JP2018048011A - Sheet accumulation apparatus and sheet accumulation method - Google Patents

Abstract

A plurality of types of sheet-like sheets discharged from an external device such as an existing printer can be accumulated, and even if the sheet-like sheets discharged from the external device are curved. Provided are a sheet stacking apparatus and a sheet stacking method capable of stacking sheets neatly. A sheet stacking apparatus has a detecting unit for detecting that a sheet-shaped sheet is discharged from an external device, and temporarily stores a sheet sent from the external device. The holding unit 10, a transport unit 20 having a sheet guide member 28 for guiding a sheet-like sheet to be curved along a plane perpendicular to the transport direction, and a sheet-like sheet transported by the transport unit 20 are provided. And an accumulation unit 30 to be accumulated. The temporary holding unit 10 sends out the discharged sheet to the transport unit 20 when the detection unit detects that the sheet has been discharged. [Selection diagram] Fig. 1

Description

  The present invention relates to a sheet stacking apparatus and a sheet stacking method for stacking sheet-like sheets.

  Conventionally, for example, Patent Document 1 and Patent Document 2 disclose apparatuses and methods for stacking sheet-like sheets conveyed on a production line and sheet-like sheets discharged from a printer or the like. Such a sheet stacking apparatus and a sheet stacking method are used. Here, the apparatus and method disclosed in Patent Document 1 conveys a sheet-like sheet so as to pass between a pair of belts provided so that the conveyance surface is inclined with respect to the horizontal direction, thereby the sheet-like sheet. The sheet is thrown upward from the end of the region sandwiched between the pair of belts, and the sheet-like sheet thus thrown is dropped onto the stacking portion having the tilted stacking surface, so that Sheets are accumulated.

  The apparatus disclosed in Patent Document 2 has a tray for stacking sheet-like sheets discharged from a printer or the like so as to be sequentially stacked on an inclined surface. More specifically, this apparatus is configured to deform the discharged sheet into a direction intersecting with the discharge direction, and then discharge the sheet to the tray after sitting on the sheet. Further, by providing a lifting portion at the bottom of the tray and partially lifting the lower end of the sheet-like sheets stacked on the tray, the lower end of the sheet-like sheet does not buckle and deform at the bottom of the inclined tray. It is to make.

JP 2006-182511 A JP-A-3-138260

  Here, the apparatus and method disclosed in Patent Document 1 are applied to a production line and the like, and the conveyed sheet-like sheets are thrown upward obliquely and accumulated on an inclined accumulation surface. It is something to be made. Therefore, when the sheet-like sheet is curved, the sheet-like sheet is bent in the air immediately after being thrown up and falls to the stacking portion as it is, so that the sheet-like sheet cannot be stacked well. There's a problem. With respect to such a problem, the apparatus disclosed in Patent Document 2 deforms the discharged single sheet in a direction intersecting with the discharge direction, and discharges after sitting on the single sheet. By doing so, a sheet-like sheet can be neatly accumulated in the accumulation part. However, the apparatus disclosed in Patent Document 2 is incorporated in, for example, a paper discharge unit of a copying machine or a photographing apparatus, and has a problem that it cannot be used in combination with another copying machine or a photographing apparatus. .

  The present invention has been made in consideration of the above points, and can stack a plurality of types of sheet-like sheets discharged from an external device such as an existing printer, and can discharge the sheets from the external device. The sheet can be neatly collected even when the sheet-like sheet is curved, and further, the sheet sent from the external device is held in the temporary holding unit, thereby printing the sheet-like sheet. It is an object of the present invention to provide a sheet stacking apparatus and method capable of drying the ink used for the above etc. more reliably.

  The sheet stacking apparatus of the present invention is a sheet stacking apparatus for stacking sheet-like sheets discharged from an external device, and detecting means for detecting that the sheet-like sheets are discharged from the external device. A temporary holding unit that temporarily holds a sheet sent from the external device, and a conveying unit that conveys a sheet-like sheet sent from the temporary holding unit, the conveying unit A sheet-fed sheet conveyed by the conveyance unit, and a sheet-fed sheet conveyed by the conveyance unit. The conveyance unit includes a sheet guide member for guiding the sheet-fed sheet conveyed by the sheet to be curved along a plane orthogonal to the conveyance direction of the sheet-fed sheet. A stacking unit in which the sheets are stacked, and in the temporary storage unit, the discharged sheet-like sheet is discharged when the detection unit detects that the sheet-like sheet is discharged. Wherein that which is to be delivered to the feeding portion.

  The temporary storage unit, the conveyance unit, and the stacking unit of such a sheet stacking device are provided separately from an external device such as a printer, and the sheet stacking device can be easily separated from the external device. Yes. For this reason, the external device capable of interlocking with such a sheet stacking device is not limited to one specific external device. That is, according to the sheet stacking apparatus described above, it is possible to stack a plurality of types of sheet-like sheets discharged from an external apparatus such as an existing printer. Further, since the conveyance unit has a sheet guide member for guiding the sheet-like sheet conveyed by the conveyance unit to bend, the sheet-like sheet discharged from the external device is curved. Even in this case, the sheet can be neatly accumulated in the accumulation unit. Furthermore, by holding the sheet sent from the external device in the temporary storage unit, it is possible to more reliably dry the ink or the like used for printing the sheet-like sheet.

  In the sheet stacking apparatus of the present invention, the discharge of the sheet-like sheet from the external device is performed by cutting the strip-shaped sheet, and the detecting means is configured to cut the strip-shaped sheet. Sometimes, it may be detected that a sheet-like sheet is discharged from the external device.

  In the sheet stacking apparatus of the present invention, in the temporary storage unit, the sheet-like sheet is fed to the transport unit by driving a roller provided in the temporary storage unit by a motor. It may be.

  In this case, a member including a sponge may be provided on the outer peripheral layer of the roller.

