1. Field of the Invention
The invention relates to a safety structure for a cover device, and more particularly to a safety structure for a cover device having a projection.
2. Description of the Related Art
In a conventional computer peripheral such as a scanner, a projection and a concave portion that provide the positioning function are adopted in order to ensure the positioning precision between the cover and the body. At present, the scanner functions are gradually increased with the growing demands of the users. For example, a transparency adaptor may be attached to the cover of the scanner so that the transparency (e.g., film) scan may be performed. Alternatively, an automatic document feeder may be attached to the cover of the scanner so that the sheet-fed scan may be performed. More particularly, a scanning module may be attached to the automatic document feeder so that the duplex sheet-fed scan may be performed.
Hence, the weight of the scanner cover is increased with the addition of the attached assembly/assemblies. When the user places the document on the scanner body and then places the cover down, the projection of the cover together with the concave portion of the body may hurt the human hand therebetween. Alternatively, if the cover drops unexpectedly, the projection may further stab and hurt the human hand.
Because the conventional cover is light-weighted, the projection is directly fixed to the cover or body, and the projection only provides the positioning function without considering the problem of hurting the human hand.
On the other hand, the projection may also cause some botherations in some conditions. For example, when the user places a large-scale document on the scanner, the cover's projection may perforate through the document, or the cover cannot be placed down and cannot flatten the document. It is disadvantageous to this case because the better scan quality can be obtained only if the large-scale document has been flattened.
It is therefore an object of the invention to provide a safety structure for a cover device, wherein the safety structure has a projection that may be fit into a concave portion so as to protect an object between the projection and the concave portion from being hurt.
To achieve the above-mentioned object, the invention provides a safety structure for a cover device, which includes a base assembly and a cover assembly. The base assembly has a concave portion. The cover assembly is hinged to the base assembly and may cover the base assembly. The cover assembly has a cover body and a projection, which may elastically protrude out of and retract into the cover body, and may be fit into the concave portion for positioning. The projection is configured such that it may retract into the cover body to prevent an object from being hurt when the cover assembly is placed down and touches the object.
The base assembly may include a scanning module for scanning a document, and the cover assembly may include an automatic document feeder for feeding the document or a transparency adaptor for outputting a plane light source.
According to the above-mentioned structure, it is possible to effectively prevent the too-heavy cover assembly from hurting the human hand when it is placed down.
The cover assembly 20 is hinged to the base assembly 10 and may cover the base assembly 10. The cover assembly 20 includes a cover body 21, a projection 22, an automatic document feeder 23, a second scanning module 24, and a transparency adaptor 25.
The second scanning module 24 is disposed in the automatic document feeder 23 and is for feeding, one by one, a plurality of second documents P2 across the second glass window 14 of the base assembly 10. The first scanning module 15 may further move to a position under the second glass window 14 along the guiding rod 16 so as to scan the second documents P2. The projection 22 may elastically protrude out of and retract into the cover body 21, and may be fit into the guiding structure 12A for positioning along the concave portion 12. When the cover assembly 20 is placed down or drops down to touch an object such as a human hand, the projection 22 may retract into the cover body 21 so as to prevent the object from being hurt. The first glass window 13 and the second glass window 14 may be integrally formed into a one-piece molded structure, or may be separate structures.
The transparency adaptor 25 may output a plane light source to illuminate the first document P1 for the purpose of transparency scan. Although the safety structure of this embodiment includes the automatic document feeder 23, the second scanning module 24, and the transparency adaptor 25, these are not the necessary elements. In another embodiment which does not need the transparency scan, the transparency adaptor 25 also may be removed and replaced by a sheet-pressing component. In still another embodiment which does not need the automatic sheet-feeding function, the automatic document feeder 23 and the second scanning module 24 also may be removed. In yet still another embodiment which does not need the duplex scan function, the second scanning module 24 also may be removed.
The base assembly 40 includes a base body 41, a printer module 42 and a guiding rod 43. The base body 41 is formed with a concave portion 44, which is formed with a guiding structure 44A. The printer module 42, which may be an inkjet print head or a dot-matrix type print head, may move or be moved back and forth along the guiding rod 43 so as to print a sheet. In other embodiments, the printer module 42 also may be a printer module suitable for the laser printer.
The cover assembly 50 is hinged to the base assembly 40 and may cover the base assembly 40. The cover assembly 50 includes a cover body 51, a projection 52 and a scanning device 53. The scanning device 53 is for scanning a document and outputting a printing signal, which corresponds to the document, to the printer module 42 for printing. The scanning device 53 is similar to the overall structure of
The cover assembly 20 is hinged to the base assembly 10 and may cover the base assembly 10. The cover assembly 20 includes a cover body 21, a concave portion 27, an automatic document feeder 23, a second scanning module 24 and a transparency adaptor 25. The concave portion 27 is formed with a guiding structure 27A for guiding the projection 17 to the concave portion 27.
The second scanning module 24 is disposed in the automatic document feeder 23 and is for feeding, one by one, a plurality of second documents P2 across the second glass window 14 of the base assembly 10. The first scanning module 15 for scanning the second documents P2 may further move or be moved to a position under the second glass window 14 along the guiding rod 16. The projection 17 may elastically protrude out of and retract into the base body 11 and may be fit into the concave portion 27 for positioning along the guiding structure 27A. When the cover assembly 20 is placed down and touches an object such as the human hand, the projection 17 may retract into the base body 11 to prevent the object from being hurt. The first glass window 13 and the second glass window 14 may be integrally formed into a one-piece molded structure, or may be separate structures.
The transparency adaptor 25 may output a plane light source to illuminate the first document P1 for the purpose of transparency scan. It is to be noted that the automatic document feeder 23, the second scanning module 24 and the transparency adaptor 25 may be removed in other embodiments, as mentioned above.
The base assembly 40 includes a base body 41, a printer module 42 and a guiding rod 43. The base body 41 is formed with a projection 47. The printer module 42, which may be an inkjet print head or a dot-matrix type print head, may move or be moved back and forth along the guiding rod 43 so as to print a sheet. In other embodiments, the printer module 42 also may be a printer module suitable for the laser printer.
The cover assembly 50 is hinged to the base assembly 40 and may cover the base assembly 40. The cover assembly 50 includes a cover body 51, a concave portion 57 and a scanning device 53. The concave portion 57 is formed with a guiding structure 57A. The scanning device 53 scans a document and outputs a printing signal, which corresponds to the document, to the printer module 42 for printing. The scanning device 53 is similar to the overall structure of
While the invention has been described by way of examples and in terms of preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. To the contrary, it is intended to cover various modifications. Therefore, the scope of the appended claims should be accorded the broadest interpretation so as to encompass all such modifications.
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