This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2013-093753, filed Apr. 26, 2013, the entire contents of which are incorporated herein by reference.
Embodiments described herein relate to a heat source unit and an erasing apparatus which uses the heat source unit.
Conventionally, in an image forming apparatus which heats and presses the toner on an electronic photograph and the like to fix the toner on the paper, as a method for removing papers jammed in a fixing apparatus or papers stopping when passing through the fixing apparatus, a method of rotating a conveyance rib contacting with a press roller and a heat roller, or a method of releasing the pressure between the press roller and the heat roller is widely used to draw the papers out.
In accordance with one embodiment, a heat source unit comprises a first heating member configured at one side of a paper at the upstream side of a paper conveyance direction to heat the paper from the one side; a first press roller configured opposite to the first heating member to press the paper from the other side against the first heating member, and meanwhile rotate to convey the paper in the conveyance direction; a second heating member configured at the other side of the paper at the downstream side of the first press roller in the paper conveyance direction to heat the paper from the other side; a second press roller configured opposite to the second heating member to press the paper from the one side against the second heating member, and meanwhile rotate to convey the paper in the conveyance direction; and a heat source opening and closing mechanism, around a rotation shaft of which a plurality of spring members are wound, configured to be opened and closed by rotating an outside unit including the first heating member and the second press roller against an inside unit including the second heating member and the first press roller; wherein the heat source opening and closing mechanism is opened and closed among a closed position where the first press roller faces to the first heating member and the second press roller faces to the second heating member, a first open state in which the load by the outside unit is commensurate with a first elastic force of the spring member, and a second open state in which an opening angle is larger than that in the first open state, and the combination force of the load by the outside unit and a pressure force applied in the first open state in the open direction of the heat source is commensurate with a second elastic force of the spring member.
Hereinafter, the embodiment is described in detail with reference to the accompanying drawings.
Each of the conveyance paths 141˜145 is provided with a plurality of conveyance rollers 17 to convey the paper S, and a plurality of motors 18 to drive each conveyance roller 17. Further, each of the conveyance paths 141˜145 is provided with a plurality of gates 19 to correctly convey the paper S to each of the conveyance paths 141˜145.
The first conveyance path 141 conveys the paper S from the paper feed section 12 to the scanner 13. The second conveyance path 142 conveys the paper S from the scanner 13 to the erasing section 20 along a direction indicated by an arrow A. The third conveyance path 143 conveys the paper S from the erasing section 20 to the scanner 13 again. The fourth conveyance path 144 conveys the paper S from the scanner 13 to the first paper discharge tray 15. The fifth conveyance path 145 conveys the paper S from the scanner 13 to the second paper discharge tray (reject box) 16.
The first paper discharge tray 15 collects, for example, a reusable paper S the image on which is erased. The second paper discharge tray (reject box) 16 collects a not-reusable paper S which is generally scraped and recycled.
The erasing apparatus 10 mainly carries out the following operations (1)-(5):
(1) reading the paper S fed from the paper feed section 12 by the first conveyance path 141 using the scanner 13. The scanner 13 includes a first scanner 131 and a second scanner 132 to read two sides of the paper S. The scanner 13 reads, for example, image data before the image on the paper S is erased. Simultaneously, the scanner 13 reads the printing state of the paper S.
(2) storing the image data read by the scanner 13. Further, according to the printing state of the paper S read by the scanner 13, if the paper S is ripped or crumpled, the paper S is guided to the fifth conveyance path 145 and then conveyed to the reject box 16. The paper S without any rip or crumple is conveyed to the erasing section 20 by the second conveyance path 142.
(3) heating the paper S conveyed to the erasing section 20 when the paper S passes through the erasing section 20 to erase the image formed on the paper S by heating. The erasing section 20 heats and presses the paper S at a relatively high temperature of, for example, 180˜200 degrees centigrade, to erase the image on the paper S. The detailed constitution of the erasing section 20 is described later.
(4) conveying the paper S passing through the erasing section 20 to the scanner 13 again by the third conveyance path 143. The scanner 13 reads the printing state of the paper S again to confirm whether or not the image formed with erasable coloring agent in an image area is actually erased.
(5) conveying the reusable paper S to the first paper discharge tray 15 by the fourth conveyance path 144. According to the printing state of the paper S read by the scanner 13, if there is an image formed with inerasable coloring agent or a handwritten image left in the image area of the paper S, or if the paper S is ripped or crumpled, the paper S is conveyed to the reject box 16 by the fifth conveyance path 145.
The paper S is conveyed on the second conveyance path 142 from a direction indicated by an arrow A. The direction indicated by the arrow A is equivalent to the direction indicated by the arrow A in
The first press roller 301 and the second press roller 302 are cylindrical rotation rollers which are respectively contacted with the first heat roller 213 and the second heat roller 214 in a longitudinal direction thereof, and rotate around the rotation axes 303 and 304, respectively. The first press roller 301 and the second press roller 302 are formed by, for example, contacting a tube having mold releasability with the surface of an elastic body such as a silicon sponge and the like. The rotation axes 303 and 304 are energized in the directions of the first heat roller 213 and the second heat roller 214, respectively, thereby clamping, pressing and heating the paper S between the first heat roller 213 and the first press roller 301, and then between the second heat roller 214 and the second press roller 302, while conveying the paper S.
