JP2009173457A - Sheet feeder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sheet feeder preventing jamming of sheets in a bundle shape in a separation part and securely delivering, to the separation part, the number of sheets that allows secure one-by-one separation in the separation part. <P>SOLUTION: The sheet feeder is provided with a delivery means brought into contact with the uppermost face of sheets placed on a paper feeding tray and delivering the sheets; a liftable/lowerable lifting/lowering tray supporting tip parts of the sheets placed on the paper feeding tray and making the uppermost face of the sheets come into contact with the delivery means; a paper feeding roller for feeding the sheets delivered by the delivery means; a separation member brought into pressure contact with the paper feeding roller and separating the sheets one by one; a guiding guide means provided between the tip of the lifting/lowering tray and the separation member and having a slant face for guiding the sheets delivered from the delivery means; and an intermediate roller arranged between the delivery means and the paper feeding roller. The contact face of the sheet delivered by the delivery means with the intermediate roller is formed in the position lower than the tip of the guiding guide means, and a space through which the predetermined number or less of sheets can pass is formed in the downstream side tip part of the guiding guide means and the intermediate roller. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a sheet feeding apparatus that sequentially feeds sheets placed on a sheet feeding tray to a predetermined processing position, and more particularly to a separation feeding mechanism that separates and feeds sheets one by one.

  Many sheet feeders that are provided in image readers, copiers, etc., and feed sheets to a predetermined reading position, feed out the sheets in contact with the uppermost surface of the sheets stacked on the paper feed tray. And a separation unit including a sheet feeding roller and a separating member for separating the sheet fed by the feeding roller into one sheet and feeding the sheet to a predetermined reading position.

  In such a sheet feeding device, as a mechanism for bringing the feeding roller into contact with the uppermost surface of the sheet on the sheet feeding tray, the feeding roller is configured to be movable up and down, and the feeding roller is lowered to lower the uppermost sheet. Separately from the one that comes into contact with the sheet and the sheet feeding tray that feeds out the sheet from the sheet feeding tray, the uppermost surface of the sheet is supported by supporting and lifting a part of the leading end side of the sheets stacked on the sheet feeding tray. Some have an elevating tray that can be raised and lowered to be brought into pressure contact with the feeding roller.

  In any of the above-described sheet feeding devices, when the sheet is fed by the feeding roller, the sheets are bundled and fed into a narrow sheet feeding path that communicates with the separation unit, and the sheet bundle ends at the sheet feeding port of the sheet feeding path. The part becomes wedge-shaped and the sheet is clogged, causing a problem that the sheet cannot be fed out to the separation part.

  In order to solve such a problem, in the conventional sheet feeding device, an inclined sheet guide surface is formed between the sheet feeding tray and the separation unit, thereby shifting the sheet bundle in steps. Some were configured to feed into the paper feed slot.

  However, such a configuration in which the sheet bundle is shifted stepwise by the inclined guide surface and fed into the sheet feeding port works effectively for a type in which the feeding roller is lowered and brought into contact with the uppermost surface of the sheet. However, in the type in which the uppermost surface of the sheet is pressed against the feeding roller by raising the elevating tray, the feeding position is set so as to feed toward the sheet feeding port, so that the sheet bundle is sufficiently shifted. However, non-feeding due to sheet jamming at the paper feed port has not been solved.

  The present invention has been made in view of the above problems, and in a sheet feeding unit of a type in which the uppermost surface of the sheet is pressed against the feeding roller by raising the elevating tray, the sheets are jammed in a bundle. An object of the present invention is to provide a sheet feeding apparatus that can prevent and reliably feed out a number of sheets that can be separated one by one by the separation unit to the separation unit.

  In order to achieve the above object, the present invention provides a paper feed tray on which a sheet is placed, a feeding means for feeding the sheet in contact with the top surface of the sheet placed on the paper feed tray, and the paper feed An elevating tray that supports the leading end of the sheet placed on the tray and allows the uppermost surface of the sheet to contact the feeding unit, and a sheet feeding roller that feeds the sheet fed by the feeding unit A separating member that presses the sheet feeding roller and separates the sheet into one sheet, and an inclined surface that is provided between a leading end of the lifting tray and the separating member and guides the sheet fed by the feeding means. A guide guide means having an intermediate roller disposed between the feeding means and the paper feed roller, and a contact surface between the sheet fed by the feeding means and the intermediate roller is the guide guide hand. A sheet feeding device, wherein a space is formed between the downstream end of the guide guide means and the intermediate roller so that a predetermined number of sheets or less can pass therethrough. Is to provide.