  In the sheet stacking apparatus of the present invention, the roller may be configured to rotate only in the sheet feeding direction.

  In the sheet stacking apparatus of the present invention, the rollers may be a pair of left and right.

  In this case, a plurality of sets of the pair of left and right rollers may be provided so as to be aligned along the sheet feeding direction.

  In the sheet stacking apparatus of the present invention, the temporary storage unit may include a delivery guide member that guides the sheet-like sheet when the sheet-like sheet is delivered to the transport unit.

  In the sheet stacking apparatus of the present invention, the angle of the sheet guide member with respect to the sheet conveyance surface in the conveyance unit may be adjustable.

  In the sheet stacking apparatus of the present invention, the sheet-like sheet discharged from the external device is curved on a vertical plane along the feeding direction from the temporary storage unit to the transport unit, and the sheet guide member is The sheet-like sheet may be guided to bend in a direction different from the direction in which the sheet-like sheet is already bent.

  In the sheet stacking apparatus of the present invention, the sheet-like sheet discharged from the external device is curved so as to protrude upward in the vertical plane, and the sheet-like sheet is the same as the sheet-like sheet. The sheet may be curved by being pressed against the sheet guide member by the conveyance unit so as to protrude downward on a surface orthogonal to the conveyance direction.

  The sheet stacking method of the present invention is a sheet stacking method for stacking sheet-like sheets discharged from an external device, the step of temporarily storing a sheet sent from the external device in a temporary storage unit; A step of sending the sheet-like sheet from the temporary holding unit to the conveying unit when it is detected by the detecting means provided in the temporary holding unit that the sheet-like sheet is discharged from the external device; A sheet-fed sheet conveyed by the conveying unit, and at this time, a step of bending by a sheet guide member along a plane orthogonal to the conveying direction of the sheet-fed sheet, and a sheet-fed sheet conveyed by the conveying unit And a step of accumulating the sheet in the accumulating unit.

  According to such a sheet stacking method, since the temporary storage unit, the transport unit, and the stacking unit are provided separately from the external device such as a printer, the sheets to be stacked by the sheet stacking method of the present invention are discharged. The external device such as a printer to be used is not limited to a specific one. For this reason, the sheet-like sheet discharged from an external device such as a plurality of types of existing printers can be accumulated. In addition, since the sheet feeding sheet is conveyed by the conveying unit, and at this time, the sheet guide member is curved along a plane orthogonal to the sheet conveying direction, the sheet is discharged from the external device. Even when a single sheet is curved, the sheet can be neatly accumulated in the accumulation portion. In addition, since the step of temporarily holding the sheet sent from the external device in the temporary holding unit is provided, the ink used for printing the sheet-like sheet can be dried more reliably.

  In the sheet stacking method of the present invention, the sheet-like sheet is discharged from the external device by cutting the belt-like sheet, and the detecting means cuts the belt-like sheet. You may come to detect this.

  In the sheet stacking method of the present invention, the sheet-like sheet discharged from the external device is curved on a vertical plane along the feeding direction from the temporary storage unit to the transport unit, and the sheet guide member is The sheet-like sheet may be guided to bend in a direction different from the direction in which the sheet-like sheet is already bent.

  According to the sheet stacking apparatus and the sheet stacking method of the present invention, it is possible to stack a plurality of types of sheet-like sheets discharged from an external device such as an existing printer, and the sheet-like sheet discharged from the external device Even when the sheet is curved, the sheet can be neatly collected, and further, the sheet sent from the external device is held in the temporary holding unit, so that the ink used for printing the sheet etc. Can be dried more reliably.

1 is a schematic configuration diagram (bird's eye view) schematically showing a configuration when a sheet stacking apparatus according to an embodiment of the present invention is viewed from the front side. It is a front view of the sheet stacking apparatus shown in FIG. FIG. 2 is a side view illustrating a main configuration of a conveyance unit when the sheet stacking apparatus illustrated in FIG. 1 is viewed from the left side toward the right side. (A)-(c) is explanatory drawing for demonstrating the mechanism which drives the sending roller provided in the temporary storage part of the sheet | seat stacking apparatus shown in FIG. 1 only for predetermined time, respectively.

  Embodiments of the present invention will be described below with reference to the drawings. 1 to 4 are views showing a sheet stacking apparatus according to the present embodiment. Among these, FIG. 1 is a schematic configuration diagram (bird's-eye view) schematically showing a configuration when the sheet stacking apparatus is viewed from the front, and FIG. 2 is a front view of the sheet stacking apparatus shown in FIG. FIG. 3 is a side view showing the main configuration of the transport unit when the sheet stacking apparatus shown in FIG. 1 is viewed from the left side to the right side. FIGS. 4A to 4C are explanatory views for explaining a mechanism for driving the feeding roller provided in the temporary storage unit of the sheet stacking apparatus shown in FIG. 1 for a predetermined time. In FIG. 1 to FIG. 3, a sheet-like sheet to be stacked in the stacking unit is indicated by a reference symbol W. 1 and 2, the external device is indicated by a reference symbol Y. 4A to 4C, a cutting member such as a cutter incorporated in an external device for cutting the belt-like sheet is indicated by a reference sign y.

