JP2011144035A - Paper feeder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To surely prevent double feeding by stably blowing air upon the uppermost paper, regardless of a variation in a vertical position of a paper feed tray and a paper width, in a paper feeder 1 for integrally lifting the paper feeding tray 3 and a side fence 10. <P>SOLUTION: A paper separation fan F vertically movably arranged on an outer surface of a fence, is energized upward by a compression coil spring 15. An interval of a positioning block 20 arranged in a body 2 in an upper part, is set in response to an interval between a side fence and the fan. When setting paper in a paper feeding position by lifting the paper feeding tray, the fan is positioned in the paper feeding position by butting against the positioning block from below, and the air can be blown upon the side edge of the uppermost paper. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a sheet feeding device that is provided as, for example, a sheet feeding mechanism of an image forming apparatus and sequentially feeds a large number of sheets stacked on a sheet feeding table from above. The present invention relates to a paper feeding device that can reliably feed one sheet at a time without double feeding, regardless of the size of the paper, even if it is thin paper or smooth coated paper.

  For example, as a paper feed mechanism for supplying paper to an image forming apparatus or the like, a large number of papers are stacked on a table, the uppermost paper is brought into contact with the paper feed roller from below, and the paper feed roller is driven up. There is known a paper feeding device that sequentially feeds papers. In such a sheet feeding device, as the height of the stacked sheets decreases as the sheets are fed, the platform is raised to keep the top sheet in contact with the sheet feeding roller. The paper feeding device described in each patent document described below is an example of such a paper feeding device.

  Patent Document 1 below discloses an invention of a paper feeding device provided in an image forming apparatus. The paper feeding device includes a paper feeding cassette installed at a predetermined position of the image forming apparatus, a pair of side guides installed on a bottom plate of the paper feeding cassette so that the interval can be adjusted according to the paper width, and a paper feeding device. A bottom plate that is movable up and down with respect to the bottom plate of the paper cassette and on which paper is stacked between the side guides, and an air supply bellows that is attached in communication with an air hole formed at a predetermined height of the side guides. have. A paper feed roller for feeding out paper is provided at a predetermined position above the cassette installed at the predetermined position, and the height of the paper feed roller and the position of the air hole of the side guide substantially coincide. .

  When feeding paper, only the bottom plate rises with respect to the side guide whose position in the height direction is fixed, and the uppermost paper comes into contact with the paper feed roller from the lower side. In this state, the paper feed roller is driven. As a result, the sheets are sent out one by one from the top. When the number of sheets decreases, the bottom plate rises and the contact between the sheet and the paper feed roller is maintained. During this paper feeding, air is blown from the side guide air holes to the top of the paper from the side, and an air layer is embraced between the overlapped paper, peeling the mutual adhesion of the paper, thin paper with no waist Even coated paper with a smooth surface can be fed without causing double feeding.

  Patent Document 2 discloses an invention of a paper feeding device provided in an image forming apparatus. In this sheet feeding device, a pair of side regulating members that are installed at predetermined positions of the image forming apparatus and whose interval can be adjusted in accordance with the sheet width, and sheets can be stacked and freely raised and lowered between the side regulating members. And a fan attached in communication with the blower opening opened on the upper inner surface side of the side regulating member. A paper feed roller for feeding paper is provided at a predetermined position above the lift plate, and the height of the paper feed roller and the position of the air outlet of the side regulating member are substantially the same.

  When feeding paper, only the elevating plate is raised relative to the side regulating member whose height position is fixed, and the uppermost paper comes into contact with the paper feed roller from below. In this state, the paper feed roller By being driven, the sheets are sent out one by one from the top. When the number of sheets decreases, the elevating plate rises and the contact between the sheet and the sheet feeding roller is maintained. At the time of this paper feeding, by blowing air from the side to the uppermost sheet from the air blowing port of the side regulating member, and embracing the air layer between the overlapping sheets, It is supposed that double-feeding can be prevented by peeling the close contact between sheets.

  The paper feeders described in Patent Documents 1 and 2 described above include a base plate (bottom plate, elevating plate) on which paper is stacked and moved up and down, and a side fence (side guide, side portion) that regulates the side edges of the paper. The base plate on which the paper is loaded is supplied to the side fence that is separately attached to the main body of the apparatus and is independent of each other. Accordingly, the structure can be moved up and down without interference.

JP-A-2005-335585 JP 2008-87906 A

  As described above, in the paper feeding devices described in Patent Documents 1 and 2, the paper feed table for loading and lowering the paper and the side fence for regulating the side edge of the paper are separately attached to the device main body. The side fence is fixed at a predetermined position and does not move even if the paper supply platform loaded with paper moves up and down as the paper is supplied. It has become.

  However, in such a paper feed mechanism that lifts and lowers the paper feed tray on which sheets are stacked during supply or the like, the side fence for regulating the side edge of the paper does not interfere with the paper feed stand independently of the lift mechanism. Thus, it is not easy to configure so that the interval can be adjusted, and there is a problem that the structural complexity increases and the number of parts also increases.

  Therefore, from the viewpoint of solving such problems and promoting the simplification of the structure and the reduction of the number of parts, the side fence is integrally provided on the sheet feeding table that is loaded with paper and is moved up and down so that the interval can be adjusted. It is preferable that the paper feed table and the side fence be moved up and down together.

