Patent Grant
12065326
This patent application is based on and claims priority pursuant to 35 U.S.C. § 119(a) to Japanese Patent Application No. 2021-072115, filed on Apr. 21, 2021, in the Japan Patent Office, the entire disclosure of which is hereby incorporated by reference herein.
Embodiments of the present disclosure relate to a sheet conveying device and an image forming system incorporating the sheet conveying device.
As known in the art, various sheet conveying devices include a sheet stacker that contains sheets, an air blowing device that blows air to the sheets, and a guide disposed facing the uppermost sheet placed on top of the sheets in the sheet stacker.
For example, a typical sheet conveying device separates one sheet from another sheet by blowing air to a plurality of sheets by an air blowing device and conveys the separated one sheet. This sheet conveying device further includes a guide that guides the separated sheet by contacting the surface of the sheet over the given area from upstream to downstream in the conveyance direction of the sheet. The guide is inserted along a groove formed in the frame (holder) to be attached to the frame.
Embodiments of the present disclosure described herein provide a novel sheet conveying device including a sheet stacker, an air blower, a guide, and a holder. The sheet stacker stacks sheets. The air blower blows air to the sheets on the sheet stacker. The guide is disposed facing an uppermost sheet of the sheets on the sheet stacker. The holder holds the guide and has a groove along which the guide is inserted. The groove has a plurality of direction switching portions at each of which the guide changes a direction of movement when the groove receives the guide.
Further, embodiments of the present disclosure described herein provide an image forming system including the above-described sheet conveying device and an image forming apparatus that forms an image on the sheet. The sheet conveying device and the image forming apparatus are integrated as a single unit or provided separately.
Exemplary embodiments of this disclosure will be described in detail based on the following figures, wherein:
The accompanying drawings are intended to depict embodiments of the present disclosure and should not be interpreted to limit the scope thereof. The accompanying drawings are not to be considered as drawn to scale unless explicitly noted.
It will be understood that if an element or layer is referred to as being “on,” “against,” “connected to” or “coupled to” another element or layer, then it can be directly on, against, connected or coupled to the other element or layer, or intervening elements or layers may be present. In contrast, if an element is referred to as being “directly on,” “directly connected to” or “directly coupled to” another element or layer, then there are no intervening elements or layers present. Like numbers referred to like elements throughout. As used herein, the term “and/or” includes any and all combinations of one or more of the associated listed items.
Spatially relative terms, such as “beneath,” “below,” “lower,” “above,” “upper” and the like may be used herein for ease of description to describe one element or feature's relationship to another element(s) or feature(s) as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements describes as “below” or “beneath” other elements or features would then be oriented “above” the other elements or features. Thus, term such as “below” can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors herein interpreted accordingly.
The terminology used herein is for describing particular embodiments and examples and is not intended to be limiting of exemplary embodiments of this disclosure. As used herein, the singular forms “a,” “an,” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “includes” and/or “including,” when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
Referring now to the drawings, embodiments of the present disclosure are described below. In the drawings for explaining the following embodiments, the same reference codes are allocated to elements (members or components) having the same function or shape and redundant descriptions thereof are omitted below.
Next, descriptions are given of a sheet conveying device according to an embodiment of the present disclosure, and an image forming system according to an embodiment of the present disclosure, including the sheet conveying device. Note that identical parts or equivalents are given identical reference numerals and redundant descriptions are summarized or omitted accordingly.
Embodiments of the present disclosure are described below with reference to the attached drawings.
The image forming system 2 includes the sheet conveying device 1, an image forming apparatus 3, a drying device 4, and a sheet ejecting device 5, which are mutually connected. After a sheet S is fed from the sheet conveying device 1, an image is formed on the sheet S by the image forming apparatus 3. Then, the sheet S is dried by the drying device 4 to be stacked on a sheet ejection tray 5t of the sheet ejecting device 5.
The image forming system 2 may have a configuration of a known inkjet type image forming system. Further, the term “image” indicates not only an image (including a color image and a monochrome image) having meanings such as texts and figures on a recording medium but also an image having no meaning such as patterns on a recording medium. Furthermore, the term “sheet” (for example, the sheet S) has no limitation in the material, thickness, shape, size, weight, and the like. For example, the sheet is not limited to indicate a paper material but also includes a recording medium such as thread, fiber, cloth, leather, metal, synthetic resin, plastic, glass, wood, ceramics, or the like. The inkjet image forming system may be replaced with an electrophotographic image forming system in which an image is formed with toner.
The sheet conveying device 1 includes a sheet feeder 6 and a registration roller pair 7. The sheet feeder 6 and the registration roller pair 7 are disposed in an interior of a housing 1p of the sheet conveying device 1. A door is openably and closably attached to the housing 1p. On the other hand, by opening the door, the sheet feeder 6 is pulled out from the housing 1p of the sheet conveying device 1.
A stack of sheets S including the sheets S is disposed in the sheet feeder 6. The sheet feeder 6 blows air to the stack of sheets S to separate a sheet S1 that functions as a conveyance target object (for example, an uppermost sheet of the stack of sheets S) one by one from a subsequent sheet S2 of the stack of sheets S, so that the sheet S1 is fed out from the sheet feeder 6. The registration roller pair 7 conveys the sheet S (e.g., the uppermost sheet of the stack of sheets S) fed from the sheet feeder 6 to the image forming apparatus 3. Hereinafter, the sheet S1 is also referred to as the “uppermost sheet S1”. A detailed description of the sheet feeder 6 is described below.
