JP4340456B2 - Output storage device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a paper discharge storage apparatus that stores paper discharged from an image forming apparatus such as a stencil printing apparatus or a copying apparatus, and more particularly to a large-capacity paper discharge storage apparatus having a paper discharge tray that can move up and down.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, image forming apparatuses such as a printing apparatus and a copying apparatus that pass a sheet through a sheet conveying path from a sheet feeding unit to a sheet discharging unit and perform image formation on the sheet in the conveying process are known. When forming an image using such an image forming apparatus, the image is formed for the purpose of continuously forming an image from the same document or reducing the number of times of replenishment of frequently used size paper. For example, Japanese Patent Application Laid-Open No. 8-259008 discloses a large-capacity paper feeding device that can be connected to the paper feeding unit of the device and can stack about 3000 sheets.
[0003]
However, in a normal image forming apparatus, it is not possible to stack a large amount of sheets of 1000 sheets or more on a paper discharge tray provided in the paper discharge unit. Therefore, when printing more than 1000 sheets using a large-capacity paper feeder, it is necessary to interrupt the printing operation halfway and remove the printed paper from the paper discharge tray, and the workability is very poor. It was.
[0004]
Therefore, in order to solve the above-described problems, for example, “Patent Document 1” describes a large-capacity discharge storage device that can be connected to an image forming apparatus and can stack 1000 sheets or more. Yes.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-48596 (page 5-8, FIG. 1)
[0006]
[Problems to be solved by the invention]
The above-described large-capacity paper discharge storage device has a paper discharge tray that can move up and down and a cover member that is rotatably provided on the main body of the storage device so as to cover the paper discharge tray from above, and is suspended from the cover member. A pair of side fences for guiding the width direction of the paper discharge in a lowered state and one end fence for receiving the front end of the paper discharge are provided. The paper discharge tray is configured to automatically lower when the paper discharged from the image forming apparatus reaches a predetermined height, and the height from the paper discharge port of the image forming apparatus until the paper is stacked. A large amount of paper can be continuously stored while maintaining a substantially constant state. As a result, the behavior of the paper at the time of dropping can be averaged, and the phase alignment can be improved.
[0007]
However, in the above-described technique, the side fence is provided so as to be suspended from the cover member disposed above the discharge tray. When the sheet is lowered, the sheet located below the sheet discharge tray is not supported by the side fence, and there is a problem in that the sheet discharge alignment deteriorates due to the influence of vibration or the like when the sheet discharge tray is lowered.
[0008]
The present invention solves the above-described problems and provides a large-capacity paper discharge device including a side fence that can reliably align paper even when a large amount of paper is stacked on a paper discharge tray. With the goal.
[0009]
[Means for Solving the Problems]
According to the first aspect of the present invention, an apparatus main body that can be attached to and detached from the paper discharge section of the image forming apparatus, and a sheet that can be discharged from the paper discharge section can be stacked and supported by the apparatus main body so as to be movable up and down. A left and right 1 movably provided in the width direction for aligning the width direction of the paper discharged onto the paper discharge tray. With a pair of side fences One end fence for receiving the leading edge of the discharged paper; The side fences are respectively supported by the apparatus main body and have a length equal to or greater than the height from the upper limit position to the lower limit position of the discharge tray. Aligning and moving each side fence in the width direction and having side fence support members respectively supporting the upper and lower parts of the side fences on the upper and lower parts of the apparatus main body and the side A side fence interlocking mechanism that moves the side fences by interlocking fence support members with each other, and each side fence supports the guide unit that guides the paper discharged from the paper discharge unit and the guide unit, and Side edge support portions that support both side edges of the paper guided by the guide portions, respectively. With Each of the guide portions includes a fixed portion supported by the side edge support member and a movable portion rotatably supported by the fixed portion. Each end fence can be opened outward, and the end fence can move from the position corresponding to the connecting portion between the fixed portion and the movable portion toward the downstream side in the paper discharge direction. It is characterized by being.
