This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2021-137600 filed Aug. 25, 2021.
The present disclosure relates to a recording medium transport device and an image forming apparatus.
Japanese Unexamined Patent Application Publication No. 2006-259223 discloses a technique related to a fixation device that fixes, on a recording medium, an image drawn on the recording medium by using particles containing at least a resin. This fixation device includes a fixation roller pair at last one of which is a heating roller and at least one of which has an exchangeable superficial layer, an attaching part including an attaching member, a charging part that charges at least one of the recording medium and the attaching part, and a fixing part that physically fixes a front end portion of the recording medium in a transport direction to the attaching part by a gripping part. The attaching member and the recording medium are electrostatically adsorbed by the charging part, and the recording medium is fixed to the attaching member by the fixing part. Then, the recording medium is transported together with the attaching part while being held between the fixation roller pair, and thereby an image is fixed.
Aspects of non-limiting embodiments of the present disclosure relate to reducing an amount of work for stopping a recessed part of a transport cylinder at a maintenance position as compared with a case where a worker stops the recessed part at the maintenance position by inching the transport cylinder.
Aspects of certain non-limiting embodiments of the present disclosure address the above advantages and/or other advantages not described above. However, aspects of the non-limiting embodiments are not required to address the advantages described above, and aspects of the non-limiting embodiments of the present disclosure may not address advantages described above.
According to an aspect of the present disclosure, there is provided a recording medium transport device including: a circulating member that forms a part of a transport path for transporting a recording medium; a holding member that is fixed to the circulating member and thereby circulates and holds a front end portion of the recording medium; plural transport cylinders around which the circulating member is suspended and having a recessed part in which the holding member is stored; and a selection part that selects any one of the plural transport cylinders, wherein a mode for stopping the selected one of the plural transport cylinders so that the recessed part of the selected one of the plural transport cylinders is located at a maintenance position is prepared.
Exemplary embodiments of the present disclosure will be described in detail based on the following figures, wherein:
An image forming apparatus according to a first exemplary embodiment of the present disclosure is described.
Note that arrows UP in the drawings indicate an apparatus vertically upward direction. Arrows RH indicate a horizontally rightward direction in front view of the apparatus. In the following description, an up-down direction means the up-down direction of the apparatus illustrated in
Overall Configuration of Image Forming Apparatus
First, a configuration of an image forming apparatus 10 is described.
As illustrated in
As illustrated in
The droplet ejection mechanism 13 includes a droplet ejection head 21Y, a droplet ejection head 21M, a droplet ejection head 21C, and a droplet ejection head 21K that form droplet images by using ink droplets of respective colors, which are an example of black (K), yellow (Y), magenta (M), and cyan (C) droplets.
The droplet ejection heads 21Y, 21M, 21C, and 21K are arranged so that ejection surfaces 23Y, 23M, 23C, and 23K thereof face the print drum 90. The droplet ejection heads 21Y, 21M, 21C, and 21K are supplied with ink of the respective colors from ink tanks (not illustrated).
In the present exemplary embodiment, yellow (Y), magenta (M), cyan (C), and black (K) are basic colors for outputting a color image. In the following description, the droplet ejection heads 21Y, 21M, 21C, and 21K are referred to as droplet ejection heads 21 without Y, M, C, and K in a case where the colors need not be distinguished.
The droplet ejection heads 21Y, 21M, 21C, and 21K for the respective colors basically have similar structures except for types of used ink. A system for ejecting an ink droplet in the droplet ejection heads 21 is not limited in particular. For example, a thermal system, a piezoelectric system, or the like can be used as the system for ejecting an ink droplet.
The droplet ejection heads 21Y, 21M, 21C, and 21K are full line heads each having a length corresponding to a width of an image recording region of a sheet P (see
Although a configuration in which an image is recorded by using ink of the four colors C, M, Y, and K is described as an example in the present exemplary embodiment, this is not restrictive, and colors of ink and a combination thereof may be changed. For example, light-colored ink such as light cyan or light magenta, deep-colored ink, special color ink, and the like may be added as needed. Furthermore, an order in which the heads for the respective colors are arranged is not limited to the one illustrated in
Ink droplets of the respective colors ejected from the droplet ejection heads 21Y, 21M, 21C, and 21K for the respective colors land on the print drum 90, and thereby a droplet image is formed on the print drum 90. The droplet image formed on the print drum 90 is transferred onto a sheet P transported by a transport cylinder for image formation 39, which will be described later.
