This non-provisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No(s). 104114051 filed in Taiwan, R.O.C. on May 1, 2015, the entire contents of which are hereby incorporated by reference.
The disclosure relates to an adjustable tray, more particularly to an adjustable tray for being tilted in different positions.
Information was recorded on the paper documents, such as images or handwriting, for the preservation in the past. With the development of digital technology, the information can be recorded in the computers or on the Internet to reduce the space needed for the preservation.
The information on the paper documents is able to be digitalized by a scanner. An automatic paper feeding mechanism of the scanner favorably increases the efficiency of scanning the paper documents. The paper documents are generally output from the scanner to a tray and arranged in a stack after the scanning process.
According to the disclosure, an adjustable tray includes a first board, a second board and an adjustment component. The second board is pivoted on the first board, and the second board has at least one first position section and at least one second position section. The adjustment component includes a main part and at least one abutted part connected to each other. There is a first distance between the first position section and the first board. There is a second distance between the second position section and the first board. The first distance is different from the second distance. The main part of the adjustment component is movably disposed on the first board for positioning the abutted part at the first position section or the second position section so as to pivot the second board on the first board with a first angle or a second angle between the first board and the second board, and the first angle is different from the second angle.
The present invention will become better understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only and thus are not limitative of the present invention and wherein:
In the following detailed description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the disclosed embodiments. It will be apparent, however, that one or more embodiments may be practiced without these specific details. In other instances, well-known structures and devices are schematically shown in order to simplify the drawings.
Please refer to
The first board 110 includes a top surface 111, a bottom surface 112, an edge 113, two grooves 114 and a plurality of projections 115. The top surface 111 and the bottom surface 112 are opposite to each other. Two sides of the edge 113 opposite to each other are connected to the top surface 111 and the bottom surface 112, respectively. The two grooves 114 are located at the edge 113, and two opposite sides of each of the grooves 114 are located at the top surface 111 and the bottom surface 112, respectively. The projections 115 are located at the top surface 111 so as to form an accommodation space 116 with the top surface 111 together.
The second board 120 is pivoted on the first board 110 for rotating relative to the first board 110. The second board 120 has an edge 121 and two stepped structures 122. The edge 121 of the second board 120 is close to the edge 113 of the first board 110. Specifically, the edge 121 may be adjacent to the edge 113 or even face the edge 113. Both of the two stepped structures 122 are located at the edge 121. The two stepped structures 122 face the two grooves 114, respectively. Each of the stepped structures 122 has a first position section 1221, a second position section 1222 and a side surface 1223. The side surface 1223 connects the first position section 1221 and the second position section 1222. In this embodiment, the edge 121 of the second board 120 is recessed to a first depth so as to form the first position section 1221, and the edge 121 is recessed to a second depth so as to form the second position section 1222, and the first depth is less than the second depth. There is a first distance between the first position section 1221 and the edge 113 of the first board 110, and there is a second distance between the second position section 1222 and the edge 113, and the first distance can be less than the second distance. Both the first position section 1221 and the second position section 1222 can be a flat surface. Extending directions of the first position section 1221 and the second position section 1222 can be parallel to an extending direction of the edge 121. In other embodiments, the first position section and the second position section can be a curved surface, and the extending directions of the position sections can intersect with the extending direction of the edge of the second board.
The adjustment component 130 is movably disposed on the top surface 111 of the first board 110. In detail, the adjustment component 130 includes a main part 131, two abutted parts 132 and an extending component 133. The main part 131 is movably disposed in the accommodation space 116. The projections 115 of the first board 110 are located at opposite two sides of the main part 131 for limiting a maximum movable distance of the main part 131 relative to the first board 110. Both of the two abutted parts 132 are connected to the main part 131. The two abutted parts 132 are located in the two grooves 114, respectively. A part of the abutted part 132 is protruded from the edge 113 of the first board 110. A length of the part of the abutted part 132 protruded from the edge 113 is greater than or equal to the first distance between the edge 113 and the first position section 1221 and less than or equal to the second distance between the edge 113 and the second position section 1222. A width of the abutted part 132 can be less than a width of the second position section 1222, and the second position section 1222 is recessed from the edge 121 to form a recess so that it is favorable for the abutted part 132 being positioned in the recess. The extending component 133 is protruded from the main part 131 and extends away from the top surface 111.
Please refer to
As shown in
When the main part 131 is moved relative to the top surface 111, the two abutted parts 132 are moved along the two grooves 114, respectively. Since the abutted part 132 is protruded from the edge 113, the step structure 122 moves close to the abutted part 132 gradually when the second board 120 is rotated down. Thus, when the second board 120 is rotated down, the abutted part 132 is firstly abutted against the first position section 1221 which is closer to the abutted part 132 than the second position section 1222.
When the main part 131 is located at the first position, the abutted part 132 is positioned at the first position section 1221. The part of the abutted part 132 protruded from the edge 113 of the first board 110 is abutted against the first position section 1221 so as to stop the rotation of the second board 120 relative to the first board 110, and thereby keeping a first angle α between the first board 110 and the second board 120.
When the main part 131 is located at the second position, the abutted part 132 is positioned at the second position section 1222. The part of the abutted part 132 protruded from the edge 113 of the first board 110 is spaced apart from the first position section 1221 and the second position section 1222 so that rotation of the second board 120 relative to the first board 110 is not restricted by the abutted part 132, and therefore a second angle β is kept between the first board 110 and the second board 120. In this embodiment, the second angle β is larger than the first angle α. Specifically, the second angle β is 180 degrees, but the disclosure is not limited thereto. In other embodiments, the second angle can be larger or smaller than 180 degrees.