  However, when a side fence is provided on the paper feed tray on which the paper is stacked and the paper feed stand and the side fence are moved up and down together, the side fence is peeled off to prevent double feeding. The air blowing means attached to the fence (the bellows air hole and the fan air blowing port in Patent Documents 1 and 2) also rise together when the paper feed table rises. Since the height of the paper feed roller that feeds out the paper is constant, if the paper feed and the side fence are raised each time the paper is fed and the paper stack height decreases, the air against the top surface of the paper Since the position of the blowing means changes, it becomes impossible to always blow air on the side edge of the uppermost sheet necessary for preventing double feeding.

  Further, in a structure in which an air supply bellows is connected to an air hole formed in a side guide as in the paper feeding device described in Patent Document 2, the air is sent according to the width of the paper loaded on the bottom plate. By changing the distance between the side guides, the bellows expands and contracts to change the length. Therefore, for example, when the paper width is narrow, the bellows expands and the air pressure loss increases, so that the air volume is reduced and the peeling effect for preventing double feeding of paper cannot be obtained sufficiently.

  The present invention has been made in view of the above problems, and has a simple basic structure in which a side fence is provided on a sheet feeding table on which sheets are stacked, and the sheet feeding table and the side fence are moved up and down together. In this case, air can be stably blown to the side edge of the uppermost paper regardless of the vertical position of the paper feed tray and the size of the paper width. Even so, it aims to be able to send out one sheet at a time without double feeding.

The paper feeding device according to claim 1 is:
A sheet feed base that can be moved up and down and a pair of sides that are arranged on the upper surface of the sheet feed base so as to be parallel to the sheet feeding direction and guide a pair of side edges of the sheet. A sheet feeding device that includes a fence and feeds the uppermost sheet among the sheets stacked on the sheet feeding table by contacting the sheet feeding roller disposed at a predetermined position from below and driving the sheet feeding roller; ,
A sheet peeling fan that is provided on the outer surface of the fence so as to be movable up and down, and separates the uppermost sheet and the other sheet by air blowing;
Urging means for urging the sheet peeling fan upward;
The sheet peeling fan, which is disposed at a predetermined height above the sheet feed table and is urged by the urging means, is abutted as the sheet feed table is raised and contacts the sheet feed roller. Positioning means for positioning the sheet peeling fan at a predetermined height corresponding to the uppermost sheet;
It is characterized by having.

The paper feeding device according to claim 2 is the paper feeding device according to claim 1,
The distance between the pair of side fences can be adjusted by moving in the width direction of the sheet perpendicular to the center line with respect to a center line parallel to the sheet feeding direction of the sheet loaded on the sheet feeding table. Yes,
The positioning means is movable in the width direction so as to be set at a position corresponding to the position of the sheet peeling fan that moves together with the side fence.

The paper feeding device according to claim 3 is the paper feeding device according to claim 2,
Position detecting means for detecting the position of the pair of side fences;
And a position setting unit that moves the positioning unit in the width direction according to a detection result of the position detection unit, and sets the positioning unit to a position that can be opposed to the sheet peeling fan.

The paper feeding device according to claim 4 is the paper feeding device according to claim 3,
The paper is placed on the paper feed table at a lower position, and the distance between the side fences is set according to the width of the paper. Then, the uppermost paper among the paper is placed on the paper feed roller. When a paper feed start command is given to move the paper feed base to the upper position in order to contact from below and send out by driving the paper feed roller,
Before the paper feed base starts to rise, the position setting means moves the positioning means in the width direction based on a signal from the position detection means and sets the position to a position corresponding to the paper peeling fan. It is characterized by doing.

The paper feeding device according to claim 5 is the paper feeding device according to claim 4,
When the side fence and the positioning means come into contact with each other by raising the paper feed table, an impact absorbing structure that absorbs an impact applied to the positioning means by contact with the side fence is provided in the positioning means,
Furthermore, a safety switch for stopping the ascent of the paper feed table is provided.

The paper feeding device according to claim 6 is the paper feeding device according to claim 5,
In a state where no paper is supplied, the positioning means is set to a home position which is a position outside the pair of side fences having the largest interval by the position setting means.

The paper feeding device according to claim 7 is the paper feeding device according to claim 6,
The paper feed table of the paper feed device is connected to the main body that receives the paper fed from the paper feed device via a horizontal rotation axis that is orthogonal to the paper feed direction of the paper. Is mounted so as to be pivotable in the vertical direction between a use position in a substantially horizontal state and a storage position in which the paper feed base is substantially vertical,
When the positioning means is set at the home position, the paper feed table can be rotated from the use position to the storage position without interfering with the positioning means. .

  According to the paper feeding device of the first aspect, the paper peeling fan provided on the outer surface of the fence is applied to the positioning means located above the paper feeding base from below and contacts the paper feeding roller. It is positioned at a predetermined height corresponding to the uppermost sheet. As the paper is supplied, the number of papers placed on the paper feed table decreases, and even if the paper feed table rises correspondingly, the upward-biased paper peeling fan becomes the positioning means. There is no change in the state applied from below. Therefore, the sheet peeling fan can peel off the close contact between the sheets by always blowing air from the side to the uppermost sheet in contact with the sheet feeding roller, and embracing the air layer between the stacked sheets. For this reason, even if it is a thin paper without a waist or a coated paper with a smooth surface, it can be fed without causing double feeding.