  As shown in FIGS. 1 and 2, the sheet stacking apparatus 1 according to the present embodiment includes a temporary storage unit 10 in which a sheet sent from an external device is temporarily held, and a sheet sent from the temporary storage unit 10. A conveyance unit 20 that conveys a leaf-shaped sheet and a stacking unit 30 that accumulates the sheet-like sheets conveyed by the conveyance unit 20 are provided. Further, the temporary storage unit 10 has detection means for detecting that the sheet-like sheet is discharged from the external device, and it is detected by the detection means that the sheet-like sheet is discharged. Sometimes, the discharged sheet is sent to the conveying unit 20. Details of such detection means will be described later. Moreover, the conveyance part 20 has the sheet guide member 28, The sheet | seat-like sheet conveyed by the conveyance part 20 by the said sheet guide member 28 curves so that it may curve along the surface orthogonal to the conveyance direction. Guided. When the sheet stacking apparatus 1 uses the sheet stacking apparatus 1 to stack the sheet-like sheets, when the detection unit detects that the sheet-like sheets are discharged to the temporary storage unit 10, the sheet-like sheets are The sheet is sent from the temporary storage unit 10 to the conveyance unit 20, and the fed sheet is guided by the sheet guide member 28 so as to bend along a plane perpendicular to the conveyance direction, and then the stacking unit. 30. In the present embodiment, the sheet-like sheet is discharged from the external device by cutting the belt-like sheet. When the belt-like sheet is cut, the sheet-like sheet is discharged from the external device. Sheets are considered to have been discharged. Details of the sheet stacking apparatus 1 will be described below.

  As shown in FIGS. 1 and 2, the temporary storage unit 10 includes a sheet-like sheet on which a belt-like sheet sent from an external device and a sheet-like sheet discharged from the external device are placed, A pair of left and right delivery rollers 14 for delivering the sheet to the conveyance unit 20 and a delivery guide plate 16 for guiding the delivery operation when the sheet-fed sheet is delivered to the conveyance unit 20 by the delivery roller 14. And have.

  In addition, in the sheet stacking apparatus 1 according to the present embodiment, the temporary storage unit 10 is provided, so that a belt-like sheet or the like sent from an external device can be temporarily stored in the temporary storage unit 10. It can be done. As a result, it is possible to more reliably dry ink or the like used for printing sheets or the like sent from an external device.

  Moreover, the mounting plate 12 is formed from a member containing resin, and the mounting surface is inclined toward the transport unit 20 (that is, inclined obliquely downward in FIG. 2). It is configured. Thus, the movement of the belt-like sheet sent from the external device and the sheet-like sheet discharged from the external device in the direction toward the delivery roller 14 (that is, the movement in the left direction in FIG. 2) is caused by its own weight. It comes to be assisted by. Further, since the mounting surface of the mounting plate 12 is inclined obliquely downward toward the transport unit 20, this operation is performed even when a sheet-like sheet is sent to the transport unit 20 by the sending roller 14. Assisted by the weight of the sheet-like sheet.

  In addition, since the mounting plate 12 is made of a member containing resin, when the belt-like sheet sent from the external device or the sheet-like sheet discharged from the external device is paper or the like, the mounting plate The sliding between 12 and the belt-like sheet or sheet-like sheet is particularly good. As a result, a belt-like sheet or a sheet-like sheet made of paper or the like can be moved particularly smoothly on the placement plate 12 in the direction toward the delivery roller 14 (that is, in the left direction in FIG. 2). Become.

  Further, the temporary storage unit 10 is provided with a mechanism (not shown) for changing the inclination angle of the mounting plate 12 with respect to the horizontal plane. Thus, the sheet discharge port of the external device corresponds to the height from the ground or the like (that is, the belt-like sheet sent from the external device is placed on the placement plate 12). The angle of the mounting plate 12 can be changed.

  Each of the rollers constituting the feed roller 14 is rotatable about an axis extending in the horizontal direction, and each of the rollers can rotate independently. Here, each roller is provided with a one-way mechanism, and the rotation direction of each roller is the rotation direction when the sheet-like sheet is sent to the conveyance unit 20 (that is, clockwise in FIG. 2). Direction). Accordingly, the feeding roller 14 can feed the sheet-like sheet to the transport unit 20 and prevent the sheet-like sheet from moving in the direction opposite to the feeding direction. Will be able to.

  Further, as shown in FIG. 1, the feed roller 14 is composed of a pair of left and right rollers arranged in a line along the direction in which the rotation axis of the feed roller 14 extends. , Provided at positions near the middle of the mounting plate 12. As described above, the pair of left and right delivery rollers 14 prevents the sheet-like sheet delivered from the temporary storage unit 10 to the transport unit 20 from being skewed with respect to the delivery direction. Can be done. The delivery roller 14 is not limited to a configuration composed of a pair of left and right rollers. For example, a pair of left and right rollers such as a wheel provided in a vehicle such as a mini 4WD is a set of a plurality of sets. A combination of rollers may be used as the delivery roller 14. When the number of pairs of left and right rollers is increased, it is possible to further prevent skewing with respect to the sheet feeding direction of the sheet.

  In addition, a member including a sponge is provided on the outer peripheral layer of the delivery roller 14. Thus, the delivery roller 14 prevents undried ink or the like on the printing surface of the sheet-like sheet from being transferred to other portions of the sheet-like sheet via the surface of the delivery roller 14. Therefore, the sheet-like sheet can be sent to the conveying unit 20 without contaminating the printing surface or the like. Such an effect is such that when ink or the like adheres to the surface of a member including a sponge provided in the outer peripheral layer of the delivery roller 14, the ink or the like is taken into the member including the sponge, This is due to the characteristic of the material that it is removed from the surface of the delivery roller 14 that contacts the sheet-like sheet. As will be described later, the delivery roller 14 is driven by a drive motor (not shown) for a predetermined time when the detection means detects that the sheet is discharged from the external device. ing.

  The temporary storage unit 10 is provided with a first position adjusting mechanism (not shown) for changing the position of the feeding roller 14 in the sheet feeding direction (that is, the left-right direction in FIG. 2). ing. As a result, the position of the delivery roller 14 in the delivery direction of the sheet-like sheet can be adjusted, so even if the size of the sheet-like sheet discharged from the external device is different, The sheet-like sheet and the delivery roller 14 can be reliably brought into contact with each other, so that the sheet-like sheet can be more reliably delivered to the conveying unit 20.