A pressure (pinch pressure) for energizing the first press roller 301 towards the direction of the first heat roller 213 in the first erasing section 201 is indicated by F1. A pressure (pinch pressure) for energizing the second press roller 302 towards the direction of the second heat roller 214 in the second erasing section 202 is indicated by F2. The ratio of the pinch pressure F1 to the pinch pressure F2 is, for example, 3:2.
For example, the rotation shaft 303 is pulled by a spring towards the side of the first heat roller 213 due to the application of the pinch pressure F1. Further, for example, the rotation shaft 304 is pulled by a spring towards the side of the second heat roller 214 due to the application of the pinch pressure F2.
An erasing processing carried out on the paper S by the first erasing section 201 and the second erasing section 202 is described below. The paper S is guided by the paper guides 31 and 33, and conveyed to the erasing section 20 through the second conveyance path 142. The press roller 301 of the first erasing section 201 and the press roller 302 of the second erasing section 202 are rotated in opposite directions, thereby conveying the paper S in the direction indicated by the arrow A at a preset speed.
The first press roller 301 is pressed against and contacted with the first heat roller 213 through the pinch pressure F1 in the first erasing section 201 at the upstream side of the conveyance path. A contact point (one dotted lines X01) of the first press roller 301 and the first heat roller 213 forms a nip area where heat is transferred to the paper S, and the surface of the paper is heated and the image formed on one side of the paper S is erased by conveying the paper S through the nip area X01.
In a case where the image is formed on the paper S with erasable coloring agent, the coloring agent is erased at a certain temperature. The first heat roller 213 is uniformly heated by a cylindrical halogen heater 241 and maintained at an erasing temperature. The temperature of the first heat roller 213 is detected by a thermistor (not shown), and the first heat roller 213 is maintained at a proper temperature based on the result of the temperature detection.
The paper S, after being discharged from the first erasing section 201, is guided by the paper guides 32 and 34, and conveyed into the second erasing section 202. In the second erasing section 202 at the downstream side of the conveyance path, the position relation of the second press roller 302 and the second heat roller 214 is opposite to that in the first erasing section 201 in the vertical direction, and the second press roller 302 is pressed against and contacted with the second heat roller 214 through the pinch pressure F2.
A contact point (one dotted lines X02) of the second press roller 302 and the second heat roller 214 forms a nip area where heat is transferred to the paper S. The surface of the paper is heated and the image formed on the other side of the paper S is erased by conveying the paper S through the nip area X02. The paper S both sides of which are color erased is discharged along the paper guide 34, and then conveyed to the third conveyance path 143.
Though the first erasing section 201 is structurally identical to the second erasing section 202, the arrangement position of the heat roller and press roller in the first erasing section 201 is opposite to that in the second erasing section 202, and each roller is arranged in series, therefore, the image formed on one side of the paper S is erased by the first erasing section 201, and the image formed on the other side of the paper S is erased by the second erasing section 202. Thus, the image formed on two sides of the paper S can be erased efficiently.
In this way, the heat source opening and closing mechanism which separates the heat rollers 213, 214 and the press rollers 301, 302 to remove the paper S jammed in the heat source unit or the paper S stopping in the heat source unit is adopted in the erasing apparatus 10 in which the heat source unit according to the present embodiment is applied. The heat source opening and closing mechanism has such a structure that the heat rollers 213, 214 and the press rollers 301, 302 in the heat source unit can be separated by taking the rotation shaft 20f as a center, and when opening the heat source unit, the heat source unit is opened to a certain angle θ1 first due to the action of the torsion spring 20g arranged around the rotation shaft 20f, and is opened to a larger angle if being further pressed. The papers stopping in the heat source unit can be pulled out without any obstruction by opening the heat source unit to a certain angle θ1 first. Next, the paper jammed in the heat source unit can be removed easily by further pressing the heat source unit and opening the heat source unit to a larger angle. That is, with such a structure that the heat source unit is opened in stages, the risk that the operator contacts with the heat source having a high temperature in the paper removing operation can be greatly reduced.
Further, in the embodiment described above, it is exemplified the heat source unit is applied to the heat source unit of the erasing apparatus 10; however, the present invention is not limited to this. For example, the heat source unit may also be applied to the heat source unit of a fixing apparatus. In addition, in the present embodiment, the heat rollers 213 and 214 are described as heating members, however, heat plates may also be used.
While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the invention. Indeed, the novel embodiments described herein may be embodied in a variety of other forms; furthermore, various omissions, substitutions and changes in the form of the embodiments described herein may be made without departing from the spirit of the invention. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the invention.
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Entry |
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Japanese Office Action for Japanese Patent Application No. 2013-093753 mailed on Dec. 24, 2014. |
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20140320580 A1 | Oct 2014 | US |