1. Technical Field
The present disclosure relates to extraction devices used to facilitate unloading of modular components from electrical devices such as consumer electronic products, and especially to an extraction device for taking an element such as a tray out from a cavity in a wall of an electrical device.
2. Description of Related Art
Many electrical devices include trays for loading and unloading modular elements. A typical mobile phone has a Subscriber Identity Module (SIM) tray arranged at a side wall of the mobile phone for loading and unloading a SIM card. The SIM tray is movable into and out a housing of the mobile phone, so as to switch between a stowed position and an open position. In one type of mobile phone, when the SIM tray is in the stowed position, the SIM tray can be partly ejected from the housing by operation of a trigger mechanism of the mobile phone. In the ejected position, the SIM tray remains mostly received in the housing, with only a small part of the SIM tray, i.e. an edge portion thereof, protruding out from an outer surface of a side wall of the housing. Then the user needs to grip (pinch) the protruding edge of the SIM tray with his/her thumb and forefinger, in order to pull the SIM tray further out from the housing. However, because of the small size of the protruding edge of the SIM tray, the user's fingers are liable to slip and make the pulling operation inconvenient.
What is needed, therefore, is a means which can overcome the kinds of difficulties described above.
Many aspects of the present 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, all the views are schematic, and like reference numerals designate corresponding parts throughout the several views.
Reference will be made to the drawings to describe various embodiments.
When the tray 12 is in the first position, the tray 12 is mostly received in the enclosure, and only a distal end of the tray 12 protrudes a slight distance out from the sidewall 16 at the opening. In the present embodiment, the tray 12 is movable from the first position to the second position by the extraction device 20.
Referring also to
In one embodiment, the shell includes a main plate 212, a first sidewall 213, a second sidewall 214 opposite to the first sidewall 213, a third sidewall 215, and a fourth sidewall 216 opposite to the third sidewall 215. The main plate 212 is rectangular. The third and fourth sidewalls 215, 216 perpendicularly extend from two opposite sides of the main plate 212. The first and second sidewalls 213, 214 perpendicularly extend from the other two opposite sides of the main plate 212. The sidewalls 213, 214, 215, 216 and the main plate 212 cooperatively define the accommodating space 210 therebetween. Each of the first sidewall 213 and the main plate 212 defines a cutout 218, and the two cutouts 218 correspond to and communicate with each other. The two cutouts 218 communicate with two sides of the first receiving space 2180, respectively. A shell frame 217 includes two parallel first shell beams 2171 parallel to the fourth sidewall 216, and a second shell beam 2172 perpendicularly interconnecting rear ends of the two first shell beams 2171. The front ends of the two first shell beams 2171 connect to the first sidewall 213 at an edge of the first sidewall 213 furthest from the main plate 212. The shell frame 217 borders a side of the first receiving space 2180 opposite to the side of the first receiving space 2180 communicating with the cutout 218 of the main plate 212. An inserting pole 219 is perpendicularly connected to the second shell beam 2172, and extends toward the cutout 218 of the first sidewall 213.
The telescoping mechanism 22 includes a sleeve 220, an inserting rod 221, and a first elastic member 227. The sleeve 220 is hollow, perpendicularly connected to the second sidewall 214, and extends along a first direction toward the first sidewall 213. The first direction is a direction parallel to an X-axis shown in
The limiting unit 225 includes a connecting pole 2252 and two limiting frames 2256. Each limiting frame 2256 includes two first limiting beams 2258 extending along the first direction, and a second limiting beam 2257 extending along a second direction which is perpendicular to the first direction and interconnecting the first limiting beams 2258. The second direction is parallel to a Y-axis shown in
A rear end of the first rod portion 222 is inserted into and limited in the sleeve 220, but is axially movable back and forth inside the sleeve 220. The first elastic member 227 is sleeved on the sleeve 220 and the first rod portion 222, and captive between the blocking ring 228 and the second sidewall 214. The uncompressed length of the first elastic member 227 is longer than a length of the sleeve 220. The first elastic member 227 exerts a resilient force on the blocking ring 228 when compressed.
The clamping mechanism 24 includes two supporting rods 242, two clamping rods 244, and two clamping grippers 246. Each clamping rod 244 includes a first distal end 2441 and a second distal end 2442. Each supporting rod 242 includes a third distal end 2421 and a fourth distal end 2422. The two clamping grippers 246 are connected to the second distal ends 2442 of the two clamping rods 244.
The sway bar mechanism 26 includes a sway bar 260 and a torsion spring 262. The sway bar 260 includes a fourth rod portion 263, and a fifth rod portion 264 connected to the fourth rod portion 263. The fourth rod portion 263 and the fifth rod portion 264 form an obtuse angle therebetween. A free end of the fourth rod portion 263 is in the form of a pawl 2630. The pawl 2630 meshes with any two of the teeth 2230 of the second rod portion 223 of the inserting rod 221. The pressing button 27 is arranged on the third sidewall 215.