The image forming apparatus 3 includes a receiving cylinder 8, a transfer cylinder 9, a sheet carrying drum 10, an air suction unit 11, and an ink discharge unit 12. Sheet grippers are provided on a surface of the receiving cylinder 8, a surface of the transfer cylinder 9, and an outer circumferential surface of the sheet carrying drum 10. Each of the sheet grippers grips the leading end of the sheet S (in other words, a downstream end of the sheet S in a sheet conveyance direction). The air suction unit 11 is disposed within an inner loop of the sheet carrying drum 10. A plurality of dispersed suction holes is formed on the surface of the sheet carrying drum 10. The air suction unit 11 sucks air to generate a negative pressure, so that a suction airflow directed to the interior of the sheet carrying drum 10 is generated in each of the plurality of dispersed suction holes.
The ink discharge unit 12 is disposed facing (opposing) the surface of the sheet carrying drum 10. The ink discharge unit 12 is configured to discharge inks of four colors of cyan (C), magenta (M), yellow (Y), and black (K). The ink discharge unit 12 includes ink discharge heads 12K, 12Y, 12M, and 12C for each of the four color inks. The ink discharge heads 12K, 12Y, 12M, and 12C are separate units and controlled to discharge the respective inks of four colors toward the surface of the sheet carrying drum 10.
According to this configuration, after the sheet S has been fed out from the sheet conveying device 1 to the sheet carrying drum 10, while the sheet gripper of the receiving cylinder 8 grips the leading end of the sheet S, the sheet S is conveyed to the sheet carrying drum 10 as the receiving cylinder 8 rotates. After the sheet S has been conveyed to the sheet carrying drum 10, the sheet gripper of the sheet carrying drum 10 grips the leading end of the sheet S. At this time, the suction airflow described above is generated on the circumferential surface of the sheet carrying drum 10 (specifically, on the plurality of suction holes in the circumferential surface of the sheet carrying drum 10). According to this configuration, while being attracted by suction airflow on the plurality of suction holes of the circumferential surface of the sheet carrying drum 10, the sheet S is conveyed as the sheet carrying drum 10 rotates (in other words, as the circumferential surface of the sheet carrying drum 10 moves).
While the sheet S is conveyed along the plurality of suction holes of the surface of the sheet carrying drum 10, the ink discharge heads 12K, 12Y, 12M, and 12C are controlled. Respective inks are discharged from the ink discharge heads 12K, 12Y, 12M, and 12C toward the circumferential surface of the sheet S. According to this ink discharge, an image corresponding to image information set in advance is formed on the circumferential surface of the sheet S. Thereafter, the leading end of the sheet S reaches the transfer cylinder 9. At this time, the transfer cylinder 9 is driven at a given timing set in advance. Thus, the sheet S is conveyed to the drying device 4 along with movement of the surface of the transfer cylinder 9 while the leading end of the sheet S is gripped by the transfer cylinder 9.
The drying device 4 includes a conveyance unit 13 and a drying unit 14. According to this configuration, the sheet S conveyed to the drying device 4 is dried by the drying unit 14 while being conveyed by the conveyance unit 13. After the drying operation is performed, the sheet S is conveyed to the sheet ejecting device 5. During this sheet conveyance, curling (deformation due to curvature) of the sheet S is prevented. The sheets S conveyed from the drying device 4 are sequentially collected and stored in the sheet ejection tray 5t.
In
The sheet stacker 15 includes a sheet replenishment opening 15a and a sheet containing portion 15b. The sheet replenishment opening 15a is open at an upper side of the sheet stacker 15 when viewed from the vertical direction Da and an upstream side (trailing end) of the sheet stacker 15 when viewed from the sheet conveyance direction Dc, penetrating the top side and the upstream side (trailing end) mutually in a rectangular shape. The sheet containing portion 15b receives the plurality of sheets S from the sheet replenishment opening 15a. In other words, the plurality of sheets S are inserted into the sheet stacker 15 through the sheet replenishment opening 15a. A pair of side walls 18 and a sheet feed tray 19 are provided in the sheet containing portion 15b.
The guide mechanism 16 is rotatably disposed with respect to the sheet stacker 15.
When the sheet S is conveyed, the guide mechanism 16 prevents the rise of the uppermost sheet S1 (see
The guide mechanism 16 includes a frame 20 and guides 21. The frame 20 functions as a holder. The frame 20 has a hollowed rectangular shape and is coupled to the sheet stacker 15 of the sheet feeder 6 via hinge mechanisms 22 (to be more specific, two hinge mechanisms 22). The frame 20 is disposed so as to cover the upper side of the sheet replenishment opening 15a (sheet containing portion 15b) described above. The two hinge mechanisms 22 are interposed between one side of the frame 20 (second connecting portion 25b described below) and the sheet stacker 15.
As illustrated in
The first support 24a is disposed on the upstream side in the sheet conveyance direction Dc. The second support 24b is disposed on the downstream side in the sheet conveyance direction Dc. Specifically, the first support 24a is disposed upstream from the second support 24b in the sheet conveyance direction Dc. In other words, the second support 24b is disposed downstream from the first support 24a in the sheet conveyance direction Dc. The first support 24a and the second support 24b are disposed extending in the width direction Db and facing in parallel with each other when viewed from the sheet conveyance direction Dc. The first support 24a and the second support 24b have both ends (in other words, one end and an opposite end) and have shapes identical to each other with the same dimension (lengths).
The two connecting portions, which are the first connecting portion 25a and the second connecting portion 25b, are disposed between the first support 24a and the second support 24b. In this case, the first connecting portion 25a is mutually connected to one end of the first support 24a and one end of the second support 24b. The second connecting portion 25b is mutually connected to the opposite end of the first support 24a and the opposite end of the second support 24b. The first connecting portion 25a and the second connecting portion 25b are disposed extending in the sheet conveyance direction Dc and facing in parallel with each other when viewed from the width direction Db. The first connecting portion 25a and the second connecting portion 25b are mutually set to have the same dimensions (lengths) and the same shapes.
The reinforcement member 26 is disposed between the first connecting portion 25a and the second connecting portion 25b. In other words, the reinforcement member 26 is disposed at a position where the first support 24a and the second support 24b are divided into two equal parts in the width direction Db and extend along the sheet conveyance direction Dc.