[0012]
The invention according to claim 2 is the paper discharge storage apparatus according to claim 1, further comprising: Each of the guide portions is movable in the vertical direction. It is characterized by that.
[0013]
The invention according to claim 3 is the paper discharge storage apparatus according to claim 1 or 2, A sheet stacking support member close to the sheet stacking surface of the sheet discharge tray occupying the upper limit position is provided on the downstream side in the sheet transport direction of each guide unit. It is characterized by that.
[0014]
The invention according to claim 4 is the claim of claim Any one of 1 to 3 In the paper discharge storage device described above, An upstream paper side edge support member for supporting the both sides on the upstream side in the transport direction of the paper discharged onto the paper discharge tray upward; It is characterized by that.
[0015]
The invention according to claim 5 is the claim 4 In the paper discharge storage device described above, The upstream sheet side edge support member is disposed inside each side fence, and can move following the movement of each side fence and the vertical movement of the discharge tray. It is characterized by that.
[0016]
The invention according to claim 6 is the claim 1 Or the discharge storage device according to any one of 5 to 5; A downstream paper side edge support member for supporting the both sides on the downstream side in the transport direction of the paper discharged onto the paper discharge tray upward; It is characterized by that.
[0017]
The invention according to claim 7 is the claim 6 In the paper discharge storage device described above, The downstream side edge support members are disposed on both sides on the downstream side in the paper transport direction on the paper discharge tray. It is characterized by that.
[0018]
The invention according to claim 8 is the claim Any one of 1-7 In the paper discharge storage device described above, The paper discharge unit has a jump plate that gives a form in which both side edges are directed upward with respect to the paper to be discharged, and has a paper entry guide member that guides the paper discharged through the jump plate. It is characterized by that.
[0019]
The invention according to claim 9 is the claim 8 In the paper discharge storage device described above, The paper entry guide member is guided by an inward guide portion that guides the leading end portion of the discharged paper inward, an upward guide portion that guides the leading end portion upward, and the upward guide portion. And a restricting part that restricts the upward movement of the paper. It is characterized by that.
[0023]
【Example】
FIG. 1 and FIG. 2 show a paper discharge storage apparatus employing one embodiment of the present invention. In FIG. 1, a paper discharge storage device 1 is connected to a stencil printing device 2 as an image forming device. First, the stencil printing apparatus 2 to which the paper discharge storage apparatus 1 is connected will be briefly described.
[0024]
The stencil printing apparatus 2 includes a printing unit 4 at a substantially central portion of the housing 3, a paper feeding unit 5 on the right side, and a paper discharge unit 6 on the left side. The printing unit 4 includes a plate cylinder 7 that rotates by winding a master that has been made, and a pressure cylinder 8 that rotates in synchronization with the plate cylinder 7 and presses the paper P against the plate cylinder 7. . The paper feeding unit 5 includes a paper feeding tray 9 on which the paper P is stacked, and a paper feeding mechanism unit (not shown) that feeds paper from the paper feeding tray 9 toward the printing unit 4.
[0025]
The paper discharge unit 6 includes a paper discharge conveyance member 10 that discharges the paper P printed by the printing unit 4 to the outside of the apparatus. The paper discharge conveyance member 10 is provided with jump plates 11 on both sides on the downstream side in the paper conveyance direction, which gives the paper P discharged from the paper discharge conveyance member 10 such that both side edges are directed upward. It has been.
[0026]
Further, inside the housing 3, a plate making unit (not shown) for making the master and a plate discharging unit (not shown) for peeling the used master from the outer peripheral surface of the plate cylinder 7 are provided. With this configuration, the stencil printing apparatus 2 prints the paper P fed from the paper supply unit 5 by the printing unit 4, and discharges the printed paper P to the outside of the housing 3 by the paper discharge unit 6.
[0027]
Next, the paper discharge storage device 1 that is a feature of the present invention will be described. The paper discharge storage device 1 includes a device main body 12, a paper discharge tray 13, a pair of left and right side fences 14, and one end fence 15.