  Here, the space is 0.8 to 1.0 mm, and the sheet feeding speed by the intermediate roller is set to be equal to or lower than the sheet feeding speed of the sheet feeding roller.

  Further, at least a part of the inclined surface facing the intermediate roller is constituted by a friction member, and the friction member is formed so that the region thereof becomes narrower in the sheet feeding direction.

  The feeding means is swingably supported with the rotation shaft of the intermediate roller as a fulcrum.

  The feeding unit, the sheet feeding unit, and the intermediate roller are driven by a single driving unit.

  As a result, in the sheet feeding apparatus according to the present invention, the number of sheets that can enter the space formed between the rotating body and the tip of the guide guide means is limited, and the sheets are not jammed in a bundle. Thus, it is possible to reliably feed out a number of sheets that can be separated one by one by the separation unit to the separation unit.

1 is a side view of the overall configuration of a sheet feeding apparatus according to the present invention. An example of a side view of a sheet feeding unit in the sheet feeding apparatus is shown. The side view of the principal part of the paper feed part which concerns on this invention is shown. The figure of the principal part of the paper feed part explaining operation | movement of a pre-separation mechanism is shown. The front view (a) and side view (b) of the inclined surface of the guide guide comprised with the plate-shaped front rubber and the sheet-like film member are shown. An example of a configuration in which an intermediate roller is provided between a feeding roller and a paper feed roller in the paper feed unit is shown. 3 shows a configuration example of a drive mechanism of a paper feed unit according to the present invention.

  Embodiments of a sheet feeding device according to the present invention will be described below in detail with reference to the drawings.

  FIG. 1 shows the overall configuration of a sheet feeding apparatus of the present invention mounted on an image reading apparatus, and FIG. 2 shows an example of a sheet feeding mechanism in the sheet feeding apparatus.

  In FIG. 1, the sheet feeding device A conveys the sheet so as to pass the upper surface of the contact glass 1 a of the image reading device main body H.

  In the image reading apparatus main body H, the light from the light source 6 such as a lamp is irradiated to the conveyed sheet through the first contact glass 1a, and the reflected light is reflected by the mirrors 7a, 7b, 7c, and the lens 8 The sheet image is read by photoelectric conversion by a reading means 9 such as a CCD. Therefore, the upper surface of the first contact glass 1a constitutes the reading unit of the apparatus main body H. The image reading apparatus main body H includes a second contact glass 1b having an area on which a sheet can be placed, and a thick book such as a book placed on the contact glass 1b by opening and closing the sheet feeding apparatus A. An image of the sheet can be read through the second contact glass 1b by moving the light source unit including the light source 6 and mirrors 7a, 7b, and 7c in the sub-scanning direction.

  Next, the configuration of the sheet feeding apparatus A will be described with reference to FIGS.

  The sheet feeding device A includes a sheet feeding tray 10 serving as a loading unit that can load a plurality of sheets, a lifting tray 22 that loads a plurality of sheets and moves them up and down to a feeding position, and a read sheet. The first paper discharge tray 18 and the second paper discharge tray 19 are provided as storage means for storing the paper, and the first paper discharge tray 18 mainly stores large-sized sheets, The paper discharge tray 19 stores small-sized sheets.

  The sheet feeding device A also feeds the sheets on the sheet feeding tray one by one toward the first contact glass 1a, and the sheet feeding apparatus A is connected to the sheet feeding path 11 to form the sheets. 1 has a conveyance path 12 that guides along the upper surface of one contact glass 1a, and a first discharge path 13 that extends from the conveyance path 12 to a discharge outlet of a first discharge tray 18. Further, a circulation path 14 that is connected to a connection portion between the sheet feeding path 11 and the conveyance path 12 from the sheet discharge port of the first sheet discharge tray 18 and returns the sheet to the conveyance path 12 again, and a first sheet discharge path. 13, an intermediate path 15 that guides the sheet from the conveyance path 12 and a second discharge path 16 that extends from the intermediate path 15 to the discharge port of the second discharge tray 19. In addition, a switchback path 17a that is branched from the second paper discharge path 16 to switch back the sheet from the intermediate path 15, and a second sheet discharged by turning the switched back sheet upside down. A sheet path including a reversing path 17 b that leads to a sheet discharge port of the tray 19 is formed.

