second mounting portion, a third mounting portion, a first positioning block, a second positioning block, and an elastic member. The first mounting portion is defined in the lower shell of the keypad assembly. The second mounting portion is defined in the lower shell of the keypad assembly. The third mounting portion extends from the second mounting portion and is located between the first mounting portion and second mounting portion. The first positioning block is rotatably mounted on the first mounting portion. The second positioning block is rotatably and slidably mounted on the second mounting portion. The elastic member has one end thereof mounted on the third mounting portion and the other end thereof mounted on the second positioning block. The elastic member is configured for biasing the second positioning portion to slide towards the first positioning block.
In another aspect, an external keypad assembly using the present positioning structure is provided. The external keypad assembly includes an upper shell and a lower shell. The lower shell is attached with the upper shell.
These and other aspects of the present invention will become more apparent from the following detailed description of the preferred embodiments taken in conjunction with the accompanying drawings, although variations and modifications therein may be affected without departing from the spirit and scope of the novel concepts of the disclosure.
Many aspects of the present positioning structure for a keypad assembly can be better understood with reference to the following drawings. These drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present positioning structure and the present keypad assembly. Moreover, in the drawings like reference numerals designate corresponding parts throughout the several views. Wherever possible, the same reference numbers are used throughout the drawings to refer to the same or like elements of an embodiment.
The present positioning structure 23 for an external keypad assembly 20 is described here in conjunction with the accompanying drawings in
Referring to
The external keypad assembly 20 is a keyboard positioned with the base body 12, which communicates with the portable electronic device 10 with wires/cables or wirelessly (e.g., Bluetooth wireless transmission technology). In use, due to the size of the external keypad assembly 20 is larger than that of the main keypad assembly 125, operator may operate the external keypad assembly 20 more easily than the main keypad assembly 125.
Referring further to
The upper shell 21 has a plurality of key buttons 213 disposed on one surface thereof and six latching portions 214 disposed on another surface thereof. The six latching portions 214 are located on the opposite side of the key buttons 213. The six latching portions 214 are rectangular-shaped and each has a rectangular latching groove 2141 defined therethrough.
The lower shell 22 is configured to attach with the upper shell 21 thus, cooperatively enclose a receiving space (not labeled) therewithin. The lower shell 22 is generally a rectangular shell and has four sidewalls 221 and an enclosed wall 222 cooperatively defining an accommodating space 223 therein. Two facing sidewalls has six latching claws 227 corresponding to the six latching portions 214 of the upper shell 21, respectively. The six latching claws 227 each is configured for latching/hooking with respective latching portion 214 via engaging into the latching groove 2141 of the latching portion 214.
The positioning structure 23 includes a first mounting portion 231, a second mounting portion 232, a third mounting portion 233, a first positioning block 234, a second positioning block 235, and an elastic member 236. The first mounting portion 231 and the second mounting portion 232 are formed on the lower shell 22 of the external keypad assembly 20. The third mounting portion 233 extends from the second mounting portion 232 and located between the first mounting portion 231 and second mounting portion 232. The first positioning block 234 is rotatably mounted on the first mounting portion 231. The second positioning block 235 is rotatably and slidably mounted on the second mounting portion 232. The elastic member 236 has one end thereof mounted on the third mounting portion 233 and the other end thereof mounted on the second positioning block 235. The elastic member 236 is configured for biasing the second positioning block 235 to slide towards the first positioning block 234.
The first mounting portion 231 includes a first accommodating cavity 2312 and two shaft portions 2315. The first accommodating cavity 2312 is generally rectangular and configured for accommodating the first positioning block 234 therein. The first accommodating cavity 2312 is defined through the enclosed wall 222 of the lower shell 22 into a first protruding portion 2311 protruded from the enclosed wall 222. The two shaft portions 2315 are generally cylindrical and oppositely disposed within the first accommodating cavity 2312. The first accommodating cavity 2312 is enclosed by four sidewalls, and the two shaft portions 2315 are protruded from two opposite sidewalls and located in alignment with each other within the first accommodating cavity 2312.
The second mounting portion 232 includes a second accommodating cavity 2322 and two sliding grooves 2327. The second accommodating cavity 2322 is generally rectangular and configured for accommodating the second positioning block 235 therein. The second accommodating cavity 2322 is defined through the enclosed wall 222 of the lower shell 22 into a second protruding portion 2321 protruded from the enclosed wall 222. The second accommodating cavity 2322 is enclosed by four sidewalls, and the two sliding grooves 2327 are defined in two opposite sidewalls and aligned with each other. The two sliding grooves 2327 are oppositely defined communicating with the second accommodating cavity 2322.
The third mounting portion 233 is generally a cylinder 2331 with a Z-shaped first hooked portion 2333 extending therefrom. The cylinder 2331 connects with the first protruding portion 2311 and is located between the first protruding portion 2311 and the second protruding portion 2321. The third mounting portion 233 further defines a through aperture 2332 through the cylinder 2331. The through aperture 2332 communicates with the second accommodating cavity 2322. The first hooked portion 2333 extends towards the second protruding portion 2321 in alignment with the through aperture 2332.