  According to the paper feeding device described in claim 2, in the effect of the paper feeding device according to claim 1, the distance between the side fences can be adjusted in accordance with the width of the paper placed on the paper feeding table, Further, the position of the positioning means can be set in accordance with the position of the sheet peeling fan provided on the side fence.

  According to the paper feeding device described in claim 3, in the effect of the paper feeding device according to claim 2, when the distance between the side fences is set in accordance with the width of the paper placed on the paper feeding table, the side fence is provided. Is detected by the position detection means. If the positioning means is moved in the width direction by the position setting means in accordance with the detection result, the positioning means can be set to a position corresponding to the sheet peeling fan. .

  According to the paper feeding device described in claim 4, in the effect of the paper feeding device according to claim 3, in order to perform paper feeding, the paper feed base is set at the lower position, and the paper is placed thereon. If the paper feed start command is given after the side fence interval is set in accordance with the width of the paper, the following effects can be obtained. That is, before the paper feed base starts to rise, based on a signal from the position detection means indicating the position of the side fence, the position setting means moves the positioning means in the width direction to a position corresponding to the paper peeling fan. Set. Thereafter, the paper feed base is raised and moved to the upper position, so that the paper peeling fan strikes the positioning means from the lower side and is reliably set to the paper feed height, and at the same time, the uppermost paper in the paper is fed. Contact the paper roller from below. Therefore, the sheet can be reliably sent out without causing double feeding by blowing air to the uppermost sheet by the sheet peeling fan and driving the sheet feeding roller.

  According to the paper feeding device described in claim 5, when the paper feeding device according to claim 4 feeds paper, even if the paper feed stand rises due to some trouble, the paper peeling fan is moved from the lower side to the positioning means. When the side fence comes into contact with the positioning means without hitting, the impact applied to the positioning means by the contact with the side fence is absorbed by the shock absorbing structure provided in the positioning means. At the same time, the operation of the safety switch stops the ascent of the paper feed table, so that such trouble does not damage the apparatus.

  According to the paper feeding device described in claim 6, in the effect of the paper feeding device according to claim 5, the positioning means is set to have the largest interval by the position setting means in a state where no paper is supplied. Since it is set to the home position, which is the position outside the pair of side fences, the paper is placed on the paper feed tray, the paper placed on the paper feed stand is replaced with another size paper, There is an effect that various operations relating to paper feeding can be easily performed, such as adjusting the distance between the side fences according to the paper after the paper is placed on the paper feeding table.

  According to the paper feeding device described in claim 7, when the positioning means is set at the home position, the paper feeding base is moved from the substantially horizontal use position in the effect of the paper feeding device according to claim 6. Even if it is rotated around the rotation axis and lifted and moved to a substantially vertical storage position on the main body side, it will not interfere with the positioning means during the movement. The paper feed stand can be quickly and smoothly stored on the main body side.

FIG. 1 is a perspective view of a sheet feeding device according to an embodiment of the present invention as viewed obliquely rearward. The sheet feeding table is at a lower limit position, and the width of a loaded sheet is relatively It is a figure which shows the case where it is wide. FIG. 2 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely forward. The sheet feeding table is at the lower limit position, and the width of the loaded sheet is relatively It is a figure which shows the case where it is wide. FIG. 3 is a front view of the paper feeding device according to the embodiment of the present invention, and shows a case where the paper feeding table is at the lower limit position and the width of the loaded paper is relatively wide. FIG. 4 is a diagram schematically illustrating the structure of the side fence width adjusting mechanism and the like of the sheet feeding table in the sheet feeding device according to the embodiment of the present invention. FIG. 5 is a control block diagram of the sheet feeding device according to the embodiment of the present invention. FIG. 6 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely forward, and shows a case where the positioning block is at the outermost home position. FIG. 7 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely forward and shows a state immediately after the start of printing. FIG. 8 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely rearward, where the sheet feeding table is at the upper limit position and the loaded paper is wide. FIG. FIG. 9 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely forward. The sheet feeding table is at the upper limit position, and the width of the loaded sheet is relatively It is a figure which shows the case where it is wide. FIG. 10 is a front view of the paper feeding device according to the embodiment of the present invention, and shows a case where the paper feed table is at the upper limit position and the width of the loaded paper is relatively wide. FIG. 11 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely rearward. The sheet feeding table is at the lower limit position, and the width of the loaded sheet is relatively It is a figure which shows the case where it is narrow. FIG. 12 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely rearward. The sheet feeding table is at the upper limit position, and the width of the loaded sheet is relatively It is a figure which shows the case where it is narrow. FIG. 13 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely rearward, and shows a state where the positioning block is at the home position and the sheet feed stand is at the storage position. It is. FIG. 14 is a perspective view of the sheet feeding device according to the embodiment of the present invention as viewed obliquely forward, and shows a state where the positioning block is at the home position and the sheet feeding table is at the storage position. It is. FIG. 15 is a perspective view of a sheet feeding device, which is a modification of the embodiment of the present invention, as seen from a line of sight directed diagonally forward. FIG. 16 is a plan view of a sheet feeding device which is a modification of the embodiment of the present invention.

1. Structure of paper feeder (FIGS. 1-5, 13 and 14)
The structure of the paper feeding apparatus according to the embodiment will be described with reference to FIGS.
The sheet feeding device 1 is provided as a sheet feeding unit in an apparatus for processing a supplied sheet for a predetermined purpose, for example, an image forming apparatus such as a printing apparatus that forms an image on the supplied sheet.