[0028]
The paper discharge tray 13 is supported by a vertical movement mechanism (not shown) provided inside the apparatus main body 12, and is driven by a drive motor 46 as a tray vertical movement means attached to the side of the apparatus main body 12 in FIG. It is moved up and down between an upper limit position indicated by a solid line and a lower limit position indicated by a two-dot chain line. As a vertical movement mechanism (not shown), for example, a mechanism similar to that described in Japanese Patent Application Laid-Open No. 2002-226122 is used, and the vertical movement mechanism defines the upper surface position of the paper P stacked on the paper discharge tray 13. An upper surface detection sensor 16 for detecting is provided, and when the upper surface detection sensor 16 detects the paper P, the paper discharge tray 13 is lowered by a predetermined amount. Further, on the upstream side in the paper transport direction of the paper discharge tray 13, four escape holes 13a (see FIG. 11) for allowing movement of a side fence 14 described later are provided in the paper width direction. The paper discharge tray 13 is disposed so that about half of the length in the paper conveyance direction protrudes outward from the apparatus main body 12.
[0029]
Each side fence 14 has a side edge support portion 17 and a guide portion 18. Four side edge support portions 17 formed by bending the plate material into a U-shaped cross section are provided inside the apparatus main body 12 so as to extend in the moving direction of the discharge tray 13, and the upper end thereof is the discharge tray. 13 is positioned above the upper limit position of 13 and corresponding to a paper discharge port (not shown) of the stencil printing apparatus 2 so that the lower end is positioned below the lower limit position of the discharge tray 13. The escape holes 13 a formed in the tray 13 are respectively penetrated. Each side edge support part 17 is formed so that the back surface part 17a (refer FIG. 3) facing the opening side becomes a uniform plane.
[0030]
As shown in FIG. 3, each side edge support portion 17 has an upper end portion attached to a sliding member 19. In addition, since the lower end part of each side edge support member 17 is also attached to the sliding member 19 similarly to the upper end part, it differs from the configuration described below only in terms of the vertical object. Now, only the upper end side will be described, and description and illustration of the lower end side will be omitted.
[0031]
The sliding member 19 is a U-shaped cross-sectional plate disposed so that the opening side is positioned below, and two sliding members 19 are arranged on the upper and lower sides in the width direction of the sheet conveying path in a central distribution. On the outside of the wall portion located on the outside of each sliding member 19, the side edge support portion 17 faces the upstream end portion in the paper conveyance direction and the downstream end portion in the paper conveyance direction, and the back surface portion 17a faces inward. And are fixed by a method such as screwing or welding. Each side edge support part 17 attached to the same sliding member 19 is arrange | positioned so that each back surface part 17a may be located on the same plane.
[0032]
Each sliding member 19 has a part of the outer wall portion protruding outward, and the two outer wall portions including the protruding portion and the two inner wall portions are on the same straight line. Are formed, and a slide bearing 19a is attached to each hole. Each sliding member 19 has each sliding bearing 19a fitted to two side fence support shafts 20 whose both ends are fixed to each side plate of the apparatus main body 12, and the sheet width direction perpendicular to the sheet conveying direction. It is configured to be freely movable.
[0033]
On the upper surface of each sliding member 19, rack members 21 having tooth portions at positions facing each other are respectively arranged. The mounting end of the rack member 21 is bent in a substantially Z shape, and is supported in a cantilever state by fixing the mounting end to the upper surface of the sliding member 19.
[0034]
A pinion gear 22 that meshes with each tooth portion is disposed at a portion where each tooth portion of each rack portion 21 faces. As shown in FIG. 4, the pinion gear 22 is rotatably supported by a base member 23 having both ends fixed to each side plate of the apparatus main body 12, and a timing pulley 24 is integrally provided on the upper portion thereof. Yes.