An end fence 27 is disposed on the reinforcement member 26 of the frame 20. One end of the end fence 27 is supported by the reinforcement member 26 via a rotary shaft 27a and the opposite end of the end fence 27 extends downward along the vertical direction Da. The end fence 27 is configured to reciprocate along the reinforcement member 26. The end fence 27 is moved while the plurality of sheets S is contained in the sheet containing portion 15b. Due to such a configuration, the trailing end of the sheet S (upstream side end in the sheet conveyance direction Dc) is aligned by the end fence 27.
Further, the frame 20 includes a plurality of receiving portions (i.e., first receiving portions 23a and second receiving portions 23b). Each of the first receiving portions 23a and the second receiving portions 23b functions as a plurality of receiving portions and supports each guide 21 to be detachably attachable to the frame 20. Each of the first receiving portions 23a has a groove into which one longitudinal end of a guide 21 is inserted. The first receiving portions 23a are disposed along the first support 24a. Each of the second receiving portions 23b has a groove into which the opposite longitudinal end of the guide 21 is inserted. The second receiving portions 23b are disposed along the second support 24b. Both receiving portions, i.e., the first receiving portions 23a and the second receiving portions 23b, are disposed along the width direction Db that intersects the sheet conveyance direction Dc. In
The first receiving portions 23a and the second receiving portions 23b are aligned along the sheet conveyance direction Dc and disposed facing each other. Each guide 21 includes a first hook 21a and a second hook 21b, for example. Details of the first hook 21a and the second hook 21b are described below. The first hook 21a and the second hook 21b of the guide 21 are inserted into and placed on the first receiving portion 23a and second receiving portion 23b aligned each other along the sheet conveyance direction Dc. By so doing, the guides 21 are attached to the first receiving portions 23a and the second receiving portions 23b. As a result, the guides 21 are disposed along the sheet conveyance direction
Dc.
As described above, the sheet feeder 6 is included in the housing 1p of the sheet conveying device 1, together with the frame 20 supporting the guides 21. The operator opens the housing 1p of the sheet conveying device 1 to pull out (detach) the sheet feeder 6 together with the frame 20, from the housing 1p to the outside of the sheet conveying device 1.
When setting a plurality of sheets S in the sheet containing portion 15b, the operator firstly pulls out (detach) the sheet feeder 6 to the outside of the housing p1 of the sheet conveying device 1, and then rotates the frame 20 together with the guides 21 by the hinge mechanisms 22 to open the sheet replenishment opening 15a (sheet containing portion 15b). Then, the operator supplies the plurality of sheets S into the sheet containing portion 15b through the sheet replenishment opening 15a. As a result, the plurality of sheets S supplied to the sheet containing portion 15b are stacked and contained in the sheet feed tray 19 between the pair of side walls 18.
At this time, the torque of each hinge mechanism 22 is applied in the downward direction alone along with the aid of gravity of the frame 20. For this reason, when the sheet S is set on the sheet feed tray 19 with the sheet replenishment opening 15a (sheet containing portion 15b) open, the frame 20 does not close even if the operator releases the hand from the frame 20. According to this configuration, the setting operation is performed easily.
Then, the frame 20 is rotated by the hinge mechanisms 22 to close the sheet replenishment opening 15a (sheet containing portion 15b). Thereafter, the operator puts the sheet feeder 6, together with the frame 20 supporting the guides 21, in the housing 1p of the sheet conveying device 1, and then close the cover of the housing 1p. Accordingly, the sheet feeder 6 is placed in the housing 1p of the sheet conveying device 1 again.
As described above, the frame 20 of the present embodiment is rotated by the hinge mechanisms 22 to close the sheet replenishment opening 15a (sheet containing portion 15b), so that the guides 21 are disposed at the facing position facing the uppermost sheet S1 of the plurality of sheets contained in the sheet containing portion 15b. Further, rotation of the frame 20 by the hinge mechanisms 22 to open the sheet replenishment opening 15a (sheet containing portion 15b) allows the guides 21 to move from the facing position to a retreated position.
In the present embodiment, the end fence 27 is disposed on the reinforcement member 26 of the frame 20. Due to such a configuration, both a process to retreat the end fence 27 from the sheet replenishment opening 15a (sheet containing portion 15b) and another process to open the sheet replenishment opening 15a (sheet containing portion 15b) are performed simultaneously with a single rotation of the frame 20.
Each of the first receiving portions 23a has a groove vertically recessed from the upper end to the lower end of a part of the first support 24a, when viewed form the vertical direction Da. Similarly, each of the second receiving portions 23b has a groove vertically recessed from the upper end to the lower end of a part of the second support 24b, when viewed from the vertical direction Da. Each of the receiving portions, i.e., the first receiving portions 23a and the second receiving portions 23b, has the upper end that is open and the lower end that is closed, when viewed from the vertical direction Da.
According to this configuration, the first hook 21a and the second hook 21b of each guide 21 are inserted from the upper end that is open, to the first receiving portion (groove) 23a and the second receiving portion (groove) 23b. Then, the first hook 21a and the second hook 21b of each guide 21 are inserted into the first receiving portion (groove) 23a and the second receiving portion (groove) 23b until the first hook 21a and the second hook 21b of each guide 21 come into contact with the lower end of the first receiving portion (groove) 23a and the second receiving portion (groove) 23b, so that the first hook 21a and the second hook 21b of each guide 21 are placed on the first receiving portion (groove) 23a and the second receiving portion (groove) 23b. As a result, the guides 21 are hold by the frame 20 via the first receiving portions 23a and the second receiving portions 23b.