  As shown in FIGS. 1 to 3, a main body 2 of the image forming apparatus is attached with a paper feeding device 1 for supplying paper to an image forming unit of the image forming apparatus. In this example, as a main body 2 of the image forming apparatus to which the paper feeding device 1 is attached, a part of a wall constituting a housing of the image forming apparatus is shown in FIGS.

  As shown in FIGS. 1 to 3, the sheet feeding device 1 includes a sheet feeding table 3 on which sheets P are stacked. The paper feed table 3 is provided on the main body 2 side between a lower limit position that is a paper replenishment position and an upper limit position that is a paper feed position for the image forming apparatus while maintaining a horizontal state with respect to the main body 2. It can be moved up and down freely by a known lifting mechanism (not shown) and a lifting motor M1 shown in FIGS.

  At a predetermined position above the upper limit position of the sheet feed table 3, first and second sheet feed rollers 4 and 5 are attached to the main body 2 side, and these rollers 4 and 5 are driven as shown in FIG. It is driven by a motor M3. That is, the first sheet feeding roller 4 feeds the sheet P on the ascending sheet feeding table 3 toward the main body 2, and the sheet P is fed to the second sheet feeding member 7 of the guide plate 6 attached to the main body 2. The paper roller 5 feeds them one by one into an image forming unit (not shown) on the main body 2 side.

  As shown in FIGS. 1 to 3, 13, and 14, shaft holes 8 are formed at the same position in the paper feed direction on the pair of left and right side edges parallel to the paper feed direction of the paper feed table 3. Each of the locking devices 9 is attached. Although not shown, a horizontal rotation shaft orthogonal to the paper feeding direction of the paper P is provided between the shaft hole 8 of each locking tool 9 and the above-described lifting mechanism on the main body 2 side. Has been. As a result, the sheet feed table 3 is used in a position where the sheet feed table 3 is substantially horizontal as shown in FIG. 1, and the sheet feed table 3 is substantially vertical as shown in FIGS. It is attached with respect to the main body 2 so that it can rotate in the up-down direction around the rotation shaft (or the shaft hole 8) between the storage position in the state.

  As shown in FIGS. 1 to 3 and 4, a pair of side fences 10 and 10 for guiding a pair of side edges of the paper P stacked on the paper feed table 3 are provided on the upper surface of the paper feed table 3. It has been. In particular, as shown in FIG. 4, the pair of side fences 10, 10 are arranged on the upper surface of the paper feed tray 3 so as to be parallel to the paper feed direction of the paper P. Although not shown, a guide groove is formed on the upper surface of the paper feed tray 3 along the width direction of the paper P perpendicular to the paper feed direction for each side fence 10. In addition, in each of the side fences 10, racks 11 and 11 that are arranged in parallel to the width direction of the paper P and move in parallel to the width direction of the paper P are provided in the paper feed table 3. Are arranged in parallel with each other at a predetermined interval. And the lower end of each side fence 10 and each rack 11 are connected via the said guide groove, and the two racks 11 engage with the common pinion 12 arrange | positioned in the center within the paper feed stand 3, and interlock | cooperate. It is supposed to be. The pinion 12 can freely rotate. When the user applies a force to the side fence 10 in the width direction of the paper P, the pair of side fences 10 and 10 are interlocked and parallel to the paper feeding direction. Since the sheet P moves in the width direction of the sheet P in a symmetric manner with respect to the center line C of the sheet P, a desired interval can be set based on the center line C. Therefore, the interval between the side fences 10 can be arbitrarily set in accordance with the width of the paper P placed on the paper feed tray 3. If the pinion 12 is attached to the drive shaft of the motor, the side fence 10 can be moved by driving the motor to adjust and set the interval.

  As shown in FIGS. 4 and 5, a potentiometer 13 as a position detecting means for detecting the position of the side fence 10 is provided in conjunction with the movement of the rack 11. Therefore, when the side fence 10 is manually moved as described above and the distance between the pair of side fences 10 and 10 is set to a desired value, the movement amount or the set position of the side fence 10 is the output of the potentiometer 13. It can be grasped as a signal.

  As shown in FIGS. 1 to 3 and 5, on the outer surface side of each side fence 10, among the sheets P placed on the sheet feed table 3, the uppermost sheet P and other sheets P Is separated by blowing air, a paper peeling fan F for blowing air to the side edge side of the paper P is provided. The attachment structure of the sheet peeling fan F to the side fence 10 will be described. First, on the outer surface side of the side fence 10, there is a space between the outer surface of the side fence 10 and the upper and lower sides parallel to the outer surface of the side fence 10. A slide shaft 14 having substantially the same height as the side fence 10 is integrally attached along the direction. A compression coil spring 15 as an urging means is inserted through the slide shaft 14, and a slide shaft is interposed between an upper end of the compression coil spring 15 and a fixed end at the upper end of the slide shaft 14. A slide body 16 inserted through 14 is interposed. The slide body 16 is provided with the sheet peeling fan F described above. Therefore, the slide body 16 and the sheet peeling fan F are always urged upward by the elastic force of the compression coil spring 15. A slit-like through-hole 17 is formed along the vertical direction at a position adjacent to the slide shaft 14 of the side fence 10, and the blower opening of the sheet peeling fan F matches the through-hole 17. Yes. Therefore, even if the sheet peeling fan F moves in the vertical direction with respect to the side fence 10, the air blown from the sheet peeling fan F can always reach the side edge of the sheet P inside the side fence 10. .