In assembly of the extraction device 20, the first elastic member 227 is sleeved on the sleeve 220. The first rod portion 222 is inserted into the sleeve 220, with the rear end of the first rod portion 222 inside the sleeve 220, and the first elastic member 227 sandwiched between the blocking ring 228 and the second sidewall 214. The inserting rod 221 is movable back and forth, thereby retracting further into the sleeve 220 and extending further out from the sleeve 220.
The first distal ends 2441 of the two clamping rods 244 are rotatably attached to the inserting rod 221 at a joint of the second rod portion 223 and the third rod portion 224 via a first spindle 245 which is fixed to the main plate 212 of the shell 21. The two clamping rods 244 are located at opposite top and bottom sides of the inserting rod 221, and the clamping grippers 246 are separated from each other and thus open. Two second spindles 247 are perpendicularly fixed to the main plate 212 at opposite top and bottom sides of the inserting rod 221. The two second spindles 247 are closer to the second sidewall 214 than the first spindle 245. The fourth distal ends 2422 of the two supporting rods 242 are rotatably attached to the two second spindles 247, and the third distal ends 2421 of the two supporting rods 242 are rotatably attached to the two clamping rods 244. A third spindle 266 is perpendicularly fixed to the main plate 212, and the fifth rod portion 264 of the sway bar 260 is rotatably attached to the third spindle 266. The pawl 2630 meshes with two teeth of the teeth 2230 of the second rod portion 223. A free end of the fifth rod portion 264 abuts against a top end of the pressing button 27, whereby a coil spring associated with the pressing button 27 is slightly compressed. Thus, the free end of the fifth rod portion 264 resiliently abuts the pressing button 27.
Referring also to
Because the clamping rods 244 are rotatably attached to the inserting rod 221, and because the supporting rods 242 are rotatably attached to the clamping rods 244, when the inserting rod 221 moves towards the second sidewall 214, the inserting rod 221 drives the supporting rods 242 and the clamping rods 244 to rotate and thus drive the clamping grippers 246 towards each other. The inserting rod 221 moves rearward until the clamping grippers 246 close on and grip the distal end of the tray 12. When the clamping grippers 246 close together, the inserting rod 221 is stopped from moving further rearward, and the user stops pushing the shell 21. At this position, the pawl 2630 of the fourth rod portion 263 is meshed with two teeth 2230 of the second rod portion 223, and the free end of the fifth rod portion 264 resiliently abuts against the top end of the pressing button 27, with the coil spring associated with the pressing button 27 slightly compressed.
The user then pulls the extraction device 20 away from the portable electronic device 10, and thereby the tray 12 is pulled further out from the sidewall 16 of the portable electronic device 10. Once the tray 12 is fully exposed from the sidewall 16 of the portable electronic device 10, the user can disengage the extraction device 20 from the portable electronic device 10, as described below.
To disengage the extraction device 20 from the portable electronic device 10, the user can press the pressing button 27 to separate the clamping grippers 246. In detail, first, the user presses the pressing button 27 downward toward the third sidewall 215, thereby further compressing the coil spring associated with the pressing button 27, and then the user releases the pressing button 27. The coil spring decompresses and drives the pressing button 27 to move upward and strike the free end of the fifth rod portion 264, thereby driving the fifth rod portion 264 to rotate counterclockwise. The pawl 2630 of the fourth rod portion 263 disengages from the teeth 2230 of the second rod portion 223, the inserting rod 221 moves forward toward the first sidewall 213 under urging of the decompressing first elastic member 227, and the clamping grippers 264 are thus fully opened. Thereby, the extraction device 20 is disengaged from the portable electronic device 10 and can be removed from the portable electronic device 10. Then the user can unload a SIM card from the tray 12 and/or load a SIM card onto the tray 12.
Another way the user can disengage the extraction device 20 from the portable electronic device 10 is by exerting force directly on the fifth rod portion 264, to rotate the fifth rod portion 264 counterclockwise and thus open the clamping grippers 264.
In summary, the tray 12 can be readily pulled out to the second position by simply pushing the extraction device 20 onto the portable electronic device 10, pulling the extraction device 20 away from the portable electronic device 10, and then disengaging the extraction device 20 from the portable electronic device 10.
Furthermore, the extraction device 20 can also be used with a variety of other kinds of devices which have slidable elements or bodies, wherein only a small portion of the element or body is accessible for gripping.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the description or sacrificing all of their material advantages, the examples hereinbefore described merely being exemplary embodiments.
Number | Date | Country | Kind |
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201110429351.0 | Dec 2011 | CN | national |