The first positioning block 234 includes a first base portion 2341 and a first clamping claw 2342 extending from the first base portion 2341. The first base portion 2341 defines two shaft holes 2347 and two mounting grooves 2348 respectively communicating with the two shaft holes 2347. The two shaft holes 2347 respectively correspond with the two shaft portions 2315 of the first mounting portion 231. The two mounting grooves 2348 each is configured for facilitating each shaft portions 2315 engaging into corresponding shaft hole 2347. The first base portion 2341 further includes two first resisting portions 2346 protruded from a surface from which the first clamping claw 2342 extends the first base portion 2341.
The first clamping claw 2342 includes an arc-shaped first claw portion 2343 and at least one first retaining portions 2349 formed on the first claw portion 2343. The arc-shaped first claw portion 2343 is configured for facilitating clamping of the first positioning block 234 with the base body 12 of the portable electronic device 10. The at least one first retaining portions 2349 is configured for elastically resisting against the sidewall of the first accommodating cavity 2312 and thus retaining the first positioning block 234 in the first accommodating cavity 2312.
The second positioning block 235 includes a second base portion 2351 and a second clamping claw 2352 extending from the second base portion 2351. The second base portion 2351 has two protruding posts 2354 protruded corresponding with the two sliding grooves 2327 of the second mounting portion 232. The two protruding posts 2354 respectively engage into the two sliding grooves 2327 and are configured for rotatably and slidably moving in the two sliding grooves 2327. The second base portion 2351 further has a second hooked portion 2358 formed thereon and two second resisting portions 2359 protruded from a surface which the second clamping claw 2352 extends from the second base portion 2351. The second hooked portion 2358 is formed by defining an intersecting aperture 2357. The intersecting apertures 2357 is defined in one corner side of the second base portion 2351, as clearly seen in
The second clamping claw 2352 includes an arc-shaped second claw portion 2353 and at least one second retaining portions 2355 formed on the second claw portion 2353. The arc-shaped second claw portion 2353 is configured for facilitating clamping of the second positioning block 235 with the base body 12 of the portable electronic device 10. The at least one second retaining portions 2355 is configured for elastically resisting against the sidewall of the second accommodating cavity 2322 and thus retaining the second positioning block 235 in the second accommodating cavity 2322.
The elastic member 236 is advantageously a coil spring, which has a first hooked end 2361 and a second hooked end 2362 formed on two opposite ends thereof. The elastic member 236 is configured for engaging through the through aperture 2332 of the third mounting portion 233 so as to hook the first hooked end 2361 with the first hooked portion 2333 of the third mounting portion 233 and hook the second hooked end 2362 with the second hooked portion 2358 of the second positioning block 235.
In assembly, referring further to
After that, the first positioning block 234 is positioned in the first accommodating cavity 2312 of the first mounting portion 231 of the lower shell 22 in such manner that the two shaft portions 2315 each engages into the respective mounting groove 2348 of the first positioning block 234 then, slide along the mounting groove 2348 to engage into the corresponding shaft hole 2347 of the first positioning block 234.
The lower shell 22, combined with the first positioning block 234, the second positioning block 235, and the elastic member 236, is further attached with the upper shell 21 by respective latching of the latching claws 227 with the latching portions 214. Thus, assembly of the accessory keypad assembly 20 is completed.
In positioning the external keypad assembly 20 on the portable electronic device 10, the first positioning block 234 and the second positioning block 235 are firstly rotated with respect to the external keypad assembly 20 so as to expose the first claw portion 2343 and the second claw portion 2353 from the first accommodating cavity 2312 and the second accommodating cavity 2322. Secondly, the second positioning block 235 is pulled away from the first positioning block 234 along the two sliding grooves 2327 of the second mounting portion 232. In this case, the elastic member 236 is accordingly stretched. Thirdly, the external keypad assembly 20 is placed above the main keypad assembly 125 of the portable electronic device 10 with the first claw portion 2343 and the second claw portion 2353 aligned with the two sidewalls 121 of the base body 12 of the portable electronic device 10. Finally, the second claw portion 2353 of the second positioning block 235 is released then moves towards one sidewall 121 by the restoring force of the elastic member 236 so as to clamp the base body 12 with the first claw portion 2343 of the first positioning block 234. Thus, the accessory keypad assembly 20 is positioned on the portable electronic device 10.
One main advantage of the present embodiment embodies that the external keypad assembly 20 can be securely/stably positioned on the portable electronic device 10 by clamping of the first positioning block 234 and the second positioning block 235 with the base body 12. As user operates the external keypad assembly 20, unstable movements and/or shakings of the external keypad assembly 20 relative to the main keypad assembly 21 may be avoided effectively.
It is to be understood, however, that even through numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Date | Country | Kind |
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200710202392.X | Nov 2007 | CN | national |