1. Technical Field
The present disclosure relates to bases, and particularly to a base for an electronic device and an electronic apparatus using the base.
2. Description of Related Art
Electronic devices, such as a mobile phone, a media player, and a personal digital assistant (PDA) generally include video playing and data transmitting functions. However, users need to hold such electronic devices to view the video. Furthermore, the electronic device may need a data cable detachably coupled to the electronic device to receive or transmit data from or to another electronic device. So, it is inconvenient for the users to use the electronic device.
Therefore, there is room for improvement within the art.
Many aspects of the embodiments can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present embodiments. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Referring to
Referring to
The data cable 25 is for connecting the electronic device 1 to another electronic device (not shown), for the exchange of data between the electronic device 1 and the other electronic device. The data cable 25 includes a first connector plug 250, a second connector plug 254, and a transmitting wire 252 connected between the first connector plug 250 and the second connector plug 254. The first connector plug 250 is capable of being coupled to the connector slot of the electronic device 1. The second connector plug 254 is capable of being coupled to the other electronic device. In the embodiment, the first connector plug 250 is different from the second connector plug 254. The first connector plug 250 is a 30 pin plug, and the second connector plug 254 is a USB plug. In another embodiment, the first connector plug 250 and the second connector plug 254 may be the same type of connector plug.
The housing 21 includes a rectangular top wall 211, four side walls 213 perpendicularly extending from the four edges of the top wall 211, and a cavity 210 defined by the top wall 211 and the side walls 213 for receiving the winding mechanism 23. One of the side walls 213 defines a first gap 218.
The external surface of the top wall 211 defines a long and narrow inserting recess 210 for receiving and electrically connecting the electronic device 1. The inserting recess 210 extends the width of the top wall 211. The top wall 211 presents a support board 2101, protruding from the external surface of the top wall 211, for supporting the electronic device 1. The support board 2101 rises out of the inserting recess 210, and includes an inclined surface (not labeled) facing the recess 210. The inclined surface is inclined away from the recess 210.
The underside of the top wall 211 presents a convex stage 212, a pivot 214, and four supporting legs 216. The convex stage 212, the pivot 214, and the four supporting legs 216 all protrude from the inner surface of the top wall 211. The four support legs 216 are at the four corners of the top wall to support the housing 21. The convex stage 212 and the pivot 214 together enable the winding mechanism 23 to be mounted to the housing 21.
The convex stage 212 defines an opening 2121 and a grasping notch 2123. The opening 2121 is in the central section of the convex stage 212 and communicates with the inserting recess 210. The opening 2121 allows the first connector plug 250 to pass through the top wall 211 to couple to the connector slot of the electronic device 1. The grasping notch 2123 is attached on one side of the convex stage 212. The pivot 214 locates on one side of the convex stage 212, and faces the grasping notch 2123.
The winding mechanism 23 includes a winding member 230, a locking member 232, and a driving member 234. One end of the winding member 230 pivots on the pivot 214, the other end of the winding member 230 is attached on the convex stage 212. The driving member 234 is mounted to the winding member 230 and the housing 21 to drive the winding member 230 to rotate and carry the transmitting wire 252 with it. The locking member 232 is mounted to the winding member 230 and the housing 21 to lock the winding member 230 to the housing 21.
Referring to
The partition board 2312 is located in the hollow space 2314 and divides the hollow space 2314 into a first receiving groove 2301 and a second receiving groove 2309. Two fastening elements 2308 perpendicularly protrude from the partition board 2312 towards the receiving part 2310, and are received in the second receiving groove 2309. The first receiving groove 2301 is in alignment with the opening 2121 of the housing 21, and is capable of receiving the first connector plug 250. The second receiving groove 2309 is capable of receiving the second connector plug 252. The groove 2305, which goes all the way around the winding member 230, functions as a reel or spool for receiving the transmitting wire 252 when the transmitting wire 252 is wound by the winding member 230.
The winding member 230 further sets a fixed shaft 2304. The fixed shaft 2304 protrudes from the pivot part 2306 and is in the receiving space 2303.
The locking member 232 includes a first basic board 2320 and a second basic board 2322 protruding from the first basic board 2320. The first basic board 2320 presents two cylindrical sleeves 2325 and a buckling part 2323 protruding from the second basic board 2302. The sleeves 2325 are sleeved on the fastening elements 2308 of the winding member 230 and may slide along the fastening elements 2308. The buckling part 2323 is away from the second basic board 2322 and is inserted into the grasping notch 2123 of the housing 21. The second basic board 2322 covers above the first receiving groove, and defines a locking notch 2321.
The driving member 234 is received in the receiving space 2303. The driving member 234 is an elastomer, and is wound clockwise to form a coil. The two opposite ends of the driving member 234 are bent into small cylinders. The end of the driving member 234 in the center of the coil is secured to the pivot 214 of the housing 21 via a screw 2310. The other outer end of the driving member 234 is secured on the fixed shaft 2304.
To assemble the base 2, the first connector plug 250 is passed through the first receiving groove 2301 of the winding mechanism 23 and the opening 2121 of the housing 21 so that the first connector plug 250 extends outside the housing 21. The locking member 232 is slid to the partition board 2312 along the fastening elements 2308 to lock the first connector plug 250 and the transmitting wire 252 in the locking notch 2321 and the buckling part 2323 is clasped in the grasping notch 2123. At this time, the locking member 232 enables the winding member 230 to lock into the housing 21. The transmitting wire 252 is wound around the winding member 230 and received in the groove 2305. The second connector plug 254 is clasped between one of the fastening elements 2308 and the receiving part 2310. As the data cable 250 is received in the housing 21 in this way, the assembly of the base 2 is finished.
When the data cable 25 is to be connected to another electronic device, the locking member 232 is slid away from the partition board 2312 to unclasp the buckling part 2323 from the grasping notch 2123. The second connector plug 254 is pulled from the second receiving groove 2309 and the transmitting wire 254 may be unwound. At the same time, the first connector plug 250 is pulled out of the opening 2121 into the first receiving groove 2301 and the winding member 230 is unlocked. The winding member 230 is spun anti-clockwise by virtue of the tension in the driving member 234. Even when the transmitting wire 252 has been fully drawn out, the winding member 230 is locked into the housing 21 again by the means described above. The transmitting wire 252 is passed through the first gap 2302 and through the second gap 218 to extend out of the housing 21, and at this point, the second connector plug 254 is capable of being coupled to the other electronic device.
When the data cable 25 is not being used, and the second connector plug 254 is freed from another electronic device, the winding member 230 is unlocked from the housing 21 again by the means described above. The winding member 230 automatically rewinds to re-coil the transmitting wire 252 under elastic force.
As described above, in being supported by the base 2 instead of being held in the hand, the viewing of the electronic device 1 is easier and more convenient. Further, the automatic regathering and rewinding of the data cable 25 into the housing 21 of the base 2 avoids any carrying and storage difficulties concerning the data cable 25.
It is to be understood, however, that even though relevant information and the advantages of the present embodiments have been set forth in the foregoing description, together with details of the functions of the present embodiments, the disclosure is illustrative only; and changes may be made in detail, especially in the matters of shape, size, and arrangement of parts within the principles of the present embodiments 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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201110054741.4 | Mar 2011 | CN | national |
Number | Name | Date | Kind |
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6129318 | Paulse | Oct 2000 | A |
6392635 | Snyder | May 2002 | B1 |
Number | Date | Country | |
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20120229967 A1 | Sep 2012 | US |