  As shown in FIGS. 1 to 3, a positioning block 20 that is a positioning means of the sheet peeling fan F is attached to the main body 2 of the image forming apparatus above the sheet feed table 3. The positioning block 20 is provided with a sheet peeling fan F from below as the sheet feed table 3 is raised, thereby bringing the sheet feed roller 4 and the uppermost sheet P into contact with each other at a predetermined sheet feed position. This is a member for positioning the sheet peeling fan F. Therefore, the positioning block 20 is movable in the width direction of the paper P so that it can be set at a position corresponding to the position of the paper peeling fan F that moves together with the side fence 10 as described below. It is a feature.

  As shown in FIG. 1 to FIG. 3 and FIG. 5, the main body 2 above the sheet feed table 3 has a moving motor M2 as a position setting means for moving the positioning block 20 and setting it to a desired position. It is attached. The moving motor M2 is attached to the main body 2 at a position corresponding to the center in the width direction of the paper P on the paper feed tray 3, and its drive shaft is a paper parallel to the paper feed direction in plan view. It is arranged at a position that coincides with the center line C of P and is directed rearward in a horizontal state.

  A pinion 21 is attached to the drive shaft of the moving motor M2, and a pair of racks 22 and 22 are engaged with the pinion 21. The pair of racks 22 and 22 are parallel to the width direction of the paper P, are horizontally disposed so as to be parallel to each other, and engage with the pinion 21 from above and below, respectively. Although not shown in detail, the pair of racks 22 and 22 are guided by guide means (not shown) provided in the main body 2 so as to move along the width direction of the paper P with respect to the main body 2.

  A guide bar 23 is integrally provided below the outer end of each rack 22 so as to be orthogonal to the rack, and the positioning block 20 has a predetermined movement range with respect to the guide bar 23. It is attached so that it can move up and down.

  Accordingly, when the moving motor M2 is driven, the pair of positioning blocks 20 and 20 are symmetric in a manner that is symmetric with respect to the center line C of the paper P parallel to the paper feeding direction, like the pair of side fences 10 and 10. It can move in the width direction of P, and can be set to a desired interval with the center line C of the paper P as a reference. In this example, as shown in FIG. 5, the control means 30 drives and controls the movement motor M2 in accordance with a signal from the potentiometer 13 indicating the position of the pair of side fences 10 and 10, and the set pair of sides is set. The distance between the pair of positioning blocks 20 and 20 is set in accordance with the distance between the fences 10 and 10.

  Although not shown, an impact absorbing structure (including an impact absorbing member) is provided between the guide rod 23 and the positioning block 20, and a safety switch is provided at the outer end of each rack 22 as shown in FIG. 25 is provided and is actuated by the positioning block 20 at the top of the movement range.

  The safety switch 25 is configured to switch the contact ON / OFF by the operation of an actuator provided with a return spring. It is always OFF, and when a force exceeding the spring force of the return spring is applied to the actuator and the actuator is activated, the signal is output. When the force applied to the actuator is lost, the actuator returns to the original position by the spring force of the return spring and is turned OFF.

  The spring force of the return spring of the safety switch 25 is set to be larger than the spring force of the compression coil spring 15 urging the sheet peeling fan F. Therefore, when feeding paper, the distance between the positioning blocks 20 is set to be regular with respect to the distance between the paper peeling fans F and F (or the distance between the side fences 10 and 10), and the paper feed table 3 is raised. When the sheet peeling fan F hits the positioning block 20 from below, not the return spring but the compression coil spring 15 is elastically deformed. Therefore, the actuator of the safety switch 25 does not operate, and the safety switch 25 is turned on. Is not output.

  However, when the position of the positioning block 20 is not correctly set with respect to the position of the side fence 10 and the paper feed table 3 is raised during paper feeding and the side fence 10 hits the positioning block 20, If the sheet feed table 3 is lifted as it is, the positioning block 20 is moved upward and the safety switch 25 is operated. Therefore, as shown in FIG. 5, the lifting motor is in response to a command from the control means 30 that receives the ON signal from the safety switch 25. By stopping M1, it is possible to prevent the parts of the apparatus such as the positioning block 20 and the rack 22 from being damaged.

  FIG. 5 shows a main part of the control system for the sheet feeding device 1 and the image forming apparatus in the present embodiment. As shown in FIG. 5, the sheet feeding device 1 includes a control unit 30 for integrally driving and controlling the components of the sheet feeding device 1 described above and the image forming apparatus linked to the sheet feeding device 1. ing.

  The control means 30 mainly receives a signal from the potentiometer 13 indicating the position of the side fence 10, a command signal from the control panel 31 operated by the user, and a signal from the safety switch 25. The control means 30 processes these signals, a lifting motor M1 that lifts and lowers the paper feed table 3, a moving motor M2 that moves the positioning block 20, a drive motor M3 that drives the paper feed rollers 4 and 5, and paper peeling. It is designed to drive a fan. Details of the driving will be described in the next section.

