This application claims the benefit of Korean Patent Application No. 2008-0121840, filed on Dec. 3, 2008, in the Korean Intellectual Property Office, the entire disclosure of which is incorporated herein by reference.
The present disclosure relates generally to a bookbinding unit capable of binding print media and an image forming apparatus having the same.
An image forming apparatus is capable of forming an image on print media, such as, for example, sheets of paper. Examples of an image forming apparatus may include a printer, a copier, a fax machine and a multi-function peripheral that combine at least two functions of aforementioned.
Some image forming apparatuses include a bookbinding unit that receives from the image forming apparatus print media on which a complete image has been formed, and that binds together the received print media.
To that end, a bookbinding unit typically includes a pair of stack trays arranged side by side with a space gap between them. The received print media are stacked on the stack trays, and become folded when a folding knife presses and pushes the stacked print media through the space between the stack trays.
In such a bookbinding unit, a considerable portion of the pressing force exerted on the print media by the folding knife is concentrated near the space between the two stack trays, and as the folded print media are pushed through the space between the stack trays, the outermost print medium may be subjected to a significant frictional force by the edges of the two stack trays, and thus may become damaged.
In accordance with one aspect of the present disclosure, a bookbinding unit may be provided to include a pair of stack trays and a folding knife. The pair of stack trays may have respective receiving surfaces capable of receiving thereon one or more print media. The folding knife may be configured to move through a space between the pair of the stack trays so as to cause the one or more print media received on the receiving surfaces of the pair of the stack trays to be folded and to move into the space between the pair of the stack trays. At least one of the pair of the stack trays may be rotatable in response to the movement of the print media into the space between the stack trays.
The bookbinding unit may further comprise a pair of hinges each of which being arranged near an end adjacent the space of corresponding respective one of the pair of stack trays, each of the pair of stack trays being rotatable about respective corresponding one of the pair of hinges.
The bookbinding unit may further comprise a main body configured to accommodate therein the pair of stack trays and the folding knife. Each of the pair of hinges may comprise a protrusion and a groove. The groove may be configured to receive thereinto the protrusion in such a manner allowing sliding movement of the protrusion along the groove so as to allow lateral and rotational movements of respective associated one of the pair of the pair of stack trays.
The bookbinding unit may further comprise a pair of return springs corresponding to the pair of stack trays and being configured to elastically bias the pair of stack trays toward a direction of returning the pair of stack trays to their original positions.
The pair of hinges may be spaced apart by an equal distance from respective ends of the corresponding respective one of the pair of stack trays.
Each of the pair of stack trays may further comprise a guide that extend at an incline with respect to the receiving surface thereof. The incline may be in the direction along which the one or more print media move into the space between the pair of the stack trays.
The bookbinding unit may further comprise a plurality of feed rollers disposed above the pair of stack trays and configured to guide the one or more print media toward the pair of stack trays.
The bookbinding unit may further comprise a stopper movably arranged adjacent the pair of stack trays. The stopper may be configured to contact edges of the one or more print media received on the pair of the stack trays so as to thereby position centers of the one or more print media at the space between the pair of the stack trays.
The bookbinding unit may further comprise a plurality of pressure rollers and a plurality of pressure springs. The plurality of pressure rollers may be disposed below, and so as to receive the one or more print media from, the space between the pair of the stack trays. The plurality of pressure springs may be configured to elastically bias the plurality of the pressure rollers toward one another.
According to another aspect, an image forming apparatus may be provided to include an image forming unit and a bookbinding unit. The image forming unit may be configured to form images on print media and to output image bearing print media on which the images have been formed. The bookbinding unit may be configured to receive the image bearing print media from the image forming unit. The bookbinding unit may comprise a pair of stack trays and a folding knife. The pair of stack trays may have respective receiving surfaces capable of supporting thereon the image bearing print media. The folding knife may be configured to move through a space between the pair of the stack trays so as to cause the image bearing print media supported on the receiving surfaces of the pair of the stack trays to be folded and to move into the space between the pair of the stack trays. At least one of the pair of the stack trays may be rotatable in response to the movement of the image bearing print media moving into the space between the stack trays.
According to yet another aspect, an apparatus for folding sheets of print media for bookbinding may be provided to include a pair of stack trays and a folding knife. The pair of stack trays may define respective receiving surfaces on which to receive the sheets of print media. The pair of stack trays may be movable between at least an original position and a folding position. A first angle between the respective receiving surfaces of the pair of stack trays when the pair of stack trays is in the original position may be different from a second angle between the respective receiving surfaces of the pair of stack trays when the pair of stack trays is in the folded position. The folding knife may be configured to move toward the pair of the stack trays to come into a pressing contact with, and to thereby cause folding of, the sheets of print media received on the receiving surfaces of the pair of the stack trays.
The respective receiving surfaces of the pair of stack trays may be substantially coplanar when the pair of stack trays is in the original position while the second angle between the respective receiving surfaces of the pair of stack trays may be an acute angle.
Alternatively, The respective receiving surfaces of the pair of stack trays may be substantially coplanar when the pair of stack trays is in the original position while the respective receiving surfaces of the pair of stack trays being substantially parallel to each other when the pair of stack trays is in the folding position.
As another alternative, the first angle between the respective receiving surfaces of the pair of stack trays may be an obtuse angle while the second angle between the respective receiving surfaces of the pair of stack trays may be an acute angle.
Each of the pair of stack trays may be configured to rotate and to move laterally along a first direction substantially perpendicular to a second direction along which the folding knife moves.
Various features and aspects of the present disclosure will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings in which:
Reference will now be made in detail to the embodiments of the present disclosure, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.