Each of the guides 21 has a sheet contact portion 21p and the hooks (i.e., the first hook 21a and the second hook 21b). In the example illustrated in
The entire length of each guide 21 (that is, the entire length of the sheet contact portion 21p) is set in correspondence with the entire length in the sheet conveyance direction Dc of the sheet S contained in the sheet containing portion 15b. Specifically, the entire length of the sheet contact portion 21p is set to contact throughout the entire length of the surface of the uppermost sheet S1, which functions as a conveyance target object, from an upstream area are (i.e., the trailing end of the uppermost sheet S1) to a downstream area (i.e., the leading end of the uppermost sheet S1) in the sheet conveyance direction Dc. Here, the term “upstream area” is a concept including an area between the trailing end of the uppermost sheet S1 in the sheet conveyance direction Dc and the center of the uppermost sheet S1, and the term “downstream area” is a concept including an area between the leading end of the uppermost sheet S1 and the center of the uppermost sheet S1 in the sheet conveyance direction Dc. Note that, instead of the configuration according to the present embodiment, each guide 21 may be set to contact the uppermost sheet S1, functioning as a conveyance target object of the plurality of sheets S contained in the sheet containing portion 15b, from the upstream area to the center of the uppermost sheet S1 in the sheet conveyance direction Dc.
The first hook 21a is integrated with the one end of the sheet contact portion 21p. The first hook 21a is bent toward the opposite end of the sheet contact portion 21p (i.e., the second hook 21b). On the other hand, the second hook 21b is integrated with the opposite end of the sheet contact portion 21p. The second hook 21b is bent toward the opposite end of the sheet contact portion 21p (i.e., the first hook 21a). The first hook 21a and the second hook 21b of each guide 21 are set to have the same shape and diameter as the sheet contact portion 21p.
In the present embodiment, the first hook 21a is inserted into and placed on the first receiving portion 23a of the first support 24a and the second hook 21b is inserted into and placed on the second receiving portion 23b of the second support 24b. As a result, each sheet contact portion 21p is supported by the first support 24a and the second support 24b via the first hook 21a and the second hook 21b, respectively, and each guide 21 is supported by the frame 20. That is, the guide 21 is suspended by the first receiving portion 23a and the second receiving portion 23b.
In the above-described state, the guide 21 maintains the posture in which the guide 21 hangs down with the own weight along the vertical direction Da (also referred to as the direction of gravitational force). In other words, the guide 21 maintains the posture in which the sheet contact portion 21p is positioned immediately below the first hook 21a and the second hook 21b, when viewed from the direction of gravitational force. At this time, the guide 21 (specifically, the sheet contact portion 21p) is disposed parallel to the surface of the uppermost sheet S1 (conveyance target object) of the plurality of sheets S contained in the sheet containing portion 15b and is disposed parallel to the sheet conveyance direction Dc. As an example illustrated in
The rotational motion 21r of the guide 21 is assumed, for example, to be a rotational motion rotating about a virtual axis 21f extending along the sheet conveyance direction Dc (for example, an axis extending both the first hook 21a and the second hook 21b in the sheet conveyance direction Dc). The reciprocating motion 21m of the guide 21 is assumed, for example, to be a reciprocating motion moving, at sheet feeding, along a direction in which the uppermost sheet S1 (conveyance target object object) separates from the subsequent sheet S2 in the sheet feeder 6 (in other words, along a thickness direction intersecting or perpendicular to the surface of the uppermost sheet S1). In this case, the reciprocating motion 21m of the guides 21 corresponds to a reciprocating motion in which the sheet contact portion 21p lifts or lowers, viewed from the vertical direction Da, when the first hook 21a and the second hook 21b rotate about the virtual axis 21f (line of axis).
To be more specific, the positional change of each of the guides 21 (movement of each of the guides 21 by the rotational motion 21r or the reciprocating motion 21m) described above is likely to occur depending on types (for example, the thickness and the weight) of the uppermost sheet S1 (conveyance target object). For example, if the uppermost sheet S1 functioning as a conveyance target object is a lightweight, thin sheet, the position of the guide 21 in contact with the uppermost sheet S1 does not change. In other words, since the pressing force from the lightweight, thin sheet S1 applies small pressing force to the guide 21, the guide 21 is maintained in the initial hanging posture without changing the position. By contrast, if the uppermost sheet S1 functioning as a conveyance target object is a heavyweight, thick sheet, the position of the guide 21 in contact with the uppermost sheet S1 changes. In other words, since the pressing force from the heavyweight, thick sheet S1 applies large pressing force to the guide 21, the guide 21 performs the rotational motion 21r about the virtual axis 21f or the reciprocating motion 21m along the thickness direction.
As illustrated in
As illustrated in
The air blowing device 28 functioning as an air blower includes a housing 28a and a nozzle 28b. The housing 28a supplies compressed air to the nozzle 28b. The nozzle 28b blows air supplied from the housing 28a. In the example of
The air suction device 29 includes an attraction belt 29a in a form of an endless loop, a pair of rollers including, for example, a drive roller 29b and a driven roller 29c, and an air suction unit 29d. The attraction belt 29a is wound around the pair of rollers, that is, the drive roller 29b and the driven roller 29c. The attraction belt 29a has a plurality of suction holes that are scattered over the entire surface. The plurality of suction holes penetrate through the attraction belt 29a in the thickness direction. In this case, for example, as the drive roller 29b rotates, the attraction belt 29a is moved in the sheet conveyance direction. The air suction unit 29d is disposed inside the loop of the attraction belt 29a and between the pair of rollers, that is, the drive roller 29b and the driven roller 29c. The air suction unit 29d generates the negative pressure to the lower side of the attraction belt 29a (in other words, the area facing the uppermost sheet S1 of the plurality of sheets S contained in the sheet containing portion 15b), when viewed from the vertical direction Da. By generating the negative pressure to the lower side of the attraction belt 29a, suction airflow is generated from each suction hole toward the attraction belt 29a.