2. Action of the sheet feeding device 1 (FIGS. 1 to 14)
A case where a paper feed start command is given to the paper feeding device 1 in order to start image formation by the image forming apparatus will be described.
1 to 3 show a state in which a relatively wide paper P is installed on the paper feed tray 3 at the lower limit position, and the paper P is sent out. First, the operation from the paper P replenishment operation to the paper feeding state shown in this figure will be described.

  As shown in FIG. 6, in a state where the paper P is not supplied, the paper feed tray 3 is set to the lower limit position, and the pair of positioning blocks 20 and 20 are set to have the largest interval by the moving motor M2 and the rack 22. The home position is set. This home position is a position outside the pair of side fences 10, 10. As described above, in the present embodiment, the positioning block 20 is automatically retracted to the home position outside the side fence 10 at the time of non-printing or when the paper P is not present on the paper feed tray 3 to feed paper. The space above the table 3 is opened. Accordingly, from the state in which the paper P does not exist on the paper feed tray 3, a new paper P is placed on the paper feed tray 3, or the paper P placed on the paper feed tray 3 is changed to a paper P of another size. When all of the previous paper P is once removed for replacement, the work of placing the paper P to be fed on the paper feed tray 3 and the interval between the side fences 10 and 10 are thereafter set to the paper P. There is an effect that it is easy to perform various operations related to paper feeding, such as an operation for adjusting them together.

  In order to automatically retract the positioning block 20 to the home position outside the side fence 10 when the sheet P does not exist on the sheet feed table 3 as described above, the sheet P is loaded on the sheet feed table 3. A presence / absence detection sensor for detecting presence / absence is provided, and when this sensor detects that there is no paper P, the control means 30 shown in FIG. 5 controls the moving motor M2 to place the positioning block 20 at the outermost home position. Should be set.

  As shown in FIG. 7, a plurality of sheets P are placed on the sheet feed table 3 at the lower limit position (lower sheet replenishment position), and a pair of side fences 10 are matched to the width of the sheet P. , 10 is set, and then a print start button on the control panel 31 shown in FIG.

  As shown in FIG. 5, a signal from a potentiometer 13 that detects the interval between the side fences 10 enters the control means 30, and the control means 30 controls the moving motor M <b> 2 using this signal, and shows the pair of positioning blocks 20. 6 is moved inward from the home position shown in FIG. 6, and the interval is set in accordance with the interval of the side fence 10. FIG. 7 shows a state immediately after the positioning block 20 and the rack 22 have moved to an appropriate position in accordance with the paper width of the paper P as described above. At this stage, since the sheet feed table 3 is still below, the sheet peeling fan F and the positioning block 20 are not in contact with each other as shown in FIG.

  Next, as shown in FIG. 5, the control means 30 drives the elevating motor M1 to raise the paper feed table 3 toward the upper paper feed position.

  As shown in FIGS. 1 to 3, the paper feed tray 3 is raised and set to the paper feed position, and the uppermost paper P among the papers P stacked on the paper feed tray 3 is placed on the paper feed roller 4. When in contact, the sheet peeling fan F hits the positioning block 20 from below and is set to a height corresponding to the sheet supply position where the sheet P and the sheet feed roller 4 are in contact.

  Then, the control unit 30 drives the drive motor M3 of the paper feed rollers 4 and 5 in synchronization with the image formation in the image forming unit, and the paper feed rollers 4 and 5 feed the paper P to the image forming apparatus. At this time, the control means 30 drives the paper peeling fan F, and the paper peeling fan F blows air between the uppermost paper P at the paper feeding position and the other paper P. The stacked sheets P are reliably separated, and only the uppermost sheet P is sent to the image forming apparatus without causing double feeding.

  Thereafter, when the number of sheets P decreases due to sheet feeding, the sheet feeding table 3 is raised by the amount corresponding to the decrease in the height of the sheet P placed on the sheet feeding table 3, and the uppermost sheet P is always fed. The state in contact with the paper roller 4 is maintained, and at the same time, the paper peeling fan F is always positioned at the paper feeding position and air is blown to the side edge of the uppermost paper P, so double feeding of the paper P is always prevented reliably. Is done.

  8 to 10 show a state in which the paper feed base 3 gradually rises from the state shown in FIGS. 1 to 3 and the paper feed proceeds to reduce the number of sheets P and the paper feed base 3 approaches the upper limit position. Is shown. As shown in these drawings, when the paper feed tray 3 is raised as the paper feed proceeds, the paper peeling fan F is positioned at a predetermined position even if the paper peeling fan F moves upward as the paper feed stand 3 is lifted. The compression coil spring 15 is degenerated as it comes into contact with the positioning block 20 and is stopped. In other words, the sheet peeling fan F is maintained in the position where it is positioned at the sheet supply position, and it is possible to always continue blowing air for sheet peeling to the side edge side of the uppermost sheet P.

  11 and 12 show a case where the paper width of the paper P is relatively narrow compared to FIGS. In FIG. 11, the paper feed tray 3 is at the lower limit position, and a large number of sheets P are stacked. In FIG. 12, the paper feed tray 3 is at the upper limit position, and the paper feed proceeds and the number of sheets P decreases. In this way, when the paper P having a relatively narrow paper width is stacked on the paper feed tray 3, the side fences 10 and 10 are adjusted in accordance with the paper width of the narrow paper P as shown in FIG. When the interval is set, a signal from the potentiometer 13 that detects the interval enters the control means 30, and the control means 30 controls the moving motor M2 using this signal, and the interval between the pair of positioning blocks 20, 20 is set to the side. Since it is automatically set in accordance with the distance between the fences 10 and 10, the function of setting the paper feeding position by placing the paper peeling fan F on the positioning block 20 regardless of whether the paper P is wide or not is provided. Certainly achieved.