  The side of the sheet placed on the sheet feeding tray 10 is regulated by the side guide 20, and the leading end is regulated by the guide guide 21. Further, the sheet feed tray 10 is rotatably attached with the leading end side in the sheet feeding direction as a fulcrum.

  Further, the sheet feeding unit 45 having the sheet feeding path 11 includes a pair of rotating pulleys 5 (hereinafter referred to as belt rollers 5) serving as a feeding unit that feeds out the sheet, and a feeding unit stretched around the pair of belt rollers 5. An endless belt (hereinafter referred to as “feeding belt”) 23 that is a rotating body, and an elevating tray 22 that raises the leading end of the sheet placed on the sheet feeding tray 10 and makes the uppermost surface of the sheet contact the feeding belt 23. A separating means comprising a sheet feeding roller 24 for feeding the sheet fed by the feeding belt 23 and a separation roller 25 for passing only one of the uppermost sheets and preventing feeding of the second and subsequent sheets; A guide guide 21 which is provided between the front end of the tray 22 and the separating means and has an inclined surface for guiding the sheet fed by the feeding belt 23; Registration roller pair 26 to send to the downstream side, are disposed respectively after the aligned abutting the leading end of the sheet to be separated feed to the sheets.

  Here, the feeding belt 23 is an endless rubber member stretched between a driving belt roller 5a and a driven belt roller 5b, which are a pair of belt rollers 5, and here, the conveying force for the sheet is increased. In order to achieve this, the outer peripheral surface of the endless rubber member is formed in an uneven shape. The feeding belt 23 is arranged such that the leading end side in the paper feeding direction is in contact with the leading end of the guide guide 21, and the document is pre-separated into two or three sheets between the feeding belt 23 and the guide guide 21. It is configured like this.

  In the conveyance path 12, a large-diameter conveyance roller 27 and a plurality of driven rollers 28, 29, and 30 that are in pressure contact with the peripheral surface of the conveyance roller 27 are disposed. The conveyance roller 27 is driven by a conveyance motor M2. It is configured as follows.

  In the first paper discharge path 13, a driven roller 31 pressed against the conveying roller 27 and a first paper discharge roller pair 32 that discharges the sheet to the first paper discharge tray 18 are arranged.

  The first paper discharge roller pair 32 is connected to a first paper discharge motor M3 capable of forward / reverse rotation, and reversely rotates with the rear end side of the sheet nipped in the double-sided mode to switch back the sheet. Then, control is performed so as to send to the transport path 12 via the circulation path 14. Further, the discharge roller pair 32 separates the other roller 32a from the one roller 32b by the press contact solenoid SOL1 so that the front and rear ends of the sheets circulated through the circulation path 14 and the conveyance path 12 can be conveyed without trouble. Is configured to do.

  Further, an intermediate roller pair 33 for feeding sheets downstream is disposed in the intermediate path 15, and a second paper discharge roller pair 35 for discharging sheets to the second paper discharge tray 19 in the second paper discharge path 16. Is arranged. Further, a switchback roller pair 34 is disposed in the switchback path 17a, and the sheet is switched back and sent to the second paper discharge roller pair 35 via the reverse path 17b.

  Further, an empty sensor S1 for detecting that a sheet is placed on the sheet feeding tray 10 is provided on the downstream side in the sheet feeding direction of the sheet feeding tray 10, and a sheet feeding path 11 is provided with a sheet to be fed. A length sensor S2 for detecting the end portion and a registration sensor S3 are provided. Furthermore, a lead sensor S4 is provided in front of the first contact glass 1a, a first discharge sensor S5 is provided at the discharge outlet of the first discharge tray 18, and an intermediate sensor S6 (not shown) is provided at the intermediate path 15. A second discharge sensor S7 (not shown) is provided in the vicinity of the discharge outlet of the second discharge tray 19, and a switchback sensor S8 (not shown) is provided in the switchback path 17a. These sensors detect the edge of the fed sheet.