[0035]
The base member 23 has a width narrower than the interval between the vertical wall portions 21a rising from the attachment end of each rack member 21, and each sliding member 19 moves inward to each side edge. When the support portion 17 occupies a position corresponding to the minimum width of paper that can be printed by the stencil printing apparatus 2, the vertical wall portion 21a has a substantially central portion that does not interfere with each vertical wall portion 21a. Also, flanges 23a protruding outward in the sheet conveying direction are formed on the upstream side and the downstream side in the sheet conveying direction, respectively. Support shafts 25 are respectively fixed on the flanges 23a, and disk-shaped pressing members 26 are rotatably supported on the support shafts 25, respectively. Each pressing member 26 is disposed at a height at which the distance from the flange portion 23 a is slightly wider than the thickness of the tooth portion of the rack member 21. Further, a cover 27 that covers each rack member 21 and the pinion gear 22 is disposed above the base member 23.
[0036]
With the above-described configuration, when the pinion gear 22 rotates, the rack portions 21 meshed with the pinion gear 22 move in a direction toward or away from each other. Since each pressing member 26 presses the upper surface of each rack member 21 during the movement, the movement of each rack member 21 in the direction away from the pinion gear 22 and the direction away from the pinion gear 22 is restricted, and is in a cantilever state. Can also move well. As each rack member 21 moves, each sliding member 19 configured integrally therewith moves, and each side edge support portion 17 fixed to each sliding member 19 moves in the paper width direction. The above-described sliding member 19, side fence support shaft 20, rack member 21, pinion gear 22, base member 23, support shaft 25, pressing member 26, and cover 27 constitute a side fence moving mechanism portion 28 as a side fence support member. ing.
[0037]
Next, a description will be given of a side fence interlocking mechanism for interlocking the side fence moving mechanism portions 28 provided at the upper and lower portions to move the side edge support portions 17 in a parallel state.
[0038]
As shown in FIG. 5, timing belts 29 are respectively hung on the timing pulleys 24 of the upper and lower side fence moving mechanism portions 28. In addition, an upper pulley 31 and a lower pulley 32 around which each timing belt 29 is stretched are disposed outside the one side plate 30 of the apparatus main body 12. The pulleys 31 and 32 are integrally connected by a drive shaft 33, and the pulleys 31 and 32 and the drive shaft 33 are connected to an upper bracket 34 and a lower bracket attached to one side plate 30, as shown in FIG. 35 are rotatably supported by each. An intermediate pulley 44 that rotates integrally with each of the pulleys 31 and 32 and the drive shaft 33 is disposed below the upper pulley 31. A tension roller 36 for applying tension to each of the spanned timing belts 29 is attached to each of the brackets 34 and 35 so as to be rotatable and position adjustable.
[0039]
A handle bracket 37 shown in FIG. 7 is disposed in the vicinity of the upper bracket 34, and an adjustment handle 38 for adjusting the position of the side fence 14 is rotatably supported on the handle bracket 37. The adjustment handle 38 includes a handle portion 39, a support shaft 40, a drive pulley 41, a collar 42, a fixing screw 43, and the like, and the support shaft 40 and the drive pulley 41 are rotated by manually rotating the handle portion 39. . The driving pulley 41 has the other end of a timing belt 45 with one end hung on the intermediate pulley 44, and a tension roller (not shown) for applying tension to the timing belt 45 is rotatable on the upper bracket 34. It is attached so that the position can be adjusted.
[0040]
With the configuration described above, the drive pulley 41 is rotated by manually rotating the adjustment handle 38, and this rotation causes the timing belt 45, the intermediate pulley 44, the pulleys 31 and 32, the drive shaft 33, the timing belt 29, and the timing. The rack member 21 and the sliding member 19 are moved by being transmitted to the pinion gear 22 via the pulley 24, and the pinion gear 22 is rotated, and the side edge support portions 17 integrated with the sliding member 19 are moved. Then, by turning the fixing screw 43 with each side edge support portion 17 positioned at a predetermined position, the handle portion 39 is fixed and each side edge support portion 17 is fixed.
[0041]
As shown in FIG. 8, the guide portion 18 has two long holes 18 c in the upper portion on the upstream side in the paper conveyance direction, and two side edge support portions 17 attached to the sliding members 19. Are attached to a tap 17b provided in the vicinity of the upper end of the paper plate so as to be bilaterally symmetric and vertically movable by screws (not shown). Even if it is different, it is configured to be compatible.