  As described above, in this embodiment, the interval between the positioning blocks 20 and 20 is automatically set corresponding to the interval between the side fences 10 and 10 set in accordance with the width of the paper P. For the reason, a situation may occur in which the position of the positioning block 20 and the position of the side fence 10 are not correctly set in correspondence. In such a case, the sheet feeding table 3 rises during paper feeding and the side fence 10 hits the positioning block 20. However, when the paper feeding table 3 rises as it is, the positioning block 20 moves upward and the safety switch As shown in FIG. 5, the lifting motor M1 is stopped by a command from the control means 30 that has received the ON signal from the safety switch 25 as shown in FIG. 5, and each part of the apparatus such as the positioning block 20 and the rack 22 is damaged. Can be prevented beforehand.

  13 and 14 show a state in which the sheet feed table 3 is stored. When the paper feed table 3 is not used, since the positioning block 20 is set to the outermost home position, the paper feed table 3 on which the paper P is not placed is turned as shown by the arrow. By rotating upward about the shaft (or the shaft hole 8), it is possible to move from the horizontal use position to the vertical storage position without interfering with the positioning block 20, and store it on the main body 2 side.

  In the embodiment described above, the sheet peeling fan F is attached to a specific position of the side fence 10, so that the sheet peeling fan F blows air to the side edge of the sheet P when the sheet size is different. The spray position may be different. For the purpose of peeling the paper P at the time of paper feeding, if it is preferable to send air as close to the center of the paper P as possible, all of the various types of paper P expected to be used are as close to the center of the side edges as possible. It is preferable to set the attachment position of the sheet peeling fan F with respect to the side fence 10 so that air is sent to the side fence 10. Alternatively, when the paper peeling fan F is attached to a specific position of the side fence 10 in accordance with the frequently used paper P size, when using other size paper P, the paper peeling fan A detachable air duct may be provided at the air blowing port of F so that air can be sent to the center position of the side edge of the paper P of other sizes.

3. Effects of Paper Feeder As described above, according to the paper feed device 1 of this embodiment, the sheet peeling fan F is attached to the side fence 10 whose width is set according to the size of the paper P. Even if the paper width of the paper P fluctuates, the paper P can be reliably peeled off by blowing air directly onto the side edge of the paper P with a constant air volume.

  The sheet peeling fan F is attached to the side fence 10 so as to be movable up and down, and is pushed up to the upper limit position of the movable range by the compression coil spring 15. Even if the sheet is moved, the sheet peeling fan F is pressed against the positioning block 20 on the main body 2 side and is always set to a sheet feeding position having a constant height, so that the number of sheets P on the sheet feeding table 3 changes. Also, it is possible to blow air for peeling on the side edge of the paper P that is always at the paper feed position.

  Therefore, according to the paper feeding device 1 of the embodiment, even if the paper size changes and the vertical positions of the paper feed tray 3 and the side fence 10 fluctuate, the side edge of the uppermost paper P is always stable. The air volume can be blown, and the thin paper with no waist or smooth coated paper can be peeled off to prevent double feeding.

  Further, unlike the complicated and bulky structure in which a duct is routed from a fan installed in a space to guide the air to the side edge of the paper P on the paper feed table 3, the paper feed device 1 of the embodiment is very compact. Therefore, as described above, it is possible to adopt a configuration in which the sheet feed table 3 is turned to the main body 2 around the axis and folded.

4). Regarding a sheet feeding device 1 ′ which is a modification of the embodiment (FIGS. 15 and 16)
A sheet feeding device 1 ′ that is a modification of the above-described embodiment will be described with reference to FIGS. 15 and 16. In a modified example of the sheet feeding device 1 ′, the same reference numerals as those in the embodiment are assigned to the substantially same parts as those in the sheet feeding device 1 in the embodiment, and the description of the embodiment is cited. Further, in the following description, with respect to a portion modified from the embodiment, a conventional technique corresponding to the portion and its problems, a configuration of the portion modified from the embodiment to solve the problem, an operation effect, and the like will be described.

  As described in the “Background Art” section of the embodiment and shown as Patent Documents 1 and 2, conventionally, as a structure for preventing multi-feeding of thin paper having a low back and coated paper having a smooth surface, a paper feed table There has been known an apparatus that blows air from the side surface of the paper loaded on the paper and encloses the air between the papers to peel off the adhesion of the paper and feed the paper one by one from the top surface of the paper. In these devices, in order to satisfy the target function, a method of increasing the air volume using a fan larger than necessary has been selected.

Regarding the specifications of the fan, for example, according to paragraph 0049 of “Detailed Description of the Invention” in Patent Document 2, the power consumption of the blowing means is 6 W, and the air volume is 0.5 m ³ / min. In addition, in the characteristic diagram showing the effect of the fan by the air blowing means of “FIG. 7” in the same document, in the case of thin paper, it is described that the air volume is about half of that of thick paper. The air volume should be about 0.25 m ³ / min.