  In addition, the temporary storage unit 10 is provided with a second position adjustment mechanism (not shown) for adjusting the position of the delivery roller 14 in the vertical direction (that is, the vertical direction in FIG. 2). As a result, an appropriate force can be applied to the sheet-like sheet by the feed roller 14 according to the thickness, material, printing method, etc. of the sheet-like sheet discharged from the external device, and thus the sheet is fed to the transport unit 20. A leaf-shaped sheet can be sent out. As described above, since a member including a sponge is provided on the outer peripheral layer of the sending roller 14, the force applied to the sheet-like sheet by the sending roller 14 is adjusted by adjusting the position of the sending roller 14 in the vertical direction. Even when this is adjusted, it is possible to prevent the printing surface or the like of the sheet-like sheet delivered by the delivery roller 14 from becoming dirty.

  Further, as described above, the delivery guide plate 16 is a member for guiding the delivery operation when a sheet-like sheet is delivered to the transport unit 20 by the delivery roller 14, and includes, for example, a resin. It is comprised from the thin plate-shaped member which is a rectangular shape. Further, as shown in FIG. 1, the delivery guide plate 16 is provided with a plurality of substantially rectangular holes according to the number of rollers constituting the delivery roller 14 (for example, a pair of delivery rollers 14). Are provided with two substantially rectangular holes). Further, the feeding roller 14 is configured such that at least the lower end thereof protrudes toward the mounting plate 12 from the lower surface of the feeding guide plate 16 (that is, the surface on the side of guiding a sheet-like sheet). Thus, the sheet-like sheet can be sent to the transport unit 20 by the sending roller 14 while guiding the sheet-like sheet using the sending guide plate 16. Since the delivery guide plate 16 is made of a resin-containing member, the delivery guide plate is used when the belt-like sheet sent from the external device or the sheet-like sheet discharged from the external device is paper or the like. The sliding between 16 and the belt-like sheet or the sheet-like sheet is particularly good.

  Here, the delivery guide plate 16 is inclined in the same direction as the inclination direction of the mounting plate 12 (that is, obliquely downward toward the transport unit 20). Further, the inclination angle with respect to the horizontal plane is configured such that the inclination angle of the delivery guide plate 16 is larger than the inclination angle of the mounting plate 12. Therefore, as shown in FIG. 2, the height of the region between the placement surface of the placement plate 12 and the lower surface of the delivery guide plate 16 (hereinafter referred to as “guide region 18”) is set to the external device. The closer it is, the higher it is, and the closer it is to the transport unit 20, the lower it is. Further, as shown in FIG. 2 and the like, the end portion on the external device side of the delivery guide plate 16 (that is, the right end portion in FIG. 2) has a curved shape so as to be separated from the placement surface of the placement plate 12. It has become. As a result, the belt-like sheet sent from the external device or the discharged single-wafer-like sheet is guided at one end of the guide region 18 (that is, the right end of the guide region 18 in FIG. 2). 18 is easy to enter.

  When the belt-like sheet sent from the external device or the sheet-like sheet discharged from the external device is curved and the degree of curvature is large, the sheet first comes into contact with the delivery guide plate 16. Thus, the delivery roller 14 is guided toward a certain position. These sheets (however, after being cut in the case of a belt-like sheet) are fed to the conveying unit 20 by the feed roller 14 while being guided by the feed guide plate 16. As described above, when the delivery guide plate 16 is provided, even if the belt-like sheet sent from the external device or the sheet-like sheet discharged from the external device is curved, it is ensured. It can be sent to the transport unit 20.

  In addition, as described above, the sheet-like sheet is discharged from the external device when the belt-like sheet sent to the temporary storage unit 10 by the external device is cut in the width direction by the cutting member incorporated in the external device. To be done. Further, the detection means provided in the temporary storage unit 10 detects this when the belt-like sheet sent from the external device is cut by a cutting member incorporated in the external device. ing.

  More specifically, the cutting of the belt-shaped sheet sent from the external device to the temporary storage unit 10 is performed by a cutter or the like incorporated in the external device moving linearly along the width direction of the belt-shaped sheet. It has come to be. Further, as shown in FIGS. 4A and 4B, the detecting means is operated by the cutting member when a cutting member such as a cutter incorporated in the external device arrives at the end position of the cutting operation. The first limit switch 41 is configured. The detecting means is configured so that a cutting member such as a cutter incorporated in the external device (indicated by reference sign y) performs the cutting operation shown in FIG. 4B from the standby position of the cutting operation shown in FIG. When moving to the end position (that is, the position where the cutting of the belt-like sheet is completed), the first limit switch 41 is operated to detect that the belt-like sheet has been cut.

  The first limit switch 41 may be directly actuated by movement of a cutting member incorporated in the external device, or incorporated in the external device via a combination of rod-like members or the like. It may be operated indirectly at a position away from the cutting member or the like. Further, the detecting means is not limited to a switch having a mechanical configuration such as a limit switch, and detects that the sheet-like sheet has been discharged from the external device by a signal from the external device. It may be configured.

  Furthermore, as shown in FIGS. 4A to 4C, the detection means (that is, the first limit switch 41) is connected to the gas supply unit 42, the regulator 43, the air cylinder 44, and the like. When the detection means detects that the sheet-like sheet has been discharged from the external device, the air cylinder 44 is driven, and the air cylinder 44 pushes the piston 45 rightward in FIG. 4B. (See FIG. 4B). Further, a substantially rectangular parallelepiped switch operating member 46 having a substantially right triangular prism-shaped tip is attached to the piston 45, and will be described below by using an inclined surface 46 a of the tip of the switch operating member 46. As described above, the second limit switch 47 can be operated for a predetermined time.

  More specifically, as described above, the first limit switch 41 pushes the piston 45 of the air cylinder 44 to the right in FIG. 4 (see FIG. 4B), but the gas supply unit Gas supply to the air cylinder 44 by 42 is performed instantaneously. That is, when the first limit switch 41 is actuated, the piston 45 and the switch operation member 46 are momentarily pushed out once. After the gas supply to the cylinder 44 is instantaneously performed, it gradually returns to the left in FIGS. 4A to 4C (see FIG. 4C).