  Each of the sensors S1 to S8 is connected to control means including a CPU for controlling the conveyance of the sheet, and the motors M1, M2, M3, and solenoids described above based on output signals from the sensors. SOL1 and solenoid SOL2 are controlled and the sheet feeding operation is executed.

  Next, the sheet feeding operation of the sheet feeding apparatus having the above configuration will be described.

  The single-side mode for reading one side of the sheet will be described. If the empty sensor S1 is ON, that is, it is detected that the sheet is placed on the paper feed tray 10, and further a paper feed command is received from the apparatus main body H, The sheet feeding motor M1 is rotated forward and the sheet is fed. At this time, the feeding belt 23 and the paper feed roller 24 are rotated in the sheet feeding direction, but the registration roller pair 26 is not rotated by the action of the one-way clutch OW2. When the registration sensor S3 detects the leading edge of the fed sheet, the sheet feeding motor M1 is temporarily stopped after the sheet is conveyed by a predetermined amount from the point of detection. At this time, the leading edge of the sheet is abutted against the nip portion of the registration roller pair 26 to form a deflection, whereby the leading edge of the sheet is aligned and the skew is removed. After this stop, the paper feed motor M1 is driven in reverse to feed the sheet from the paper feed path 11 to the transport path 12.

  The transport motor M2 is driven simultaneously with the reverse rotation drive of the paper feed motor M1, and thereby the sheet transported through the paper feed path 11 is transported along the transport roller 27. When the leading edge of the sheet conveyed through the conveyance path 12 is detected by the lead sensor S4, the sheet feeding motor M1 and the conveyance motor M2 are stopped after a predetermined amount is conveyed thereafter. At this time, the sheet stops at a position in front of the first contact glass 1a. When the reading conveyance signal is received from the apparatus main body H, the conveyance motor M2 is re-driven to allow the sheet to pass over the first contact glass 1a. At this time, the surface of the sheet is read by the reading unit.

  In the process of transporting the sheet to the first contact glass 1a, when the leading edge of the transported sheet is detected by the lead sensor S4 and then transported a predetermined amount, when the sheet feeding motor M1 and the transport motor M2 are stopped, that is, When the leading edge of the sheet reaches a position in front of the first contact glass 1a, the subsequent sheet feeding operation is selected and discharged according to the output signal of the length sensor S2.

  When the output signal of the length sensor S2 is ON, that is, when the sheet is at the position of the length sensor S2, the sheet is recognized as a long size (a sheet longer than a predetermined length), and the sheet is discharged onto the first discharge tray 18. To be controlled. That is, when the sheet is recognized as having a long size, the second solenoid SOL2 is excited to move to a position where the flapper 40 is guided to the first discharge tray 18, and the first discharge motor M3 is rotated forward. And the first paper discharge roller pair 32 is rotated in the forward direction. As a result, the sheet that has passed through the first contact glass 1 a by the conveying roller 27 is discharged along the first discharge path 13 to the first discharge tray 18. Then, when a predetermined time elapses after the trailing edge of the sheet is detected by the first sheet discharge sensor S5, it is recognized that the sheet is completely discharged onto the first sheet discharge tray 18.

  When the output signal of the length sensor S2 is OFF, that is, when the sheet is not at the position of the length sensor S2, the sheet is recognized as a short size (a sheet shorter than a predetermined length), and the flapper 40 is maintained at the normal position. The first paper discharge motor M3 is driven in the forward rotation direction to rotate the intermediate roller 33. As a result, the sheet that has passed through the first contact glass 1 a is guided to the intermediate path 15, and the second discharge tray is passed through the second discharge path 16 by the intermediate roller 33 and the second discharge roller 35. 19 is discharged.

  Next, a sheet pre-separation function in the sheet feeding apparatus will be described.

  FIG. 3 is a side view of the main part of the paper feeding unit 45. FIG. 4 is a side view of the main part of the paper feed unit 45 for explaining the operation of the pre-separation mechanism. FIG. 5 shows a front view (a) and a side view (b) of an inclined surface of the guide guide 21 constituted by a plate-like front-side rubber 53 having a high friction coefficient and a sheet-like film member 54 having a low friction coefficient.