  However, the use of such a large fan has the effect of peeling the paper that is adhered by blowing air, but it causes problems such as an increase in the size of the paper feeding device, noise, increased power consumption, and increased costs. End up.

  In the paper feeding device 1 ′, which is an improvement of the embodiment, in consideration of the above-described problems, even with a small amount of airflow (about half of the conventional one), thin paper with smoothness and coated paper with a smooth surface can be reliably obtained for each sheet. The purpose is to propose an inexpensive, small, and quiet paper feeding device that can feed paper.

  As shown in FIGS. 15 and 16, in this paper feeding device 1 ′, the side fences 10 ′ and 10 ′ on both sides that regulate the width direction of the paper P are used to maximize the effect even with a small air volume. The position of the rear end is extended to the rear or the rear end surface of the sheet P, and the side fences 10 ′ and 10 ′ are lengthened. As a result, when air is blown onto the side surface of the paper P by the paper peeling fan F in order to peel the paper, the air is prevented from leaking from the side surface of the paper P, and the side fences 10 ', 10' on both sides and the paper By confining air with the side surface of P, it becomes easy to spread air over the entire surface of the paper P. As a result, it has become possible to prevent double feeding of a thin paper having a low waist or a coated paper having a smooth surface, which is particularly likely to cause close contact between the sheets.

  As a result, the sheet peeling fan F can be made into a small type fan, which solves the above-mentioned conventional problems, downsizing the sheet feeding device, reducing noise, reducing power consumption, reducing costs, etc. The benefits of Note that the above method is effective even when the sheet peeling fan F installed on the side surface of the sheet P has one layout on one side or two on both sides. Conventionally, since the side fence was not particularly conscious of the size of the side fence, the side fence was short enough not to reach the rear end of the paper P, so that the paper was fed in a state where air leaked from a portion without the fence. Therefore, it is considered that a fan with a large air volume had to be used in order to satisfy the peeling function by air.

DESCRIPTION OF SYMBOLS 1 ... Paper feed apparatus 2 ... Main body 3 ... Paper feed stand 4 ... 1st paper feed roller 10 ... Side fence 13 ... Potentiometer as position detection means 15 ... Compression coil spring as biasing means 17 ... Rotation of paper feed stand Through hole 20 for supporting the shaft 20 ... Positioning block as positioning means 25 ... Safety switch 30 ... Control means M2 ... Moving motor as position setting means for positioning block F ... Paper peeling fan P ... Paper

Claims (7)

A sheet feed base that can be moved up and down and a pair of sides that are arranged on the upper surface of the sheet feed base so as to be parallel to the sheet feeding direction and guide a pair of side edges of the sheet. A sheet feeding device that includes a fence and feeds the uppermost sheet among the sheets stacked on the sheet feeding table by contacting the sheet feeding roller disposed at a predetermined position from below and driving the sheet feeding roller; ,
A sheet peeling fan that is provided on the outer surface of the fence so as to be movable up and down, and separates the uppermost sheet and the other sheet by air blowing;
Urging means for urging the sheet peeling fan upward;
The sheet peeling fan, which is disposed at a predetermined height above the sheet feed table and is urged by the urging means, is abutted as the sheet feed table is raised and contacts the sheet feed roller. Positioning means for positioning the sheet peeling fan at a predetermined height corresponding to the uppermost sheet;
A sheet feeding device comprising: The distance between the pair of side fences can be adjusted by moving in the width direction of the sheet perpendicular to the center line with respect to a center line parallel to the sheet feeding direction of the sheet loaded on the sheet feeding table. Yes,
2. The sheet feeding device according to claim 1, wherein the positioning unit is movable in the width direction so as to be set at a position corresponding to a position of the sheet peeling fan that moves together with the side fence. Position detecting means for detecting the position of the pair of side fences;
A position setting unit configured to move the positioning unit in the width direction according to a detection result of the position detection unit and set the positioning unit to a position that can be opposed to the sheet peeling fan. Item 3. The paper feeding device according to Item 2. The paper is placed on the paper feed table at a lower position, and the distance between the side fences is set according to the width of the paper. Then, the uppermost paper among the paper is placed on the paper feed roller. When a paper feed start command is given to move the paper feed base to the upper position in order to contact from below and send out by driving the paper feed roller,
Before the paper feed base starts to rise, the position setting means moves the positioning means in the width direction based on a signal from the position detection means and sets the position to a position corresponding to the paper peeling fan. The sheet feeding device according to claim 3, wherein When the side fence and the positioning means come into contact with each other by raising the paper feed table, an impact absorbing structure that absorbs an impact applied to the positioning means by contact with the side fence is provided in the positioning means,
5. The sheet feeding device according to claim 4, further comprising a safety switch for stopping the ascent of the sheet feeding table. 2. The sheet feeding apparatus according to claim 1, wherein when the sheet is not supplied, the positioning unit is set by the position setting unit to a home position which is a position outside the pair of side fences set with the largest interval. 5. The sheet feeding device according to 5. The paper feed table of the paper feed device is connected to the main body that receives the paper fed from the paper feed device via a horizontal rotation axis that is orthogonal to the paper feed direction of the paper. Is mounted so as to be pivotable in the vertical direction between a use position in a substantially horizontal state and a storage position in which the paper feed base is substantially vertical,
When the positioning means is set at the home position, the paper feed table can be rotated from the use position to the storage position without interfering with the positioning means. The sheet feeding device according to claim 6.

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