Transport Cylinder for Image Formation
As illustrated in
Furthermore, the transport cylinder for image formation 39 is provided, at both end portions thereof in the axial direction, with sprockets 37 around which chains 49, which will be described later, are suspended.
As illustrated in
The jacket member 60 has a base layer 62 that is wound around the cylinder body 52 without adhering to the cylinder body 52 and a surface layer 64 that is adhesively wound around an outer circumferential surface of the base layer 62. A cylinder side block 56 is provided on an end portion of a bottom wall 55 in a circumferential direction in the recessed part 100. An end portion 62A of the base layer 62 of the jacket member 60 is fastened to the cylinder side block 56 by using a bolt, and thereby the jacket member 60 is detachably attached to the cylinder body 52. In other words, the jacket member 60 is exchangeable.
Image Formation Position
A portion where the print drum 90 and the transport cylinder for image formation 39 illustrated in
Drying Device
A drying device 300 illustrated in
As illustrated in
The transport cylinder for drying 302 also includes a cylinder body (not illustrated) and a sheet-shaped jacket member wound around the cylinder body, as with the transport cylinder for image formation 39 (see
Sheet Transport Path
As illustrated in
More specifically, the sheet transport path A is configured to sequentially pass the unit 10A and the unit 10B. Accordingly, a sheet P fed from the sheet tray 38 disposed in the unit 10A is transported through the sheet transport path A so as to pass the unit 10B and is then discharged.
Basic Image Formation Operation
Next, an outline of basic image formation operation on a sheet P in the image forming apparatus 10 is described.
Various operations in the image forming apparatus 10 are performed by a controller 160 built in the apparatus (also see
The sheet P on which the droplet image has been transferred is transported toward the drying device 300. In the drying device 300, the droplet image on the sheet P is dried.
Gripper
As illustrated in
The gripper 42 includes the clips 44, a rectangular case 46 that covers the clips 44, and a shaft 48 extending in the depth direction. The plural clips 44 are provided throughout the depth direction of the apparatus (see
The case 46 has a longitudinal direction in the depth direction and is held by the shaft 48. The case 46 is configured to rotate independently of rotation of the clips 44. Furthermore, the case 46 is configured to cover two sides, specifically, an upstream side and a downstream side in the sheet transport direction and a rear surface side of the sheet P relative to the clips 44. Note that the “rear surface” refers to a non-image-formation surface of the sheet P. In such a structure, front end portions 45 of the clips 44 and a fixing claw part 47 at a rear end of the case 46 are configured to be capable of holding a front end portion P1 of a sheet P in the transport direction. Note that the fixing claw part 47 has a front end portion 47A (see
Chains
As illustrated in
As illustrated in
The chains 49 suspended around the transport cylinder for image formation 39 (see
Circulating Path D
As illustrated in
The gripper 42 is configured such that the front end portions 45 of the clips 44 and the fixing claw part 47 of the case 46 come close to each other and hold a front end portion P1 of a sheet P at a start point of the overlap between the sheet transport path A and the circulating path D (see
At an end point of the overlap between the circulating path D and the sheet transport path A, the front end portions 45 of the clips 44 and the fixing claw part 47 of the case 46 are separated from each other, and the front end portion P1 of the sheet P is released. A position at which the sheet P is released from the gripper 42 on the circulating path D is a receiving position D2 at which the sheet P is received from the gripper 42 to the sheet transport path A. Note that the delivering position D1 is disposed on a lower side relative to the receiving position D2.
As illustrated in
Meanwhile, the sheet P is received from the right side to the left side in
A tension roller 31 for pushing the chains 49 from an outer side toward an inner side of the circulating path D is provided on the circulating path D on a downstream side relative to the receiving position D2 in the transport direction. Since the tension roller 31 applies tension to the chains 49, a position of the gripper 42 on the circulating path is stabilized. Since the tension roller 31 pushes the chains 49 from the outer side toward the inner side of the circulating path D, the circulating path D may be made small as a whole as compared with a configuration where tension is applied from the inner side toward the outer side of the circulating path D.
A part of the circulating path D from the tension roller 31 to a merging point with the sheet transport path A is inclined downward. According to this configuration, a space may be provided between the circulating path D and the sheet transport path A as compared with a configuration in which the circulating path D falls vertically after passing the fixation device 400.
