The present application claims priority to and incorporates by reference the entire contents of Japanese Patent Application No. 2013-104285 filed in Japan on May 16, 2013.
1. Field of the Invention
The present invention relates to an image forming apparatus such as a copying machine, a printer, or a multifunctional peripheral, and a paper feeding device provided therein.
2. Description of the Related Art
There is a paper feeding device provided in an image forming apparatus, which sucks an uppermost paper of a plurality of papers stacked in a tray by a suction belt, and feeds the paper to an image forming unit. Among this type of paper feeding devices, one that feeds papers to the image forming unit of the image forming apparatus one by one at a high speed is known. An outline thereof is illustrated in
In the paper feeding device of
The blower 1 also handles the papers by blowing on a region in a predetermined height direction, and sending the air between the papers to float the papers. A paper damming up member 7 is arranged between the blower 1 and the paper bundle P, and prevents the papers other than the uppermost paper P1 from being conveyed. Further, a detection unit 3 that comes in contact with an upper surface of the uppermost paper P1 and detects the height of the paper bundle P is provided. The detection unit 3 detects data for constantly maintaining a distance h between the position of the uppermost paper P1 of the paper bundle P that is decreased due to passing of the papers and the suction belt 2. To realize that, an actuator 4 and a sensor 5 that detects swinging of the actuator 4, such as a photo sensor, are included. The actuator 4 swings due to a decrease of the papers, and the sensor 5 detects a moving amount of the swinging. A bottom plate 6 of a paper feeding tray 21 is lifted by a lift unit (not illustrated) or the like based on a detection signal thereof, and the position of the uppermost paper P1 of the paper bundle P is adjusted.
The papers that make the paper bundle P are stacked on the bottom plate 6 such that the front end surfaces are arranged as reference surfaces in accordance with the size of the papers, as illustrated in
Next, a paper feeding operation of the conventional paper feeding device illustrated in
(1) The blower 1 is actuated when a paper feeding instruction comes from a main body (not illustrated) of the image forming apparatus, and air blowing of the blower 1 to an end portion of the paper bundle P is started, as illustrated in
(2) Driving of the suction belt 2 and the conveyance roller 8 are started, and the paper P1 is conveyed (
(3) The driving of the suction belt 2 is stopped after arrival of the paper P1 to the paper feeding sensor 9 (
(4) A paper P2 directly under the uppermost paper P1 is floated and sucked immediately after the paper P1 passes through a suction region (
(5) The driving of the suction belt 2 is restarted, and the paper feeding of the paper P2 is performed, according to a set paper feeding interval.
(6) Hereinafter, the papers are sequentially conveyed from the paper bundle P by repetition of (2) to (5).
Next, behavior of the front end surface of the paper bundle P by air blowing will be described. Note that, in
By the way, such a paper feeding device is required to perform paper feeding of a wide range of papers from a thin paper to a thick paper. In a paper feeding mechanism using the above air separation and suction, paper feeding of a thin paper may sometimes be difficult. When air blowing through the floating nozzle 31 is performed to thin papers set in the tray in the paper feeding mechanism using air separation and suction, floating of the papers can be easily performed because the papers are light. Accordingly, the second and subsequent papers are strongly pressed down to the suction belt 2, and the papers are closely adhered to the uppermost paper (
Therefore, there is a paper feeding device in which the paper damming up member 7 is arranged at a front surface of the paper feeding tray 21 (a surface of a downstream side in the paper conveying direction) in order to prevent the papers under the uppermost paper P1 from being drawn by the uppermost paper P1 and being fed (
However, when the paper damming up member 7 is arranged in front of the separating nozzle 32, the flow of the air through the separating nozzle 32 is impeded (
In view of the above-described problems, there is a need to provide a paper feeding device capable of performing stable paper feeding and returning of a jammed paper to a paper feeding tray even in a paper feeding system using air separation and suction.
It is an object of the present invention to at least partially solve the problems in the conventional technology.
According to the present invention, there is provided a paper feeding device comprising: a suction unit configured to suck an uppermost paper positioned at an uppermost position from among a paper bundle stacked on a paper feeding tray by air suction, and to convey the sucked paper; a paper damming up member configured to dam up a paper other than the uppermost paper from being conveyed from the paper feeding tray; a guide unit positioned at a downstream side of a conveyance start position of the uppermost paper by the suction unit in a paper conveying direction, and configured to serve as a guide when the uppermost paper conveyed by the suction unit is further conveyed toward the downstream side in the paper conveying direction; an uppermost paper surface position detection unit configured to detect a height position of the uppermost paper in an up and down direction; and a control unit configured to lift/lower the paper feeding tray such that a height position of the uppermost paper in the tray becomes a predetermined position by a lift unit based on the position of the uppermost paper detected by the uppermost paper surface position detection unit, wherein a height position of the paper damming up member is variable in a height direction of the paper bundle loaded in the paper feeding tray, at least a rear end portion of the guide unit in the paper conveying direction is arranged at an upper portion than an upper end of the paper damming up member, and the control unit variably controls the height position of the paper damming up member according to a result of detection by the uppermost paper surface position detection unit, and controls the paper damming up member to lower when a paper conveyed from the paper feeding tray is clogged and is once returned to the paper feeding tray.