[0042]
Each guide portion 18 is divided into a fixed portion 18 a supported by each side edge support portion 17 and a movable portion 18 b supported by the fixed portion 18 a, and each fixed portion 18 a is connected to each movable portion by a hinge 47. 18b is rotatably supported. In addition, a magnet catch (not shown) is provided at a connecting portion between each fixed portion 18a and each movable portion 18b, and each movable portion 18b is flush with each fixed portion 18a, which is indicated by a solid line in FIG. The guide position for guiding both side edges of the paper P to be printed and the paper from the top of the paper discharge tray 13 opened by about 90 degrees from the guide position to the outside of the paper discharge tray 13 as indicated by a two-dot chain line in FIG. It selectively occupies open positions that facilitate the removal of P, and is fixed by magnetic force at each position.
[0043]
Under each fixing portion 18a, a sheet side edge correction member 48 is provided, which gives the discharged sheet P a form in which both side edges are directed upward. The paper side edge correction member 48 made of a substantially triangular plate member is supported on one side so that one corner is positioned downstream in the paper transport direction. 60 And is selectively positioned by a latch member (not shown) at a position where the surface thereof is flush with the fixing portion 18a and a plurality of predetermined positions located inside the paper discharge tray 13.
[0044]
A paper entry guide member 54 shown in FIG. 10 is provided at the upstream end of the inner surface of each fixing portion 18a in the paper conveyance direction. A paper entry guide member 54 made of a thin resin plate or a thin metal plate is fixed to the inner surface of the fixed portion 18a by adhesion, and has an inward guide portion 54a, an upward guide portion 54b, and a restricting portion 54c.
[0045]
The inward guide portion 54a is provided to be inclined inwardly at an edge on the most upstream side in the paper transport direction of the paper entry guide member 54, and the paper P discharged from the paper discharge portion 6 is placed between the fixed portions 18a. I will guide you. The upward guide portion 54b is inclined upward at the lower portion of the inward guide portion 54a, and guides the paper P discharged from the paper discharge portion 6 upward. The restricting portion 54c is bent inwardly at the upper edge of the paper entering guide member 54 on the upstream side in the paper conveyance direction, and each of the paper P guided upward by the upward guide portion 54b. Jumping out from between the fixed portions 18a is restricted.
[0046]
With the above-described configuration, a relatively wide paper P (for example, B4 size or larger) that jumps greatly by the jump plate 11 provided in the paper discharge unit 6 has its front end brought into contact with the inward guide portion 54a and each fixed portion It is guided between 18 a and is satisfactorily stacked on the paper discharge tray 13. Further, a narrow sheet P (for example, A4 size or less) that is discharged as it is from the sheet discharge unit 6 without being influenced by the jump plate 11 is guided upward with the leading end of the sheet contacting the upward guide unit. In addition, the restricting portion 54 c restricts the jumping from between the fixed portions 18 a, and the paper is stacked after being transported satisfactorily to the front end portion of the paper discharge tray 13.
[0047]
In the vicinity of the downstream end of each movable portion 18b in the paper conveyance direction, a paper stacking support member 49 for aligning the leading edge of the paper P falling on the paper discharge tray 13 is provided. The sheet stacking support member 49 made of a substantially triangular plate material has a corner portion as a support shaft so that the front end portion of the sheet stacking support member 49 comes close to a downstream sheet side edge support member 50 described later disposed on the upper surface of the sheet discharge tray 13. 51 is rotatably supported by the movable portion 18b. The sheet stacking support member 49 is formed with an arc-shaped elongated hole 49a centered on the support shaft 51, and a stepped pin 52 implanted in the movable portion 18b is fitted into the elongated hole 49a. Yes. Further, the other end of the tension spring 53, one end of which is fixed to the movable portion 18b, is attached to the sheet stacking support member 49, and the sheet stacking support member 49 is positioned within the range from the initial position shown in FIG. It is configured to be able to turn to the downstream side in the transport direction, and is normally positioned at the initial position by the biasing force of the tension spring 53.