Position Adjustment Part
As illustrated in
Specifically, when a front end portion P1 (see
Delivering of Sheet
As illustrated in
At this timing, the case 46 and the clips 44 are opened, as illustrated in
Next, the gripper 42 is configured so that the case 46 and the clips 44 gradually approach each other while moving along the circulating path D in synchronization with the transport timing of the sheet P, as illustrated in
Then, the front end portion P1 of the sheet P is further lifted up by the clips 44, and is delivered from the sheet transport path A to the circulating path D while being held between the fixing claw part 47 of the case 46 and the front end portions 45 of the clips 44, as illustrated in
Note that a position at which the sheet P is delivered from the sheet transport path A to the circulating path D is the delivering position D1.
Reversal of Sheet
After the sheet P is delivered to the circulating path D, front and rear sides of the sheet P are reversed along an outer circumference of the transport cylinder for image formation 39, as illustrated in
A surface of the sheet P that faces a backup roller 33 when the sheet P passes the image formation position 18 is an image formation surface and is a front surface. In other words, at the position adjustment part 50 and the delivering position D1, the sheet P is transported while a rear surface thereof, which is a non-image-formation surface, is facing upward.
Receipt of Sheet
The sheet P is received from the circulating path D to the sheet transport path A. A branching point between the circulating path D and the sheet transport path A is the receiving position D2. At the receiving position D2, the gripper 42 holding the front end portion P1 (see
Configuration of Substantial Part
Next, a configuration of a substantial part according to the present exemplary embodiment is described.
Transport Unit
As illustrated in
As illustrated in
Note that the reference sign 202 in
Maintenance Position
Next, maintenance positions of the recessed parts 100 and 101 (see
Note that maintenance of the transport cylinder for image formation 39 (see
The maintenance positions are positions where a worker who performs maintenance can access the recessed parts 100 and 101. The maintenance positions are desirably positions where a worker who performs maintenance can easily access the recessed parts 100 and 101.
As described above, maintenance of the transport cylinder for image formation 39 (see
Maintenance Position of Transport Cylinder for Image Formation
A maintenance position of the recessed part 100 of the transport cylinder for image formation 39 illustrated in
From another perspective, the range H1 is within an angle in which the chains 49 are suspended around the transport cylinder for image formation 39 and within an angle in which the driving force transmission mechanism part 279 is not provided.
Note that the maintenance position of the recessed part 100 of the transport cylinder for image formation 39 according to the present exemplary embodiment is a position of 2 o'clock in front view, specifically, the position illustrated in
Maintenance Position of Transport Cylinder for Drying
A maintenance position of the recessed part 101 of the transport cylinder for drying 302 illustrated in
From another perspective, the range H2 is within an angle in which the chains 49 are suspended around the transport cylinder for drying 302 and within an angle in which the heater part 304 is not provided.
Note that the maintenance position of the recessed part 101 of the transport cylinder for drying 302 according to the present exemplary embodiment is a position of 10 o'clock in front view, specifically, the position illustrated in FIG. 4.
Position Detection Mechanism
A position detection mechanism 270 illustrated in
A position detection mechanism 271 illustrated in
In the present exemplary embodiment, the position detection mechanisms 270 and 271 are for stopping the recessed part 100 of the transport cylinder for image formation 39 and the recessed part 101 of the transport cylinder for drying 302 at the maintenance positions.
Operation Panel
As illustrated in
Controller
The controller 160 (see
The controller 160 is electrically connected to the position detection mechanisms 270 and 271, the operation panel 16, and the driving mechanism 79 having a driving function and a stopping function. Rotary driving and stoppage of the driving mechanism 79 are controlled by the controller 160. In a case where the worker selects the transport cylinder for image formation 39 as the maintenance target on the operation panel 16, the controller 160 controls the driving mechanism 79 so that the recessed part 100 of the transport cylinder for image formation 39 is located at the maintenance position illustrated in
From another perspective, in a case where the worker selects the transport cylinder for image formation 39 as the maintenance target on the operation panel 16, the controller 160 controls the driving mechanism 79 so that the recessed part 100 of the transport cylinder for image formation 39 stops at the maintenance position illustrated in
Operation
Next, operation of the present exemplary embodiment is described.
