This application claims priority to Taiwan Patent Application Serial No. 092129261 entitled “Electronic Device and Lock Device for Locking Module of Electronic Device,” filed on Oct. 22, 2003.
1. Field of Invention
The present invention relates to a mechanical lock device within an electronic device, and more particularly relates to a lock device for locking a module of an electronic device.
2. Background of the Invention
In recent years, a variety of computer peripherals have become more and more popular due to the great improvement and advancement of the computer related technologies in industries. Many of these computer peripherals contain movable modules therein, for example, an image capturing module within a scanner, a print module within a printer, a copy module within a copier, and other electronic devices with similar configurations. These electronic devices generally contain lock devices to affix the modules therein in order to prevent damages from shaking and vibrations during transportation.
For example, a scanner (prior art) usually has a lock to affix the image capturing module. End users have to release the lock before they can actually use the scanner. However, such designs are problematic under operation. Somehow, users do not always release the lock before turning on the scanner. In these circumstances, not only will the scanners not function properly, but the scanners may suffer permanent damage.
The present invention discloses a lock device within an electronic device. The electronic device includes a module, a connection interface, a plug and a chassis. The module is movably disposed on the chassis. The connection interface is disposed on the chassis and is electrically coupled to the module. The lock device includes a lock part, an elastic unit, and a contact part. The lock device is movably disposed on the chassis. When the plug is not in connection with the connection interface, the lock part locks the module. The elastic unit provides a predetermined force to affix the module. When the plug is inserted and connected to the connection interface, the plug pushes the contact part of the lock device for moving a predetermined distance to release the module.
When the plug is pulled out, the predetermined force provided by the elastic unit pushes the lock device back and the lock device locks the module again.
In the present invention, the plug is optionally connected and electrically coupled to the connection interface. The plug further includes a transmission cable for communication with the external electronic device. The connection interface is electrically coupled to the plug, when the plug connects to the connection interface. The module could communicate with the external electronic device through the connection interface and the transmission cable.
a is a schematic diagram of a lock device within the electronic device shown in
b is a schematic diagram of the lock device shown in
a is a schematic diagram of a lock device for locking a module in the second embodiment of the present invention;
b is a schematic diagram of the lock device shown in
a is a schematic diagram of a lock device for locking a module in the third embodiment of the present invention; and
b is a schematic diagram of the lock device shown in
a and
a illustrates a diagram of lock device 20 locking the module 14 at the home position 16. The lock device 20 consists of a lock part 202, an elastic unit 206 and a contact part 204. The lock device 20 is movably disposed on the chassis 12. In this embodiment, the lock device 20 also includes an axle 208, and thus the lock device 20 is rotatably disposed on the chassis 12 by means of the axle 208. When the plug 24 is disconnected from the connection interface 22, the lock part 202 locks the module 14, and the contact part 204 protrudes from the connection interface 22. In this embodiment, the lock part 202 includes a protrusion and the module 14 includes a block 142. The lock part 202 engages with the block 142 to affix the module 14 at the home position 16. One end of the elastic unit 206 connects to the chassis 12 and provides a predetermined elastic force to affix the module 14 at the home position 16. In this embodiment, the mentioned elastic unit 206 is a spring.
b illustrates a diagram of the lock device 20 releasing the module 14. When the plug 24 connects to the connection interface 22, the plug 24 pushes the contact part 204 to overcome the predetermined elastic force of the elastic unit 206. At the same time, the lock device 20 rotates for a small angle and causes the lock part 202 to release the module 14. Thus, the electronic device 10 is ready to be used. When the plug 24 is pulled out again, the predetermined elastic force of the elastic unit 206 pushes the lock device 20 back to its original position and hence locks the module 14 again.
By means of applying the lock device 20 of the present invention, users would not be troubled in above-mentioned condition of running the device without releasing the locks. Take the embodiment of the scanner as an example, user must connect scanner to the external electronic device, e.g. a computer, before using use the scanner. In other words, the USB connector must connect to the USB socket in order to turn on the scanner in the embodiment. Therefore, the USB connector triggers the lock device to release the module. Moreover, the lock device 20 of the present invention is a mechanical design and could function without electrically controlled mechanism, which lowers the manufacturing cost and complexity.
a and
a illustrates a diagram of the lock device 40 locking the module 34 at the home position 36. The lock device 40 includes a lock part 402, an elastic unit 406 and a contact part 404. The lock device 40 is movably disposed on the chassis 32. When the plug 44 is at state of disconnection to the connection interface 42, the lock part 402 locks the module 34, and the contact part 404 protrudes from the connection interface 42. In this embodiment, the lock part 402 includes a protrusion and the module 34 includes a block 342. The lock part 402 engages with the block 342 to affix the module 34 at the home position 36. One end of the elastic unit 406 connects to the chassis 32 and provides a predetermined force to affix the module 34 at the home position 36. In this embodiment, the elastic unit 406 is a spring.
b illustrates a diagram of the lock device 40 releasing the module 34. When the plug 44 is inserted to the connection interface 42, the plug 44 pushes the contact part 404 to overcome the predetermined elastic force of the elastic unit 406. The lock device 40 moves over a distance and hence the lock part 402 releases the module 34. Thus, the electronic device 30 is now ready to operate. When the plug 44 is pulled out again, the predetermined elastic force of the elastic unit 406 pushes the lock device 40 back and locks the module 34 once again.
By means of the lock device 40 of the present invention, users would not be troubled in above-mentioned situation of running the device without releasing the locks. Users must connect electronic device to the power supply before using the electronic device. In other words, the power connector must connect to the power socket in order to turn on the electronic device mentioned in the embodiment. Therefore, the power connector triggers the lock device 40 to release the module 34.
a and
a illustrates a diagram of the lock device 60 locking the module 54 at the home position 56. The lock device 60 consists of a lock part 602, a magnetic unit 606 and a contact part 604. The lock device 60 is movably disposed on the chassis 52. In this embodiment, the lock device 60 also includes an axle 608, and the lock device 60 is rotatably disposed on the chassis 52 by means of the axle 608. When the plug 64 is not connected to the connection interface 62, the lock part 602 locks the module 54, and the contact part 604 protrudes from the connection interface 62. In this embodiment, the magnetic unit 606 provides a predetermined magnetic force to affix the module 54 at the home position 56.
b illustrates a diagram of the lock device 60 releasing the module 54. When the plug 64 is inserted to the connection interface 62, the plug 64 pushes the contact part 604 to overcome the predetermined force of the magnetic unit 606. The lock device 60 rotates for a small angle and hence the lock part 602 releases the module 54. Thus, the electronic device 50 is ready for usage. When the plug 64 is pulled out again, the predetermined force of the magnetic unit 606 pushes the lock device 60 back to its original position and locks the module 54 again.
The spirit and scope of the present invention can be clearly understood by the above detail descriptions of the preferred embodiments. The embodiments are not intended to limit the scope of the invention. Contrarily, various modifications of the illustrative embodiments, as well as other embodiments of the invention, will be apparent to persons skilled in the art upon reference to this description. It is therefore contemplated that the appended claims will cover any such modifications or embodiments as falling within the true scope of the invention.
Number | Date | Country | Kind |
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92129261 A | Oct 2003 | TW | national |
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5192225 | Suzuki | Mar 1993 | A |
5376014 | Sumida | Dec 1994 | A |
5603630 | Villain | Feb 1997 | A |
6083030 | Wright | Jul 2000 | A |
6902421 | Huang | Jun 2005 | B1 |
20020177362 | Chang | Nov 2002 | A1 |
Number | Date | Country | |
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20050090133 A1 | Apr 2005 | US |