The group of sheet feed rollers 30 includes a pair of conveyance rollers, for example, including conveyance rollers 30a and 30b. The pair of conveyance rollers, i.e., the conveyance rollers 30a and 30b in contact with each other, rotates in opposite directions to each other. By so doing, the sheet S that has reached the pair of conveyance rollers including the conveyance rollers 30a and 30b is conveyed toward the registration roller pair 7 (see
In the present embodiment, for example, while the attraction belt 29a is moving, the negative pressure is generated to the lower side of the attraction belt 29a. While the negative pressure is generated to the lower side of the attraction belt 29a, air is blown from the nozzle 28b to the uppermost sheet S1 at the sheet conveyance start position and the subsequent sheet S2 near the uppermost sheet S1 of the plurality of sheets S. By so doing, the uppermost sheet S1 of the plurality of sheets S contained in the sheet containing portion 15b (in other words, the uppermost sheet S1 (conveyance target object) is separated to rise from the subsequent sheet S2. Thus, the uppermost sheet S1 (conveyance target object) alone is attracted to the attraction belt 29a.
In this state, the attraction belt 29a is moved. With the movement of the attraction belt 29a, the uppermost sheet S1 (conveyance target object) is fed out toward the group of sheet feed rollers 30. Then, when the leading end of the uppermost sheet S1 (conveyance target object) reaches the pair of conveyance rollers (for example, the conveyance rollers 30a and 30b), the conveyance rollers 30a and 30b start rotating. As a result, the uppermost sheet S1 (conveyance target object) is conveyed to the image forming apparatus 3 via the registration roller pair 7 described above.
According to the present embodiment, the guide mechanism 16 includes the guides 21 that contact the surface of the uppermost sheet S1 (conveyance target object) over the area from the upstream area to the downstream area in the sheet conveyance direction Dc to guide the uppermost sheet S1. In this case, the uppermost sheet S1 (conveyance target object) is guided by the guides 21 while contacting over the given area from upstream to downstream of the uppermost sheet S1, when viewed from the sheet conveyance direction Dc. Due to such a configuration, the uppermost sheet S1 (conveyance target object) is prevented from rising as indicated by broken lines in
It is preferable that the guides 21 guide the uppermost sheet S1 while contacting the surface of the uppermost sheet S1 over an area from at least the upstream area to the center of the uppermost sheet S1 in the sheet conveyance direction Dc. It is more preferable that the above-described given area is the downstream area of the uppermost sheet S1 (i.e., the leading end of the uppermost sheet S1) in the sheet conveyance direction Dc. It is much more preferable that the guides 21 are provided further upstream of the uppermost sheet S1 in the sheet conveyance direction Dc from the trailing end (end of the upstream side) of the uppermost sheet S1 in the sheet conveyance direction Dc.
Further, it is preferable that the guides 21 are parallel to the surface of the uppermost sheet S1 contained in the sheet containing portion 15b and parallel to the sheet conveyance direction Dc of the uppermost sheet S1. As a result, while maintaining the posture of the uppermost sheet S1 rising by air blown by the air blowing device 28, the uppermost sheet S1 is conveyed toward a downstream sheet conveyance passage in which the group of sheet feed rollers 30 is disposed, without causing skew or other failure.
The guide mechanism 16 according to the present embodiment has functions capable of changing the position to cause the guide 21 to change the position of the guide 21 with the rotational motion 21r and the reciprocating motion 21m. In this case, when each guide 21 performs the rotational motion 21r, the sheet contact portion 21p rotates about the virtual axis 21f. Further, when each guide 21 performs the reciprocating motion 21m, the sheet contact portion 21p moves vertically, when viewed from the vertical direction Da. By so doing, the uppermost sheet S1 (conveyance target object) is separated from the subsequent sheet S2 by an optimal distance, so that the uppermost sheet S1 is held at a position to be conveyed easily and is positioned parallel to the sheet conveyance direction Dc. As a result, the uppermost sheet S1 separated by air from the subsequent sheet S2 is significantly enhanced in the conveyance accuracy or conveyance stability.
In the frame 20 of the present embodiment, a plurality of guides 21 (four guides 21 in
For example, when a sheet S having a relatively long width is contained in the sheet feeder 6 as illustrated in
As described above, in the present embodiment, the operator performs an operation of changing the positions of the guides 21 with respect to the plurality of receiving portions (grooves), i.e., the first receiving portions (grooves) 23a and the second receiving portions (grooves) 23b formed in the frame 20. To facilitate this operation of changing the positions of the guides 21, the guides 21 may be attached by inserting into the first receiving portions 23a and the second receiving portions 23b to which the guides 21 are to be attached and may be detached by pulling off from the first receiving portions 23a and the second receiving portions 23b along the grooves.
However, such facilitation of changing the positions of the guides 21 was likely to cause the guides 21 to come off from the first receiving portions 23a and the second receiving portions 23b of the frame 20. Particularly, as illustrated in
As illustrated in
However, in insertion and removal of the guide 21 with respect to the first receiving portion 23a having such a shape of a groove, when external force is applied to move the guide 21 that is inserted into the first receiving portion 23a until the guide 21 contacts the lower end 23e of the first receiving portion 23a, toward the opening 23s, the guide 21 easily moves to the opening 23s and comes off to fall from the frame 20. Particularly, as described above, when the frame 20 is rotated by the hinge mechanisms 22 to leave the sheet replenishment opening 15a open, the direction of extension of the groove directs substantially horizontally. Due to such a configuration, the guides 21 are likely to slip in the groove to fall from the openings 23s of the groove, resulting in coming off from the first receiving portions 23a and the second receiving portions 23b of the frame 20.
In the present embodiment, of the receiving portions of the frame 20, each of the second receiving portions 23b functions as a second groove. Each second receiving portion 23b has a plurality of direction switching portions. Each direction switching portion causes the guide 21 to change the direction of movement of the guide 21 when the guide 21 is inserted into the second receiving portion 23b.