As shown in
By way of an illustrative example, the image forming apparatus 10 may include an image forming apparatus main body 11 that defines the external appearance of the image forming apparatus 10, print medium cassettes 12 storing and supplying print media, an exposure unit 14 configured to irradiate light onto and to thereby form an electrostatic latent image on the surface of a photoreceptor 13, the photoreceptor 13 configured to carry on the surface thereof a toner image produced by developing the electrostatic latent image with toner, a fusing unit 15 configured to fix the toner image onto the print media after the toner image had been transferred to the print media from the photoreceptor 13 and exit rollers 16 to discharge the print media that bear the fixed toner image to the outside of the image forming apparatus main body 11.
In an image forming apparatus of the above-described configuration, when a print medium supplied by the print medium cassettes 12 reaches the photoreceptor 13, the toner image is transferred from the photoreceptor 13 to the print medium, and, subsequently, when the print medium passes through the fusing unit 15, the transferred toner image is fused or fixed onto the print medium. After the formation of the image on the print medium is completed, the print medium bearing the fixed image is discharged to the bookbinding unit 20 by the exit rollers 16.
The bookbinding unit 20 according to an embodiment, as shown in more detail in
A pair of pressure rollers 24 may be provided below the space between the pair of the stack trays 22 to support the sides of the folded stack of print media that has passed through the space between the pair of the stack trays 22, and to thereby maintain the folded state of the print media. The pressure rollers 24 may be elastically supported by the pressure springs 25, and thus are capable of providing a pressing support of the print media entering the space between the stack trays 22.
A storage tray 26 (shown in
Feed rollers 27 may be positioned in the bookbinding unit main body 21 to receive the print media, on which the formation of the image has been completed, from the image forming apparatus 10, and to feed the received print media to the stack trays 22. A stopper 28 may be provided in the bookbinding unit main body 21, and may be arranged to move laterally so as to allow the centers of the print media to be positioned at the space between the pair of the stack trays 22 adaptively according to the various sizes of the print media.
The pair of the stack trays 22 in accordance with an embodiment is arranged in the main bookbinding unit body 21 such that the stack trays 22 are rotatable to be in a surface contact with the print media passing through the space between the pair of the stack trays 22, which may reduce the likelihood of damaging the print media. According to an embodiment, as the print media passes through the space between the pair of the stack trays 22, the print media become gradually folded into a V shape by the folding knife 23. The stack trays 22 are arranged to rotate due to the pressing force of the print media by rotational angles in conformity with the shape of the folded stack of print media so as to guide the side surfaces of the print media with the surfaces of the two stack trays 22. Therefore, the force applied by the folding knife 23 need not be concentrated on small regions of the stack trays 22, but may advantageously be dispersed over a wider area of the surfaces of the stack trays 22. Thus, it may be possible to reduce the likelihood of damages to the print media, which may be generated when force is concentrated on smaller regions of the stack trays 22.
The hinge parts 22a may rotatably support the stack trays 22, may each be provided at a position near one end of the corresponding stack tray 22 so as to protrude therefrom through the corresponding one of the long holes or grooves 21a formed on the bookbinding unit main body 21. The long holes 21a may be arranged to extend horizontally substantially parallel to the stack trays 22 in their initial un-rotated positions. The hinge parts 22a may be slidably coupled to the long holes 21a so as to allow sliding movement of the hinge parts 22a along the long holes 21a to thereby allow the rotational and/or lateral movements of the stack trays 22. According to an embodiment, the hinge parts 22a may be positioned to be spaced apart from the respective corresponding opposing ends of the stack trays 22 by a distance, which may be determined taking into consideration the space between the stack trays 22 that allows the folded print media to pass therethrough. It should be noted that the above described configuration of the hinged parts 22a and grooves 21a are provided merely as an illustrative example, and that other configurations are also possible. For example, in an alternative embodiment, the hinged parts 22a may be provided to protrude from the bookbinding unit main body 21 while the long holes 21a are formed along the stack trays 22 to receive the hinged parts 22a therethrough.
The return springs 29 may be provided to provide an elastic bias to the stack trays 22 in the direction of returning the stack trays 22 to their initial un-rotated positions. For example, one end of a return spring 29 may be secured to an end portion of the corresponding stack tray 22 while the other end of the return spring 29 is secured to the bookbinding unit main body 21.
With the above described configurations, when a number of the print media are received and stacked on the two stack trays 22, as illustrated in
According to another embodiment, as shown in
With such configuration shown in
According to another alternative embodiment, as shown in
As is apparent from the above description, according to an aspect of the present disclosure, the provision of rotatable stack trays 22 in the bookbinding unit 20 may afford a reduction in the likelihood of damages to print media during binding process by, for example, providing a wider surface contact between the print media and the stack trays 22 as the print media passes between the stack trays 22, allowing a dispersion of the folding force over wider surface(s).
While the disclosure has been particularly shown and described with reference to several embodiments thereof with particular details, it will be apparent to one of ordinary skill in the art that various changes may be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the following claims and their equivalents.
Number | Date | Country | Kind |
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10-2008-0121840 | Dec 2008 | KR | national |
Number | Name | Date | Kind |
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20080211158 | Fukasawa et al. | Sep 2008 | A1 |
Number | Date | Country |
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61-012573 | Jan 1986 | JP |
2007-296813 | Nov 2007 | JP |
Entry |
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English language abstract of JP 61-012573, published Jan. 20, 1986. |
English language abstract of JP 2007-296813, published Nov. 15, 2007. |
Machine English language translation of JP 2007-296813, published Nov. 15, 2007. |
Number | Date | Country | |
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20100133736 A1 | Jun 2010 | US |