The present invention also provides an image forming apparatus comprising a paper feeding device for feeding a paper to an image forming unit, wherein the paper feeding device comprises: a suction unit configured to suck an uppermost paper positioned at an uppermost position from among a paper bundle stacked on a paper feeding tray by air suction, and to convey the sucked paper; a paper damming up member configured to dam up a paper other than the uppermost paper from being conveyed from the paper feeding tray; a guide unit positioned at a downstream side of a conveyance start position of the uppermost paper by the suction unit in a paper conveying direction, and configured to serve as a guide when the uppermost paper conveyed by the suction unit is further conveyed toward the downstream side in the paper conveying direction; an uppermost paper surface position detection unit configured to detect a height position of the uppermost paper in an up and down direction; and a control unit configured to lift/lower the paper feeding tray such that a height position of the uppermost paper in the tray becomes a predetermined position by a lift unit based on the position of the uppermost paper detected by the uppermost paper surface position detection unit, wherein a height position of the paper damming up member is variable in a height direction of the paper bundle loaded in the paper feeding tray, at least a rear end portion of the guide unit in the paper conveying direction is arranged at an upper portion than an upper end of the paper damming up member, and the control unit variably controls the height position of the paper damming up member according to a result of detection by the uppermost paper surface position detection unit, and controls the paper damming up member to lower when a paper conveyed from the paper feeding tray is clogged and is once returned to the paper feeding tray.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Embodiments of the present invention will be described with reference to the drawings.
As illustrated in
Note that configuration elements common to the conventional example, such as a blower that is an air blowing unit, are only denoted with the same reference signs in the drawings.
In the paper feeding tray 21, side fences 23 that guide side surfaces of the paper bundle loaded on the bottom plate 6 in a width direction (a direction perpendicular to the paper feeding direction) are provided at both sides, and an end fence 24 that presses the rear end surface of the paper bundle is provided at the rear of the paper bundle.
Paper jam processing in the present embodiment will be described with reference to
Assume a case in which a state of clogging a paper (paper jam) occurs due to some cause at timing when the paper arrives at a vicinity of the paper feeding sensor 9. Further, at this time, an operation of inverting the conveyance roller 8 and returning a jammed paper (hereinafter, a jammed paper) Pj in the paper feeding tray 21 is controlled. At this time, a state occurs, in which the paper damming up member 33 hinders the returning of the jammed paper Pj and the jammed paper Pj cannot be returned into the paper feeding tray 21.
Therefore, when the conveyance roller 8 is inversely rotated in returning the jammed paper Pj in the paper feeding tray 21, the position of the paper damming up member 33 is lowered by the actuator 34. The paper damming up member 33 is lowered to a position that is lower than a conveyance guide plate 37 at a downstream side in the paper conveying direction. Then, the jammed paper Pj is returned to the paper feeding tray 21 without damage. The returned jammed paper Pj can be reused. Note that the reference sign 37 in the drawing represents the conveyance guide plate that configures the guide unit. The conveyance guide plate is provided at a downstream side of a conveyance start position of a paper by the suction belt 2 in the paper conveying direction, and guides the conveyed paper from a lower surface side. The conveyance roller 8 is provided in the vicinity of the conveyance guide plate 37. Further, at least a rear end portion of the conveyance guide plate 37 in the paper conveying direction is arranged at an upper portion than an upper end of a tray abutting surface plate 38. Further, a rear end edge of the conveyance guide plate 37 is arranged, for example, to accord with the tray abutting surface plate 38 in the paper conveying direction, or is arranged to slightly get into the paper feeding tray 21. Then, as illustrated in
Further, the present invention is not limited to the above-described embodiments, and various modifications can be made by a person having an ordinary skill in the art within the technical idea of the present invention.
According to the present invention, when paper jam processing of returning a clogged paper to a paper feeding tray is performed, a damming up member is lowered, so that there is an effect to return the paper to the paper feeding tray and to reuse the paper without causing damage to the paper.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
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2013-104285 | May 2013 | JP | national |