When a single direction switching portion is provided with the groove of the second receiving portion 23b, the following exemplary convenience is likely to occur.
In consideration of easy insertion and removal of the guide 21 with respect to the groove of the second receiving portion 23b, it is preferable to satisfy a condition that the groove portion near the opening extending downward from the opening 23s of the groove has a shape extending linearly in a direction close to the vertical direction with the frame 20 closed. Further, considering the reciprocating motion 21m of the guide 21 when guiding the uppermost sheet S1, it is preferable to satisfy a condition that the groove portion near the lower end extending upward from the lower end 23e of the groove has a shape extending linearly in a direction close to the vertical direction with the frame 20 closed. When the groove shape has a single direction switching portion, one of these conditions is satisfied, in other words, not both of the conditions are satisfied. If the groove is to satisfy both conditions, the angle of the direction switching portion becomes too shallow, the overall shape of the groove becomes close to a straight line, and the guide 21 easily falls off from the frame 20.
On the other hand, when a plurality of direction switching portions are provided in the groove of the second receiving portion 23b, it is easy to satisfy both of the above-described conditions while preventing the guide 21 from falling off from the frame 20. For example, as illustrated in
In addition, since the two bent portions 23t1 and 23t2 are bent at right angles, the guide 21 is less likely to fall off from the frame 20.
Specifically, when the guide 21 the guide 21 that is inserted into the second receiving portion 23b until the guide 21 contacts the lower end 23e of the second receiving portion 23b, toward the opening 23s, along the groove portion near the lower end 23e, the wall surface of the bent portion 23t2 contacts the guide 21 at a right angle. Due to such a configuration, the guide 21 does not slide on the wall surface of the bent portion 23t2 to move toward the opening 23s of the second receiving portion 23b due to the force of the guide 21 that comes along the groove portion near the lower end 23e of the groove of the second receiving portion 23b.
Even if the guide 21 in contact with the wall surface of the bent portion 23t2 moves toward the bent portion 23t1, the wall surface of the bent portion 23t1 contact the guide 21 at a right angle. Due to such a configuration, the guide 21 does not slide on the wall surface of the bent portion 23t1 to move toward the opening 23s of the second receiving portion 23b due to the force of the guide 21 that comes toward the bent portion 23t1.
Moreover,
In the present embodiment, of the bent portions 23t1 and 23t2, the bent portion 23t2 on the lower end 23e of the second receiving portion 23b is bent upward with respect to the direction of extension of the portion near the lower end 23e of the groove when the frame 20 is rotated by the hinge mechanisms 22 to open the sheet replenishment opening 15a (sheet containing portion 15b) as illustrated in
As described above, in the present embodiment, as illustrated in
Note that the two bent portions 23t1 and 23t2 in the example of
Specifically,
As illustrated in
Further, two bent portions, which are the bent portions 23t1 and 23t2, are provided in the groove of the second receiving portion 23t1 in the example of
Specifically,
As illustrated in
Further, in the present embodiment, the first receiving portion 23a positioned upstream from the second receiving portion 23b in the sheet conveyance direction Dc is not provided with such a bent portion as the direction switching portion and is formed in a shape extending linearly from the opening 23s corresponding to the upper end of the groove, to the lower end 23e of the groove. However, to be similar to the second receiving portion 23b, the first receiving portion 23a may also have a plurality of bent portions as direction switching portions. However, in order to prevent the guide 21 from falling from the frame 20, it is usually sufficient to provide a plurality of bent portions as direction switching portions in either one of the first receiving portion 23a and the second receiving portion 23b holding both ends of the guide 21.
Rather, when the bent portions as the plurality of direction switching portions are provided in both the first receiving portion 23a and the second receiving portion 23b, it is difficult to insert both ends of the guide 21 to the lower end 23e of the groove of each of the first receiving portion 23a and the second receiving portion 23b. Similarly, it is difficult to remove both ends of the guide 21 from the opening 23s of each of the first receiving portion 23a and the second receiving portion 23b. Therefore, as in the present embodiment, it is preferable that a plurality of bent portions as direction switching portions are provided on the second receiving portion 23b to prevent the guide 21 from falling from the frame 20 and a linear groove shape is employed to the first receiving portion 23a to facilitate the operation of insertion and removal of the guide 21. However, even in this case, it is preferable to provide a cover so that the guide 21 is not easily detached from the first receiving portion 23a having a linear shape of the groove.
In the present embodiment, a cover 31 that covers the openings 23s of the first receiving portions 23a is provided for the frame 20 and is fixed to the frame 20 by screws 32. The cover 31 includes a frame portion 31a having high rigidity and an elastic member 31b. The elastic member 31b includes sponge or rubber and covers the openings 23s of the first receiving portions 23a. To be specific, since the frame portion 31a and the first support 24a of the frame 20 are separated from each other as illustrated in
By providing the cover 31 as described above, even if the first receiving portion 23a has a linear groove shape, the guide 21 does not come off from the first receiving portion 23a. Therefore, even when the guide 21 is pushed and lifted by the floating uppermost sheet S1, the guide 21 is prevented from falling from the frame 20.
Further, when the operator opens the frame 20 by rotating the frame 20 with the hinge mechanisms 22, the operator may grip the first support 24a in which the first receiving portion 23a is formed. At this time, when the cover 31 is not provided and the openings 23s of the first receiving portions 23a are exposed on the upper face of the first support 24a, it is likely that the operator may hit the finger or fingers against the edge of the opening 23s to hinder the operability. By providing the cover 31 as in the present embodiment, the operator is protected from hitting the finger or fingers against the edge of the opening 23s of the first receiving portion 23a.