  4A to 4C, the switch operation member 46 is arranged such that the inclined surface 46a at the tip of the switch operation member 46 faces the second limit switch 47. Yes. Further, the switch operation member 46 is configured such that the second limit switch 47 is activated only when the switch operation member 46 is pushed out by a predetermined amount or more (FIGS. 4B and 4C). reference). Further, as described above, after the piston 45 and the switch operating member 46 are once pushed out, the piston 45 and the switch operating member 46 gradually return to the standby position shown in FIG. The switch operating member 46 and the second limit switch 47 are separated from each other, and the second limit switch 47 does not operate. In this way, a configuration is realized in which the second limit switch 47 is operated for a predetermined time when it is detected by the detection means that the sheet-like sheet sent from the external device has been discharged. It becomes like this.

  The second limit switch 47 is connected to a drive motor (not shown) for the feed roller 14 provided in the temporary storage unit 10. As a result, by operating the second limit switch 47 for a predetermined time, the delivery roller 14 can be driven for a predetermined time.

  Further, by adjusting the regulator 43 connected to the air cylinder 44 or the like, the time required for the piston 45 or the like to return to the standby position (see FIG. 4A) can be adjusted. Yes. As a result, the time during which the second limit switch 47 operates can be changed. That is, the regulator 43 has a role as a pseudo timer for adjusting the time for driving the delivery roller 14 through adjustment of a predetermined time for the second limit switch 47 to operate.

  In addition, when the discharge of the sheet from the external device is performed at regular time intervals, even if the detection means is not provided, the regular time intervals. Each time, the delivery roller 14 is driven for a predetermined time, so that a sheet-like sheet can be delivered to the transport unit 20.

  Further, as described above, the conveyance unit 20 conveys the sheet-like sheet sent from the temporary storage unit 10 to the stacking unit 30. Such a conveyance unit 20 includes a conveyor 22 composed of an endless belt for conveying a sheet-like sheet, a pair of conveyance rollers 24 and a pair of rollers 22 configured to rotate in synchronization with the belt of the conveyor 22. The conveying roller 25, the positioning member 26 for positioning each of the conveying rollers 24, 25, and the sheet-like sheet conveyed by the conveyor 22 or the like so as to bend along a plane orthogonal to the conveying direction. A sheet guide member 28 for guiding a sheet-like sheet and a sheet guide angle adjusting member 29 for adjusting the angle of the sheet guide member 28 are provided.

  Further, the conveyor 22 is always driven, and the conveyor 22 is provided with a transport speed adjusting mechanism (not shown). Therefore, the speed at which the sheet-like sheet conveyed by the conveying unit 20 is conveyed can be adjusted. As a result, the speed at which the sheet-like sheet delivered by the delivery roller 14 is delivered to the conveyance unit 20 and the speed at which the sheet-like sheet conveyed by the conveyor 22 are conveyed are substantially the same. Is possible. For this reason, stress or the like that deforms a sheet-like sheet is applied to the sheet-like sheet by a mechanism for conveying the sheet-like sheet (that is, the feeding roller 14, the conveyor 22, and the conveying rollers 24, 25). It can be prevented.

  Here, as described above, the delivery roller 14 is provided with a one-way mechanism, and each of the transport rollers 24 and 25 is also provided with a one-way mechanism as described later. As a result, even when the driving timing and driving speed of the feeding roller 14 and the conveying rollers 24 and 25 are slightly different, or when the driving timing and driving speed are deviated, the sheet is conveyed. The sheet-like sheets conveyed by the mechanism (that is, the feeding roller 14, the conveyor 22, and the conveying rollers 24 and 25) can be reliably conveyed to the stacking unit 30 without being bent.

  The conveyor 22 has a width (that is, the length of the conveyor 22 in the direction orthogonal to the paper surface in FIG. 2) narrower than the width of the sheet-like sheet conveyed by the conveyor 22 or the like. Yes. Thus, a sheet-like sheet conveyed by the conveyor 22 or the like can be bent by a sheet guide member 28 described later.

  Each of the transport rollers 24 and 25 is composed of a pair of left and right rollers provided so as to be aligned along the direction in which the rotation shafts of the transport rollers 24 and 25 extend. Further, the transport rollers 24 and 25 are provided so as to be aligned along the transport direction of the sheet-like sheet. In addition, each roller constituting each of the transport rollers 24 and 25 can be rotated around an axis extending in the horizontal direction, and each of the rollers can be independently rotated. . Here, each roller is provided with a one-way mechanism, and the rotation direction of each roller is the rotation direction when the sheet-like sheet is conveyed to the stacking unit 30 (that is, clockwise in FIG. 2). Direction).

  Further, these transport rollers 24 and 25 are provided at positions near the middle of the conveyor 22 in a direction orthogonal to the transport direction of the sheet-like sheet. Each of the conveying rollers 24 and 25 is attached to a positioning member 26 formed by combining substantially rectangular plate-like members, and the sheet-fed sheet conveying direction (that is, the horizontal direction in FIG. 2). The position at can be changed. As a result, even when the sizes of the sheet-like sheets are different, the sheet-like sheet sent from the temporary storage unit 10 can be conveyed by the conveyance unit 20.

  Further, as described above, the conveyance guide plate 27 made of a resin-containing member is provided between the pair of rollers constituting each of the conveyance rollers 24 and 25. Further, the conveyance guide plate 27 guides the conveyance of the sheet-like sheet by the conveyor 22. Further, as shown in FIG. 1, the conveyance guide plate 27 has a vertical vicinity above the conveyance surface of the conveyor 22 in the vicinity of the end on the side close to the temporary storage unit 10 (that is, the vicinity of the right end in FIG. 2). It bends away (that is, upward in FIG. 2). For this reason, the distance between the conveyance surface of the conveyor 22 and the conveyance guide plate 27 is increased on the side closer to the temporary storage unit 10, and the same effect as the above-described delivery guide plate 16 can be obtained. The sheet-like sheet delivered from the sheet can be conveyed more reliably.