[0048]
Downstream paper side edge support members 50 are disposed at both corners on the upper surface of the discharge tray 13 on the downstream side in the paper conveyance direction. The downstream paper side edge support member 50 formed by bending and welding the plate material and having a right triangle shape when viewed from the side is fixed on the paper discharge tray 13 so that the right angle portions are located on both sides of the paper discharge tray 13. The slanted surface is formed into a shape that gives an upward-oriented form to both side edges of a sheet P of a certain size or larger (for example, B4 size or larger). Further, as shown in FIG. 9, the downstream paper side edge support member 50 avoids interference with the paper stacking support member 49 when the movable portion 18b moves from the guide position to the open position, and the movable portion 18b. A recess 50a is formed for avoiding interference when the sheet stacking support member 49 is rotated in the direction indicated by the arrow in FIG.
[0049]
An upstream paper side edge support member 55 is disposed on the upstream end of the upper surface of the paper discharge tray 13 in the paper conveyance direction. The upstream paper side edge support member 55 formed by bending the plate material into a substantially triangular prism shape has a sloped portion 55a on which the paper P is stacked, a back surface portion 55b, and side portions 55c provided on the left and right sides. The holes 13a are engaged with each other.
[0050]
A stepped pin 57 is fixed to the back surface part 55 b via a spacer 56, and the outer diameter of the stepped pin 57 is equal to or greater than the vertical movement length of the discharge tray 13 in the height direction of the side edge support part 17. It is formed to be larger than the width of the vertical groove 17c formed by the length. The stepped pin 57 is vertically dropped by dropping from a hole (not shown) having a diameter equal to or larger than the outer diameter of the stepped pin 57 formed continuously with the vertical groove 17c located above the upper limit position of the paper discharge tray 13. It is engaged with the groove 17c.
[0051]
Rollers 58 that can roll on the paper discharge tray 13 are rotatably attached to both side portions 55c. Further, the ends of both side portions 55c are bent outward so as to engage with bent portions 13b formed by bending both side edge portions of the escape holes 13a.
[0052]
With the above-described configuration, the upstream paper side edge support member 55 moves up and down along the vertical groove 17c as the discharge tray 13 moves up and down, and the side edge support portion 17 moves in the paper width direction. Accordingly, it moves in the same direction along the escape hole 13a. The paper P discharged from the paper discharge unit 6 is placed on the inclined surface 55a, so that both side edges thereof are directed upward.
[0053]
The end fence 15 is supported by an end fence support member 59 as shown in FIGS. The arm-shaped end fence support member 59 has an upper surface and a lower surface opened, and one end of the arm-shaped end fence support member 59 is rotated by a support shaft (not shown) into a notch 12a formed at the upper end corner of the apparatus main body 12 on the downstream side in the paper transport direction. It is supported freely. The notch 12 a is provided with a stopper (not shown) that regulates the rotation angle of the end fence support member 59.
[0054]
At the center of the end fence support member 19 in the sheet conveyance direction, a fence spindle (not shown) extending in the sheet conveyance direction is disposed over almost the entire length, and the end fence 15 moves in the sheet conveyance direction on the fence spindle. It is attached as possible. A positioning screw (not shown) for fixing the end fence 15 at an arbitrary position in the paper transport direction is disposed on the end fence 15.
[0055]
With the above-described configuration, the end fence 15 is indicated by a solid line in FIG. 1, a discharge position where the free end receives the leading edge of the paper P discharged near the discharge tray 13, and a two-dot chain line in FIG. 1. And a retraction position in which the entire position is retracted from above the discharge tray 13 so that the paper P can be easily taken out from the discharge tray 13. Selectively occupy. The end fence 15 corresponds to the position indicated by the solid line in FIG. 2 corresponding to the maximum size paper P that can be printed by the stencil printing apparatus 2 and the minimum size paper P that can be printed by the stencil printing apparatus 2. As shown by a two-dot chain line in FIG. 2, the position is positioned at an arbitrary position between the positions corresponding to the connecting portions of the fixed portion 18a and the movable portion 18b.