  As shown in FIG. 3, a guide guide 21 having an inclined surface for guiding the sheet to the separating means is provided at the front side of the elevating tray 22, and the inclined surface of the guide guide 21 is a frictional member as shown in FIG. It is composed of a plate-like pre-rolled rubber 53 having a high coefficient and a sheet-like film member 54 having a low friction coefficient. The film member 54 is attached to the surface of the front facing rubber 53 so as to expose a part of the front facing side of the front facing rubber 53 in the sheet feeding direction, and its front end is formed in an arc shape. In this way, by forming an arc shape, a frictional load does not act suddenly when the guided sheet comes into contact with the surface of the front rubber 53 from the surface of the film member 54. It is possible to prevent the leading end of the sheet from coming into contact with the front facing rubber 53 having a high friction coefficient and not being fed.

  The leading end side of the feeding belt 23 is closer to the feeding direction than the leading end of the elevating tray 22 and more than the leading end in the feeding direction of the inclined surface of the guide guide 21 so that the gap X between the front winding rubber 53 is small. It is arranged below.

  Next, the operation of the pre-separation mechanism having the above configuration will be described.

  First, as shown in FIG. 4A, the sheet placed on the lifting tray 22 is moved to the sheet feeding position by the lifting of the lifting tray 22. Thereafter, as shown in FIG. 4B, the feeding belt 23 is rotationally driven to feed the sheet. At this time, since the leading end side of the feeding belt 23 is disposed below the leading end of the inclined surface of the guide guide 21 in the feeding direction, the sheet reliably strikes the inclined surface of the guide guide 21.

  Next, as shown in FIG. 4C, the fed sheet is deflected upward along the inclined surface of the guide guide 21 and entered between the front rubber 53 and the leading end of the feeding belt 23. The sheet is separated into two or three sheets between the front end side of the feeding belt 23 and the front rolling rubber 53 and is sent to the separating means.

  At this time, since the sheet is in contact with the tip of the feeding belt 23 and the conveying force is applied upward, the sheet can be fed out smoothly.

  In this embodiment, the distance between the front end side of the feeding belt 23 and the front rubber 53 is set to be 0.8 mm to 1.0 mm. This is an interval through which about 2 to 3 sheets of plain paper can pass.

  Here, the friction coefficient of the outer periphery of the feeding belt 23 is 2.1 μ, the friction coefficient of the front rubber 53 is 0.6 μ, and the normal friction coefficient between the sheets is 1.0 μ, so that the sheets are properly separated. The Rukoto.

  Furthermore, the diameter of the driven belt roller 5b is made smaller than the diameter of the driving belt roller 5a around which the feeding belt 23 is stretched. As a result, the space between the sheet feeding roller 24 and the leading end of the feeding belt 23 can be narrowed, so that the sheet can be smoothly fed to the sheet feeding roller 24 without being damaged. Further, since the section where the leading edge of the sheet that is fed upward along the inclined surface of the guide guide 21 abuts against the upper guide 60 is shortened, the sheet does not roll up in the direction of the feeding belt 23.

  In the above example, the feeding means is constituted by the feeding belt 23. However, as shown in FIG. 6, an intermediate roller 51 is provided between the feeding roller 50 and the paper feeding roller 24, and the feeding roller 50 and the intermediate roller are used. The sheet is fed out. In this case, the intermediate roller 51 may be disposed in the same manner as the tip of the feeding belt 23 described above so that the distance X between the intermediate roller 51 and the inclined surface of the guide guide 21 is 0.8 mm to 1.0 mm.

  Next, the drive configuration of the sheet feeding unit 45 will be described with reference to FIG.

  The separating roller 25 is drivingly connected to the feeding motor M1 via the feeding belt 23 and the feeding roller 24 via the one-way clutch OW1 and the one-way clutch OW2, respectively. The registration roller 28 is drivingly connected to the paper feed motor M1 through a one-way clutch OW3. Thereby, the feeding belt 23, the paper feeding roller 24, and the separation roller 25 are driven by the forward rotation of the paper feeding motor M1, and the registration roller 28 is driven by the reverse rotation.