  In addition, since the conveyance guide plate 27 is composed of a member containing resin, when the sheet-like sheet conveyed by the conveyance unit 20 sent from the external device is paper or the like, the conveyance guide plate 27, The sliding between the sheet-like sheets is particularly good. Thus, the sheet-like sheet made of paper or the like can be moved particularly smoothly on the conveyor 22 in the direction in which the stacking unit 30 is located (that is, the left direction in FIG. 2).

  Further, the transport unit 20 is not provided with a drive motor or the like corresponding to each of the transport rollers 24 and 25, and each of the transport rollers 24 and 25 is a conveyor via a sheet-like sheet transported by the conveyor 22. It can be rotated in synchronization with 22. Further, since each of the transport rollers 24 and 25 comes into contact with the conveyor 22 by its own weight, the sheet-like sheet transported by the transport unit 20 is between the conveyor 22 and each of the transport rollers 24 and 25. It is conveyed to the stacking unit 30 so as to be sandwiched between them.

  Further, since a member including sponge is provided on the outer peripheral layer of each of the transport rollers 24 and 25, the transport unit 20 transports even when the weight of each of the transport rollers 24 and 25 is added to the sheet-like sheet. It is possible to prevent the printed surface or the like of the sheet-like sheet to be stained. As described above, such an effect is obtained when the ink or the like adheres to the surface of the member including the sponge provided on the outer peripheral layer of each of the transport rollers 24 and 25. This is due to the characteristic of the material that is taken in and removed from the surface of each of the conveying rollers 24 and 25 that come into contact with the sheet-like sheet.

  As described above, a plurality of pairs of left and right pairs of rollers, that is, the feeding roller 14 and the conveying rollers 24 and 25 are provided in a plurality so as to be aligned along the sheet feeding direction (that is, the conveying direction). Yes. As a result, it is possible to prevent the sheet-like sheet discharged from the external device from being skewed with respect to the conveyance direction when the sheet is being conveyed by the conveyance unit 20. Can be reliably transported to the stacking unit 30.

  Further, as described above, the sheet guide member 28 is a member for guiding a sheet-like sheet conveyed by the conveyor 22 or the like, and is made of, for example, a flexible thin plate resin. Further, since the sheet guide member 28 is made of resin, when the material of the sheet-like sheet is paper, the sliding between the sheet guide member 28 and the paper is particularly good as described above. Further, the sheet guide members 28 are respectively attached to side edges on both sides of the conveyor 22, and from the vicinity of the center in the conveying direction of the conveyor 22 to the end portion on the stacking unit 30 side (that is, the left side in FIG. It is formed so that the degree of curvature increases as it approaches the edge. As a result, the sheet-like sheet can be conveyed without hindering the sheet feeding operation from the temporary storage unit 10 to the conveying unit 20.

  Further, as shown in FIG. 3, a sheet-like sheet conveyed by the conveyor 22 or the like can be applied with a force in a direction in which the sheet is pressed against the sheet guide member 28 by the conveying rollers 24 and 25. As a result, the sheet-like sheet conveyed by the conveyor 22 or the like has a shape corresponding to the shape of the sheet guide member 28 on the surface orthogonal to the sheet-feeding direction of the sheet-like sheet (that is, the direction already curved). Can be bent in different directions).

  The shape of the sheet guide member 28 shown in FIGS. 1 to 3 is such that the sheet-like sheet discharged from the external device protrudes upward on the vertical plane along the feeding direction from the temporary storage unit 10 to the conveyance unit 20. It is a shape suitable when it is curved so that That is, in this case, the sheet-fed sheets that are curved so as to be convex upward in the vertical plane are each conveyed so that the sheet is convex downward in a plane perpendicular to the conveyance direction of the sheet-shaped sheet. 24, 25, etc., it is bent by being pressed against the sheet guide member 28 (see FIG. 3). As described above, the sheet stacking apparatus 1 according to the present embodiment makes the angle of the sheet guide member 28 appropriate for the degree of curvature and direction of the sheet-like sheet conveyed by the conveyor 22 or the like. Even when the sheet-like sheet is curved when discharged from the external device, the sheet-like sheet is corrected to be substantially flat and then accumulated in the stacking unit 30. Be able to.

  Further, as shown in FIG. 3, the conveyance unit 20 is provided with a sheet guide angle adjustment member 29 for adjusting the angle of the sheet guide member 28 (the portion for fixing the sheet guide angle adjustment member 29). (The illustration is omitted). The seat guide angle adjusting member 29 is made of an aluminum pipe or the like, and has a ball joint 29a at the lower end thereof. As described above, since the sheet guide member 28 is a flexible thin plate-like resin, it can be easily deformed by applying a force to the sheet guide member 28 with an aluminum pipe or the like. Since the aluminum pipe or the like is supported by the ball joint 29a, the ball joint 29a is not limited to the direction of the arrow shown in FIG. It can be freely rotated around the center. Therefore, by using the sheet guide angle adjusting member 29, the degree of curvature and the direction of the sheet guide member 28 can be freely changed. As a result, even for sheet-like sheets having different degrees of curvature and shapes, the sheet guide angle adjusting member 29 is used to change the angle of the sheet guide member 28 and the like to be conveyed by the conveyor 22 or the like. It becomes possible to make it appropriate for the degree and direction of curvature.

  The stacking unit 30 stacks the sheet-like sheets conveyed by the conveying unit 20. Such a stacking unit 30 has a mounting plate 32 and an edge member 34, and the mounting plate 32 and the edge member 34 are formed of a plate-like member made of a member containing resin.