The cover 140 covers the top surface 111, and the adjustment component 130 is disposed between the first board 110 and the cover 140. The cover 140 has an opening 141. The extending component 133 of the adjustment component 130 is movably disposed in the opening 141 for adjusting the main part 131 between the first position and the second position. In detail, the extending component 133 can be a protrusion protruded from the opening 141 or a handle standing on the main part 131. When the extending component 133 is a protrusion, a user can pull and/or push the protrusion to move the main part 131 between the first position and the second position. When the extending component 133 is a handle, the user can hold the handle to move the main part 131.
The elastic component 150 is disposed between the first board 110 and the cover 140. Two ends of the elastic component 150 that are opposite to each other are connected to the main part 131 and the cover 140, respectively. When the main part 131 is located at the first position, the abutted part 132 is positioned at the first position section 1221 of the stepped structure 122, and the elastic component 150 is released. When the main part 131 is located at the second position, the elastic component 150 is compressed or expanded by the movement of the main part 131 so as to abut the main part 131 against the side surface 1223, and thereby stop the movement of the main part 131 relative to the first board 110. The elastic component 150 is, for example, a compression spring, a torsion spring or an expansion spring.
In this embodiment, a number of the stepped structure 122 and that of the abutted part 132 are both two, but the disclosure is not limited thereto. In other embodiments, the number of the stepped structure 122 and that of the abutted part 132 can be only one or more than two.
The following illustrates the usage of the adjustable tray 100 in this embodiment. When the user needs to tilt the second board 120 from the first angle α to the second angle β, the user moves the main part 131 from the first position to the second position by the extending component 133 so that the abutted part 132 connected to the main part 131 is moved from a position where the abutted part 132 is abutted against the first position section 1221 to a position where the abutted part 132 is spaced apart from the first position section 1221 and the second position section 1222. Therefore, since the abutted part 132 spaced apart from the position sections 1221 and 1222 does not contact the second board 120, the second board 120 is tilted relative to the first board 110 from the first angle α to the second angle β.
When the user needs to tilt the second board 120 from the second angle β to the first angle α, the user rotates up the second board 120 so as to reduce a touching area between the main part 131 and the side surface 1223. When the second board 120 is rotated continuously, the main part 131 and the side surface 1223 are separated from each other, and the elastic energy of the elastic component 150 is released to drive the abutted part 132 to move to the position where the abutted part 132 is abutted against the first position section 1221. Therefore, the abutted part 132 abutted against the first position section 1221 stops the rotation of the second board 120 relative to the first board 110 and keeps the first angle α between the first board 110 and the second board 120.
The following illustrates an adjustable tray in a second embodiment. Please refer to
In this embodiment, the first position section 3221 and the second position section 3222 of the stepped structure 322 are connected to each other. When the main part 231 is located at the first position, the abutted part 232 is positioned at the first position section 2221 of the stepped structure 222. The part of the abutted part 232 protruded from the edge 213 of the first board 210 is abutted against the first position section 2221 so as to stop the rotation of the second board 220 relative to the first board 110 and keep the first angle α between the first board 210 and the second board 220.
When the main part 231 is located at the second position, the abutted part 232 is positioned at the second position section 2222, and the part of the abutted part 232 protruded from the edge 213 of the first board 210 is abutted against the second position section 1222 so as to stop the rotation of the second board 220 relative to the first board 110 and keep a second angle β′ between the first board 210 and the second board 220. In this embodiment, the second angle β′ is larger than the first angle α, and the second angle β′ is smaller than 180 degrees.
In this embodiment, a number of the stepped structure 222 and that of the abutted part 232 are both two, but the disclosure is not limited thereto. In other embodiments, the number of the stepped structure 222 and that of the abutted part 232 can be only one or more than two.
The following illustrates an adjustable tray in a third embodiment. Please refer to
In this embodiment, the first position section 3221 and the second position section 3222 of the stepped structure 322 are connected to each other. The first position section 3221 is protruded from the edge 321 of the second board 320, and the edge 321 is recessed to a depth so as to form the second position section 3222.
The following illustrates an adjustable tray in a fourth embodiment. Please refer to
In this embodiment, the first position section 4221 and the second position section 4222 of the stepped structure 422 are connected to each other. Both the first position section 4221 and the second position section 4222 are protruded from the edge 421 of the second board 420. A distance between the first position section 4221 and the edge 421 is larger than a distance between the second position section 4222 and the edge 421.
In this embodiment, a width of the abutted part is smaller than a width of the second position section 4222 protruded from the edge 421, but the disclosure is not limited thereto. In other embodiments, the width of the abutted part can be larger than a width of the second position section protruded from the edge.
According to the disclosure, the main part is movable relative to the first board so as to position the abutted part at the first position section or the second position section. When the abutted part is positioned at the first position section, the first angle is kept between the first board and the second board. When the abutted part is positioned at the second position section, the second angle which is different from the first angle is kept between the first board and the second board. Therefore, the user is able to tilt the second board in a position with the first angle and another position with the second angle according to the scanning condition and the size of paper documents so that it is favorable for properly arranging the paper documents, and thereby preventing messy and disorder paper arrangement or paper jamming.
Number | Date | Country | Kind |
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104114051 A | May 2015 | TW | national |
Number | Name | Date | Kind |
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5984300 | Nishiberi | Nov 1999 | A |
20050201794 | Suzuki | Sep 2005 | A1 |
20100237556 | Azuma | Sep 2010 | A1 |
20130032989 | Okuchi | Feb 2013 | A1 |
Number | Date | Country |
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I255230 | May 2006 | TW |
Entry |
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Taiwan Office Action dated Sep. 10, 2016 in application No. 104114051. |
Taiwan Office Action dated Sep. 10, 2016 in application No. 10521132390. |
Number | Date | Country | |
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20160318729 A1 | Nov 2016 | US |