  Here, the feeding belt 23 is driven by the timing belt T1 that is stretched over a pulley P1 provided on the feeding roller shaft and a pulley P2 provided on the driving roller shaft of the feeding belt 23. This is transmitted to the drive belt roller 5a of the belt 23, and the feeding belt 23 is rotated. At this time, the diameter of the driven belt roller 5 b of the feeding belt 23 is made smaller than the diameter of the feeding roller 24 so that the circumferential speed of the feeding belt 23 is lower than the circumferential speed of the feeding roller 24. As described above, by lowering the feeding speed of the feeding belt 23, it is possible to reliably perform pre-separation between the leading end side of the feeding belt 23 and the inclined surface of the guide guide 21.

  As shown in FIG. 7, the driving belt roller 5 a and the driven belt roller 5 b of the feeding belt 23 are swingably supported by the paper feed roller shaft by the swing arm 55.

  As described above in detail, the sheet feeding apparatus of the present invention includes a sheet feeding tray for placing sheets, and a feeding unit that feeds the sheets in contact with the uppermost surface of the sheets placed on the sheet feeding tray, An elevating / lowering tray that supports the leading end of the sheet placed on the sheet feeding tray and makes the uppermost surface of the sheet contact the feeding unit, a separating unit that separates the sheet fed by the feeding unit, and a lifting / lowering unit A guide guide means provided between the front end of the tray and the separating means and having an inclined surface for guiding the sheet fed by the feeding means, and a sheet fed by the feeding means, the contact surface of which is a guide guide means And a rotating body that is lower than the front end of the guide guide unit and forms a predetermined distance from the front end of the guide guide means.

  As a result, in the sheet feeding apparatus of the present invention, it is possible to prevent a large amount of sheets from being jammed in the separation unit, and to reliably separate the sheets one by one and feed them to the reading position. .

  The present invention relates to an invention for improving sheet feeding performance of a sheet feeding apparatus that sequentially feeds sheets placed on a sheet feeding tray to a predetermined processing position, and has industrial applicability. .

5 Belt roller (rotary pulley)
5a Drive belt roller 5b Driven belt roller 10 Paper feed tray 21 Guide guide (guide guide means)
22 Lifting tray 23 Feeding belt (rotating body)
24 Feed roller 25 Separation roller (separation means)
53 Front rubber (friction member)
54 Film member M1 Paper feed motor

Claims (7)

A paper feed tray for placing sheets;
A feeding means for feeding the sheet in contact with the uppermost surface of the sheet placed on the sheet feeding tray;
An elevating and lowering tray that supports the leading end of the sheet placed on the sheet feeding tray and that allows the uppermost surface of the sheet to contact the feeding means; and
A paper feed roller for feeding the sheet fed by the feeding means;
A separating member that presses against the sheet feeding roller and separates the sheet into one sheet;
Guidance guide means provided between the front end of the elevating tray and the separation member, and having an inclined surface for guiding the sheet fed by the feeding means;
An intermediate roller disposed between the feeding means and the paper feed roller,
The contact surface between the sheet fed by the feeding means and the intermediate roller is formed at a position lower than the tip of the guide guide means, and a predetermined number or less is provided between the downstream tip portion of the guide guide means and the intermediate roller. A sheet feeding device characterized in that a space through which the sheet can pass is formed.   The sheet feeding device according to claim 1, wherein the space is 0.8 to 1.0 mm.   The sheet feeding apparatus according to claim 1, wherein a sheet feeding speed of the intermediate roller is equal to or slower than a sheet feeding speed of the sheet feeding roller.   The sheet feeding device according to claim 1, wherein at least a part of the inclined surface facing the intermediate roller is configured by a friction member.   The sheet feeding device according to claim 4, wherein the friction member is formed so that a region thereof becomes narrower in a sheet feeding direction.   The sheet feeding device according to claim 1, wherein the feeding unit is swingably supported with a rotation shaft of the intermediate roller as a fulcrum.   The sheet feeding apparatus according to claim 6, wherein the feeding unit, the sheet feeding unit, and the intermediate roller are driven by a single driving unit.

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