  Further, as shown in FIG. 2, the end portion of the conveyor 22 on the side close to the stacking portion 30 (that is, the end portion on the left side in FIG. 2) protrudes to the stacking portion 30 side beyond the edge member 34. It is supposed to be. As a result, the sheet-like sheets conveyed by the conveyance unit 20 can be reliably accumulated in the accumulation unit 30.

  Further, the mounting plate 32 is configured such that the mounting surface thereof is inclined toward the transport unit 20 (that is, a state inclined obliquely downward in FIG. 2). Thereby, the movement of the sheet-like sheet conveyed by the conveyance unit 20 in the direction in which the edge member 34 is present (that is, the movement in the right direction in FIG. 2) is performed by its own weight. Further, with such a configuration, the sheet-like sheets conveyed from the conveying unit 20 to the accumulating unit 30 are accumulated with their lower ends in contact with the edge member 34. Therefore, even when a plurality of sheet-like sheets are stacked on the stacking unit 30, they can be stacked on the stacking unit 30 in a clean state in which the end portions of each sheet-shaped sheet are aligned. . Since the mounting plate 32 and the edge member 34 are made of a resin plate, as described above, when the sheet-like sheet is paper or the like, the mounting plate 32 and the edge member 34 and the sheet-like sheet are used. The sliding with the sheet is particularly good, and the sheet-like sheet is more accurately collected on the stacking unit 30.

  Further, the stacking unit 30 is provided with a mounting plate adjusting mechanism (not shown) for adjusting the angle of the mounting plate 32 with respect to the horizontal plane. Here, in the stacking unit 30, since the sheet-like sheet is positioned by its own weight, the inclination angle of the mounting plate 32 with respect to the horizontal plane is set to a predetermined value corresponding to the type of the sheet-like sheet. By adjusting the value, it is possible to more accurately collect the sheet-like sheets in the stacking unit 30.

  Next, with reference to FIGS. 1 to 3, a method of stacking sheet-like sheets discharged by cutting a strip-shaped sheet sent from an external apparatus using the sheet stacking apparatus 1 having such a configuration will be described. It explains using. Note that the sheet stacking apparatus 1 according to this embodiment can also be applied to an external apparatus in which a sheet-like sheet is directly discharged from the discharge port of the external apparatus.

  First, a belt-like sheet discharged intermittently or continuously from a printer or the like is placed on the placement plate 12 of the temporary holding unit 10 to temporarily hold it in the temporary holding unit 10. As a result, the ink used for printing the belt-like sheet can be dried more reliably. Then, after the belt-shaped sheet having a predetermined length is sent to the temporary storage unit 10, the belt-shaped sheet is cut in the width direction by a cutting member such as a cutter incorporated in the external device. A single sheet is discharged.

  When the detection unit (that is, the first limit switch 41) detects that the sheet-like sheet has been discharged from the external device, the pair of left and right delivery rollers 14 provided in the temporary storage unit 10 is predetermined. It is driven only for the time. Then, the sheet-like sheet discharged from the external device is sent to the transport unit 20 while being guided by the delivery guide plate 16 (see FIG. 1).

  Next, the sheet-like sheet sent to the transport unit 20 is transported toward the stacking unit 30 (that is, in the left direction in FIG. 2) by the conveyor 22 and the transport rollers 24 and 25. At this time, the sheet-like sheet conveyed by the conveying unit 20 is applied with a force in a direction in which the sheet is pressed against the sheet guide member 28 by the conveying rollers 24 and 25. Thereby, the sheet-like sheet conveyed by the conveyance unit 20 is bent along the shape of the sheet guide member 28 along a plane orthogonal to the conveyance direction of the sheet-like sheet (see FIG. 3). When the sheet-like sheet discharged from the external device is curved so as to protrude upward in the vertical plane along the conveyance direction, the sheet guide member 28 having a shape as shown in FIG. 3 is used. Thus, the curvature of the sheet-like sheet is corrected and becomes a substantially flat shape.

  Then, the sheet-like sheet having a substantially flat shape is conveyed from the conveyance unit 20 to the stacking unit 30. Then, positioning using the dead weight of the sheet-like sheet is performed on the stacking unit 30, and the sheet-like sheet is aligned with the lower end thereof in contact with the edge member 34 provided in the stacking unit 30. By neatly accumulating (see FIG. 1), the sheet accumulating operation using the sheet accumulating apparatus 1 for accumulating the sheet-like sheets is completed.

  According to the sheet stacking apparatus 1 configured as described above and the sheet stacking method using such a sheet stacking apparatus 1, the temporary storage unit 10, the transport unit 20, and the stacking unit 30 are defined as external devices such as a printer. The sheet stacking apparatus 1 is provided separately and can be easily separated from the external apparatus. Therefore, the external device that can be interlocked with the sheet stacking apparatus 1 is not limited to one specific external device. That is, according to the sheet stacking apparatus 1 described above, it is possible to stack a plurality of types of sheet-like sheets discharged from an external apparatus such as an existing printer. Further, since the conveyance unit 20 includes the sheet guide member 28 for guiding the sheet-like sheet conveyed by the conveyance unit 20 to bend, the sheet-like sheet discharged from the external device is curved. Even in this case, the sheet can be neatly accumulated on the accumulation unit 30. Furthermore, by holding the sheet sent from the external device in the temporary holding unit 10, it is possible to more reliably dry the ink or the like used for printing the sheet-like sheet.

  The sheet stacking apparatus 1 according to the present embodiment is not limited to the above-described mode, and various changes can be made.

  For example, in the sheet stacking apparatus 1 according to the present embodiment, the pair of left and right delivery rollers 14 are provided so that each of the rollers constituting the delivery roller 14 is positioned in the vicinity of both side edges of the sheet-like sheet. May be. In this case, the delivery roller 14 comes into contact only with positions near both side edges of the sheet-like sheet. Further, since the rollers are paired on the left and right, the sheet-like sheet can be reliably conveyed to the conveying unit 20 without being skewed with respect to the sheet-conveying direction of the sheet-like sheet. . In this case, a mechanism that can adjust the distance between the rollers may be provided.