Further, in the present embodiment, since the elastic member 31b functions as a portion that covers the openings 23s of the grooves of the first receiving portions 23a, when it is desired to change the position of the guide 21 to a different one of the rest of the first receiving portions 23a, the position of the guide 21 is allowed to be changed while the cover 31 is fixed. That is, when the operator lifts the guide 21 by the end attached to the first receiving portion 23a, the elastic member 31b is deformed by the guide 21, and the guide 21 is pulled up from the opening 23s of the first receiving portion 23a. Then, by moving the elastic member 31b between the first support 24a of the frame 20 and the elastic member 31b while deforming the elastic member 31b, the guide 21 is moved to the opening 23s of the different one of the rest of the first receiving portions 23a and inserted into the lower end 23e of the groove of the different one of the rest of the first receiving portions 23a. By so doing, the position of the guide 21 is changed.
A description is given of an example of the specific procedures of changing the position of the guide 21.
In the present embodiment, as illustrated in
As illustrated in
As illustrated in
As described above, the second receiving portion 23b to which the opposite end of the guide 21 is attached has a shape of the groove including the two bent portions 23t1 and 23t2. Since this second receiving portion 23b has the shape of the groove including the two bent portions 23t1 and 23t2, when rotating the guide 21, the operator handles the one end of the guide 21 so that the opposite end of the guide 21 moves along the groove shape to come out from the opening 23s. The openings 23s of the second receiving portions 23b are not covered by, for example, a cover such as the cover 31 and are left open. Therefore, it is easy to handle the one end of the guide 21, remove the opposite end of the guide 21 from the opening 23s of the second receiving portion 23b, and move the guide 21 to the opening 23s of a different one of the rest of the second receiving portions 23s.
When the opposite end of the guide 21 is moved to the opening 23s of the different one of the rest of the second receiving portions 23b, the operator handles the one end of the guide 21 to move the opposite end of the guide 21 from the opening 23s to the lower end 23e of the different one of the rest of the second receiving portions 23b. Since this second receiving portion 23b also has a shape of the groove including two bent portions 23t1 and 23t2, the operator handles one end of the guide 21 so that the opposite end of the guide 21 moves along the groove shape and reaches the lower end 23e.
Next,
As indicated by arrow B in
As illustrated in
In
The image forming device 54 is a tandem image forming apparatus in which a plurality of image forming units 54Y, 54M, 54C, and 54K that correspond to yellow (Y), magenta (M), cyan (C), and black (K) colors, respectively, are arranged along the rotational direction of an intermediate transfer belt 65 that serves as an intermediate transferor. The image forming units 54Y, 54M, 54C, and 54K are provided with a plurality of photoconductors 55Y, 55M, 55C, and 55K that serve as latent-image bearers, respectively. The image forming device 54 further includes image forming components, which are charging devices 56Y, 56M, 56C, and 56K, developing devices 57Y, 57M, 57C, and 57K, cleaning devices 58Y, 58M, 58C, and 58K, primary transfer units 66Y, 66M, 66C, and 66K, and an optical writing device 59. Each of the charging devices 56Y, 56M, 56C, and 56K functions as a charger that uniformly charges the surface of corresponding one of the photoconductors 55Y, 55M, 55C, and 55K at a predetermined level of electrical potential. The optical writing device functions as an electrostatic latent image forming unit that expose the surface of corresponding one of the photoconductors 55Y, 55M, 55C, and 55K and writes an electrostatic latent image on the surface of the corresponding one of the photoconductors 55Y, 55M, 55C, and 55K whose surfaces have been uniformly charged by the charging devices 56Y, 56M, 56C, and 56K according to the image data. Each of the developing devices 57Y, 57M, 57C, and 57K forms a toner image through the developing process in which toner of corresponding one of the yellow (Y), magenta (M), cyan (C), and black (K) colors is made adhered to the electrostatic latent image formed on the corresponding one of the photoconductors 55Y, 55M, 55C, and 55K. Each of the primary transfer units 66Y, 66M, 66C, and 66K functions as a primary transfer unit that transfers the toner image formed on each one of the photoconductors 55Y, 55M, 55C, and 55K onto the intermediate transfer belt 65. Each of the cleaning devices 58Y, 58M, 58C, and 58K functions as a cleaner that removes and cleans the transfer residual toner remaining on each one of the photoconductors 55Y, 55M, 55C, and 55K.
The color toner images that are formed on the respective photoconductors 55Y, 55M, 55C, and 55K are primarily transferred onto the intermediate transfer belt 65 by the primary transfer units 66Y, 66M, 66C, and 66K in the primary transfer process so as to be superimposed on top of one another. As the intermediate transfer belt 65 rotates, the color toner image that is formed on the intermediate transfer belt 65 is conveyed to the opposing area where the intermediate transfer belt 65 and the secondary transfer device 67 face each other. The above opposing area may be referred to as a secondary transfer area in the following description.
On the other hand, a sheet feeding device is disposed in the lower part of the image forming apparatus 3. The sheet feeding device serves as a sheet feeder that feeds a sheet S to bear the color toner image. Accordingly, the sheet S is conveyed to the secondary transfer area through a conveyance roller pair 69 along the conveyance passage indicated by the broken lines in
The color toner image that is formed on the intermediate transfer belt 65 is transferred onto the sheet S, which is conveyed through the conveyance roller pair 69 at a predetermined timing, at the secondary transfer area by a secondary transfer device 67 in the secondary transfer process. The sheet S on which the color toner image is formed is then conveyed to a fixing device 70 that serves as a fixing unit, and heat and pressure are applied by a fixing roller 70a and a pressure roller 70b, respectively, to the sheet S to fix the color toner image onto the sheet S. The sheet S on which the color toner is fixed is conveyed along the conveyance passage indicated by the broken lines in
Although
Although specific embodiments and variations are described, the embodiments and variations according to the present disclosure are not limited to those specifically described herein. Several modes of the sheet conveying device are exemplified as follows.