[0056]
Based on the above-described configuration, the operation of the paper discharge storage device 1 will be described below.
The operator adjusts a positioning screw (not shown) according to the size of the paper P to be printed to position the end fence 15 and turns the adjustment handle 38 to operate the side fence moving mechanism 28 to Perform positioning.
[0057]
After the positioning of each side fence 14 and end fence 15 is completed, when an operator presses a printing start key (not shown) of the stencil printing apparatus 2, the paper P is continuously fed from the paper feeding unit 5. The fed paper P is printed on the printing unit 4 and then discharged from the paper discharge unit 6 to the outside of the housing 3.
[0058]
The paper P discharged from the stencil printing apparatus 2 is guided between the fixed portions 18a by the paper entry guide member 54, and after receiving the leading end thereof by the end fence 15, the both sides thereof are aligned by the guide portion 18. Then, it falls and is supported on both side edges by the side edge support part 17 and the sheet stacking support member 49 and placed on the paper discharge tray 13. The placed paper P is given a form in which both side edges thereof are directed upward by the downstream paper side edge support member 50 and / or the upstream paper side edge support member 55.
[0059]
Thereafter, the paper P is similarly discharged from the stencil printing apparatus 2, and the discharged paper P is similarly stacked on the paper discharge tray 13. When the upper surface detection sensor 16 detects the upper surface of the paper P on the paper discharge tray 13, the drive motor 46 operates to lower the paper discharge tray 13 by a predetermined amount. Thereafter, this operation is repeated, and when the paper P discharged from the stencil printing machine 2 stops or the paper discharge tray 13 reaches the lower limit position, the paper discharge and storage operation is completed.
[0060]
When the paper P is stacked on the paper discharge tray 13 described above, the side edge support portions 17 of the side fences 14 are supported by the apparatus main body 12 and the paper P is loaded from the upper limit position to the lower limit position of the paper discharge tray 13. Since both side edges are supported, the paper P can be reliably aligned in the paper width direction from the beginning to the end of the paper discharge storing operation, and the handling of the paper P on the paper discharge tray 13 can be greatly improved. Can do.
[0061]
In the above embodiment, the side fence moving mechanism 28 is operated by manually rotating the adjustment handle 38 and each side fence 14 is moved. However, instead of the adjustment handle 38, a motor (not shown) is used. It is good also as a structure which act | operates the side fence moving mechanism part 28 by rotation of a motor, and moves each side fence 14. FIG. The drive of the motor (not shown) is driven by pressing a switch (not shown), based on information from a paper size detection sensor (not shown) provided in the paper feed tray 9, and set by an operator on an operation panel (not shown). It is good also as a structure performed automatically based on the information from the stencil printing apparatus 2 side, such as a drive based on information.
[0062]
【The invention's effect】
According to the present invention, each side fence is supported by the apparatus main body and supports both side edges of the sheet from the upper limit position to the lower limit position of the sheet discharge tray. Alignment in the paper width direction can be performed reliably, and handling of paper on the paper discharge tray can be greatly improved.
[Brief description of the drawings]
FIG. 1 is a schematic front view of an image forming apparatus and a paper discharge storage device adopting an embodiment of the present invention.
FIG. 2 is a schematic plan view of an image forming apparatus and a paper discharge storage device adopting an embodiment of the present invention.
FIG. 3 is a perspective view showing a main part of a side fence moving mechanism used in an embodiment of the present invention.
FIG. 4 is a front view showing a main part of a side fence moving mechanism used in an embodiment of the present invention.
FIG. 5 is a schematic view for explaining a side fence interlocking mechanism used in an embodiment of the present invention.
FIG. 6 is a schematic view showing a drive shaft and pulleys for explaining a side fence interlocking mechanism used in one embodiment of the present invention.
FIG. 7 is a schematic view for explaining an adjustment handle used in an embodiment of the present invention.
FIG. 8 is a schematic view for explaining a guide portion, a paper stacking support member, and a downstream paper side edge support member used in an embodiment of the present invention.