  Further, the conveyance mechanism for conveying the sheet-like sheets to the stacking unit 30 is not limited to the conveyor 22 formed of an endless belt. For example, even when a mechanism including a plurality of drive rollers is used instead of the conveyor 22, a sheet-like sheet can be conveyed to the stacking unit 30.

  Moreover, each conveyance roller 24 and 25 is not limited to the structure which consists of a pair of left and right rollers. For example, a sheet-like sheet can be curved by the sheet guide member 28 even when an endless belt that is in contact with the conveyor 22 instead of the respective conveying rollers 24 and 25 is used. This sheet can be conveyed to the stacking unit 30. In this case, the endless belt has the same effect as the conveyance guide plate 27.

  Further, the shape of the sheet guide member 28 is not limited to the shape shown in FIGS. For example, when a sheet-like sheet is curved into an asymmetric shape, the shape of the right side portion of the sheet guide member 28 and the shape of the left side portion of the sheet guide member 28 are different from each other. Thus, the curvature of the sheet-like sheet curved into an asymmetric shape can be corrected.

  Further, the sheet stacking apparatus 1 according to the present embodiment may be installed in a place separated from an external apparatus and used as an apparatus for correcting the curvature of a sheet-like sheet. In this case, as described above, the operator corrects the curvature of the sheet-like sheet by placing the sheet-like sheet on the placement plate 12 and manually operating the first limit switch 41. Will be able to.

DESCRIPTION OF SYMBOLS 1 Sheet stacking apparatus 10 Temporary reservation part 12 Loading board 14 Sending roller 16 Sending guide board 18 Guide area | region 20 Conveying part 22 Conveyor 24 Conveying roller 26 Positioning member 27 Conveying guide board 28 Sheet guide member 29 Sheet guide angle adjusting member 29a 30 stacking section 32 mounting plate 34 edge member 41 first limit switch 42 gas supply section 43 regulator 44 air cylinder 45 piston 46 switch operation member 46a inclined surface 47 second limit switch

Claims (14)

A sheet stacking device for stacking sheet-like sheets discharged from an external device,
Having a detecting means for detecting that the sheet-like sheet has been discharged from the external device, and a temporary holding unit for temporarily holding the sheet sent from the external device;
A conveyance unit that conveys a sheet-like sheet sent from the temporary storage unit, wherein the sheet-like sheet conveyed by the conveyance unit is curved along a plane orthogonal to the conveyance direction of the sheet-like sheet. A transport unit having a sheet guide member for guiding
A stacking unit in which sheet-like sheets transported by the transport unit are stacked;
With
A sheet stacking device configured to deliver the discharged sheet to the conveying unit when the detection unit detects that the sheet is discharged in the temporary storage unit. .   The sheet-like sheet is discharged from the external device by cutting the belt-like sheet, and the detecting means is configured to remove the sheet-like sheet from the external device when the belt-like sheet is cut. 2. The sheet stacking apparatus according to claim 1, wherein the sheet stacking apparatus detects that the sheet has been discharged.   3. The temporary storage unit, wherein the sheet-like sheet is sent to the transport unit when a roller provided in the temporary storage unit is driven by a motor. Sheet collecting device.   The sheet stacking apparatus according to claim 3, wherein a member including a sponge is provided on an outer peripheral layer of the roller.   5. The sheet stacking apparatus according to claim 3, wherein the roller is configured to rotate only in a sheet feeding direction.   The sheet stacking apparatus according to any one of claims 3 to 5, wherein the rollers are a pair of left and right.   The sheet stacking apparatus according to claim 6, wherein a plurality of sets of the pair of left and right rollers are provided so as to be aligned along a sheet feeding direction of the sheet.   8. The temporary storage unit according to claim 1, further comprising: a delivery guide member that guides the sheet-like sheet when the sheet-like sheet is delivered to the transport unit. 9. Sheet stacking device.   The sheet stacking apparatus according to any one of claims 1 to 8, wherein an angle of the sheet guide member with respect to a sheet conveyance surface in the conveyance unit is adjustable. The sheet-like sheet discharged from the external device is curved on a vertical plane along the feeding direction from the temporary storage unit to the transport unit,
10. The sheet guide member according to claim 1, wherein the sheet guide member guides the sheet-like sheet to bend in a direction different from a direction in which the sheet-like sheet is already curved. The sheet stacking apparatus described. The sheet-like sheet discharged from the external device is curved so as to protrude upward in the vertical plane,
The sheet-like sheet is bent by being pressed against the sheet guide member by the conveying unit so as to protrude downward in a plane perpendicular to the conveying direction of the sheet-like sheet. The sheet accumulating apparatus according to 10. A sheet stacking method for stacking sheet-like sheets discharged from an external device,
Temporarily holding a sheet sent from the external device in a temporary holding unit;
A step of sending a sheet-like sheet from the temporary holding unit to the conveying unit when it is detected by the detection means provided in the temporary holding unit that the sheet is discharged from the external device;
A step of conveying a sheet-like sheet by the conveying unit, and at this time, bending the sheet guide member along a plane orthogonal to the conveyance direction of the sheet-like sheet;
A step of accumulating the sheet-like sheets conveyed by the conveyance unit in the accumulation unit;
A sheet stacking method comprising:   The sheet-like sheet is discharged from the external device by cutting the belt-like sheet, and the detection means detects that the belt-like sheet has been cut. The sheet stacking method according to claim 12. The sheet-like sheet discharged from the external device is curved on a vertical plane along the feeding direction from the temporary storage unit to the transport unit,
The sheet stacking method according to claim 12 or 13, wherein the sheet guide member guides the sheet-like sheet to bend in a direction different from a direction in which the sheet-like sheet is already curved.

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