First Mode
In the first mode, a sheet conveying device (for example, the sheet conveying device 1) includes a sheet stacker (for example, the sheet stacker 15), an air blower (for example, the air blowing devices 28, 50), a guide (for example, the guide 21), and a holder (for example, the frame 20). The sheet stacker stacks sheets (for example, the sheet S). The air blower blows air to the sheets on the sheet stacker. The guide is disposed facing an uppermost sheet (for example, the uppermost sheet S1) of the sheets (for example, the stack of sheets S) on the sheet stacker. The holder holds the guide and has a groove (for example, the second receiving portion 23b) along which the guide is inserted. The groove has a plurality of direction switching portions (for example, the bent portions 23t1, 23t2) at each of which the guide changes a direction of movement when the groove receives the guide.
According to the first mode, even if the guide inserted in the groove moves toward an opening (for example, the opening 23s) of the groove, the wall surface of a corresponding one of the plurality of direction switching portions contacts the guide to hinder movement of the guide toward the opening. By providing the plurality of direction switching portions, the guide is less likely to move toward the opening when compared with the holder having a single direction switching portion. According to the present mode, the guide is prevented from coming off from the groove.
Second Mode
In the second mode according to the first mode, the holder is movably disposed in the sheet stacker between a first position (for example, the facing position) at which the guide faces the uppermost sheet on the sheet stacker and a second position (for example, the retreated position) at which the guide is retreated from the first position.
In the second mode, since the holder moves between the first position and the second position, the direction of the groove formed in the holder changes in accordance with this movement of the holder. For this reason, due to the external force applied in the movement of the holder or the weight of the guide, the guide is likely to detach (come off) from the groove. According to the second mode, since the plurality of direction switching portions are provided in the groove and the guide is prevented from coming off the groove, the guide may also be prevented from coming off the groove even in a configuration in which the holder moves in this manner.
Third Mode
In the third mode according to the first mode or the second mode, the sheet conveying device (for example, the sheet conveying device 1) further includes a cover (for example, the cover 31) on the holder (for example, the frame 20). The holder includes a first groove (for example, the first receiving portions 23a) and a second groove (for example, the second receiving portions 23b). The first groove receives an end of the guide (for example, the guide 21) in a longitudinal direction of the guide. The first groove extends linearly and has an opening (for example, the openings 23s) covered by the cover. The second groove receives an opposite end of the guide in the longitudinal direction. The second groove has the plurality of direction switching portions (for example, the bent portions 23t1, 23t2) at each of which the guide changes the direction of movement when the second groove receives the guide.
In the third mode, one of the first groove into which one end of the guide is inserted and the second groove into which the opposite end of the guide is inserted has a plurality of direction switching portions (that is, the second groove), so that the guide is prevented from coming off from the groove. Further, in the third mode, the opposite one of the first groove and the second groove (that is, the first groove) extends linearly. When a plurality of direction switching portions are provided in both the first groove and the second groove, it is difficult to insert the guide into the groove or remove the guide from the groove. By contrast, in this mode, the different groove (the first groove) extends linearly. This configuration allows the operator to easily insert the guide into the groove or remove the guide from the groove.
Furthermore, even though the guide easily comes off from the first groove that extends linearly, the opening of the first groove is covered by the cover. According to this configuration, the guide is prevented from coming off from the first groove.
Fourth Mode
In a fourth mode according to the third mode, the guide (for example, the guide 21) extends in the longitudinal direction along a conveyance direction of the sheet. The first groove (for example, the first receiving portions 23a) is upstream from the second groove (for example, the second receiving portions 23b) in the conveyance direction of the sheet.
In this case, when the operator inserts the guide into or removes the guide from the upstream side of the sheet conveying device in the sheet conveyance direction, the first groove near the operator is a linear groove. As a result, this configuration according to the sixth mode enhances the operability when the operator grips and moves the end of the guide near the operator.
Fifth Mode
In a fifth mode according to the third mode or the fourth mode, the holder (for example, the frame 20) includes a plurality of first grooves (for example, the first receiving portions 23a). The cover (for example the cover 31) includes an elastic member (for example, the elastic member 31b).
According to the fifth mode, even when the guide that covers the opening (for example, the opening 23s) of the first groove is fixed, the guide is removed from the opening of the first groove by deforming the elastic member or the guide is moved to another first groove.
Sixth Mode
In a sixth mode, an image forming system (for example, the image forming system 2) includes the sheet conveying device (for example, the sheet conveying device 1) according to any one of the first mode to the fifth mode, and an image forming apparatus (for example, the image forming apparatus 3) that forms an image on a sheet (for example, the sheet S). The sheet conveying device and the image forming apparatus are integrated as a single unit or provided separately.
According to the sixth mode, the image forming system including the sheet conveying device that prevents the guide (for example, the guide 21) from detached from the groove is provided.
The present disclosure is not limited to specific embodiments described above, and numerous additional modifications and variations are possible in light of the teachings within the technical scope of the appended claims. It is therefore to be understood that, the disclosure of this patent specification may be practiced otherwise by those skilled in the art than as specifically described herein, and such, modifications, alternatives are within the technical scope of the appended claims. Such embodiments and variations thereof are included in the scope and gist of the embodiments of the present disclosure and are included in the embodiments described in claims and the equivalent scope thereof.
The effects described in the embodiments of this disclosure are listed as the examples of preferable effects derived from this disclosure, and therefore are not intended to limit to the embodiments of this disclosure.
The embodiments described above are presented as an example to implement this disclosure. The embodiments described above are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, or changes can be made without departing from the gist of the invention. These embodiments and their variations are included in the scope and gist of this disclosure and are included in the scope of the invention recited in the claims and its equivalent.
Any one of the above-described operations may be performed in various other ways, for example, in an order different from the one described above.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2021-072115 | Apr 2021 | JP | national |
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| Number | Date | Country | |
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| 20220342354 A1 | Oct 2022 | US |