FIG. 9 is a schematic perspective view for explaining a downstream paper side edge support member used in an embodiment of the present invention.
FIG. 10 is a schematic perspective view for explaining a paper entry guide member used in an embodiment of the present invention.
FIG. 11 is a schematic front view for explaining an upstream paper side edge support member used in an embodiment of the present invention.
FIG. 12 is a schematic side view for explaining an upstream paper side edge supporting member used in an embodiment of the present invention.
[Explanation of symbols]
1 Discharge storage device
2 Image forming device (stencil printing device)
6 Output section
11 Jump board
12 Device body
13 Output tray
14 Side fence
17 Side edge support
18 Guide
18a fixed part
18b Movable part
28 Side fence support member (side fence moving mechanism)
46 Tray vertical movement means (drive motor)
49 Paper loading support member
50 Downstream paper side edge support member
54 Paper entry guide member
55 Upstream paper side edge support member
P paper

Claims (9)

An apparatus main body that can be attached to and detached from a paper discharge section of the image forming apparatus, a paper discharge tray that can stack sheets discharged from the paper discharge section and is supported by the apparatus main body so as to be movable up and down, and the discharge tray. a tray vertically moving means for vertically moving the paper tray, and the width direction of the alignment right and left pair provided movably in the width direction to perform the sheet to be discharged to the paper discharge tray side fences, is discharged A paper discharge storage device including one end fence for receiving the leading edge of the paper ,
Each of the side fences is supported by the apparatus main body and has a length equal to or greater than the height from the upper limit position to the lower limit position of the paper discharge tray to align the sheets. The side fence support members having a function of moving in the width direction and supporting the upper and lower portions of the side fences respectively are provided at the upper and lower portions of the apparatus main body, and the side fence support members are interlocked with each other. Each side fence has a side fence interlocking mechanism for moving each side fence, and each side fence supports the paper discharged from the paper discharge unit and both sides of the paper guided by the guide unit supporting the guide unit. fixing portion to which the respective guiding portions with each having a side edge support portion is supported by the side edge support member for supporting the edges And a rotatably supported movable portion to the fixed portion, respectively, wherein the movable part is openable outward, respectively, said end fence connection portion between the movable portion and the fixed portion The paper discharge storage device is capable of moving from a position corresponding to the position toward the downstream side in the paper discharge direction . The paper discharge storage device according to claim 1.
The paper discharge storage device, wherein each of the guide portions is movable in the vertical direction. In the paper discharge storage device according to claim 1 or 2,
A paper discharge storage device comprising a paper stacking support member adjacent to a paper stacking surface of the paper discharge tray that occupies the upper limit position, on the downstream side in the paper transport direction of each guide portion. In the paper discharge storage device according to any one of claims 1 to 3,
A paper discharge storage device comprising an upstream paper side edge support member that supports both sides on the upstream side in the conveyance direction of the paper discharged onto the paper discharge tray. The paper discharge storage device according to claim 4.
The upstream paper side edge support member is disposed inside each side fence, and is movable following the movement of each side fence and the vertical movement of the discharge tray. Paper storage device. In the paper discharge storage device according to any one of claims 1 to 5,
A paper discharge storage device comprising a downstream paper side edge support member for supporting upward both sides on the downstream side in the transport direction of the paper discharged onto the paper discharge tray. The paper discharge storage device according to claim 6.
The paper discharge storage apparatus according to claim 1, wherein the downstream side edge support members are disposed on both sides on the downstream side in the paper transport direction on the paper discharge tray. In the paper discharge storage device according to any one of claims 1 to 7,
A jump plate that gives a form in which both side edge portions are directed upward with respect to the paper discharged from the paper discharge unit, and a paper entry guide member that guides the paper discharged through the jump plate A discharge storage device characterized by the above. The paper discharge storage device according to claim 8.
The paper entry guide member is guided by an inward guide portion that guides the leading end portion of the discharged paper inward, an upward guide portion that guides the leading end portion upward, and the upward guide portion. And a restricting portion for restricting the upward movement of the sheet.

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