In a case where the worker selects the transport cylinder for image formation 39 as the maintenance target on the operation panel 16, the controller 160 controls the driving mechanism 79 so that the recessed part 100 of the transport cylinder for image formation 39 is located at the maintenance position illustrated in
Therefore, an amount of work for stopping the recessed part 100 or 101 at the maintenance position may be reduced as compared with a case where the worker stops the recessed part 100 or 101 at the maintenance position by inching the transport cylinder for image formation 39 or the transport cylinder for drying 302 selected as a maintenance target.
The case of “stopping a recessed part at a maintenance position by inching” is described below.
The worker slightly drives the driving mechanism 79 by operating a switch, a button, a lever, and the like to rotate the transport cylinder for image formation 39 or the transport cylinder for drying 302 by a small amount and then stop. The worker causes the recessed part 100 or 101 to be located at the maintenance position while visually checking the position of the recessed part 100 or 101 by repeating this work.
Since the maintenance position of the recessed part 100 of the transport cylinder for image formation 39 and the maintenance position of the recessed part 101 of the transport cylinder for drying 302 are within the range in which the chains 49 are suspended, the worker may easily access the recessed parts 100 and 101 as compared with a case where the maintenance positions of the recessed parts 100 and 101 are located outside the range in which the chains 49 are suspended.
In a case where the recessed parts 100 and 101 are located outside the range in which the chains 49 are suspended, maintenance of the recessed parts 100 and 101 needs to be performed from a space between the upper and lower parts of the chains 49, and therefore access to the recessed parts 100 and 101 is not easy. Therefore, by setting the maintenance positions of the recessed parts 100 and 101 within the range in which the chains 49 are suspended, the recessed parts 100 and 101 may be easily accessed.
Furthermore, since the maintenance positions of the recessed parts 100 and 101 are located within the range in which the chains 49 are suspended and outside the range in which the driving force transmission mechanism part 279 or the heater part 304 is disposed, the recessed parts 100 and 101 may be easily accessed as compared with a case where the maintenance positions of the recessed parts 100 and 101 are located outside the range in which the chains 49 are suspended and within the range in which the driving force transmission mechanism part 279 or the heater part 304 is disposed.
Next, an image forming apparatus according to a second exemplary embodiment is described. Note that members identical to those in the first exemplary embodiment are given identical reference signs, and repeated description thereof is omitted. The second exemplary embodiment is different from the first exemplary embodiment only in a unit and therefore only the unit 10A is illustrated and described.
A developer image forming part 99 of an image forming apparatus 17 according to the second exemp0lary embodiment illustrated in
A contact part between the intermediate transfer belt 22 and the transfer cylinder 36 is a second transfer position 20, which is an example of an image formation position, and at this second transfer position 20, developer images formed by the image formation units 12 are transferred onto a surface of a sheet P with the intermediate transfer belt 22 attached to the intermediate transfer unit 14 interposed therebetween.
The developer image forming part 99 includes the plural image formation units 12 for forming toner layers of respective colors. In the present exemplary embodiment, the developer image forming part 99 includes four image formation units 12 in total corresponding to respective colors, specifically, a yellow image formation unit 12Y, a magenta image formation unit 12M, a cyan image formation unit 12C, and a black image formation unit 12K.
Note that yellow (Y), magenta (M), cyan (C), and black (K) are basic colors for outputting a color image. Hereinafter, in a case where colors of the image formation units 12 need not be distinguished, the yellow image formation unit 12Y, the magenta image formation unit 12M, the cyan image formation unit 12C, and the black image formation unit 12K are simply referred to as “image formation units 12” without the signs Y, M, C, and K denoting the respective colors as appropriate.
The image formation units 12 for the respective colors basically have similar configurations except for types of used toner. Each of the image formation units 12 includes a cylindrical photoreceptor 24 that rotates and a charging unit 26 that charges the photoreceptor 24. Furthermore, each of the image formation units 12 includes an exposure device 28 that forms an electrostatic latent image by irradiating the charged photoreceptor 24 with light for exposure and a developing device 30 for developing the electrostatic latent image as an image formed by a toner layer by using a developer containing toner. Furthermore, each of the image formation units 12 includes a cleaner 29 that removes toner remaining on a surface of the photoreceptor 24 after toner is transferred from the photoreceptor 24 to the intermediate transfer belt 22.
The photoreceptors 24 of the respective colors are configured to be capable of making contact with an outer circumferential surface of the intermediate transfer belt 22. The image formation units 12 corresponding to yellow, magenta, cyan, and black are arranged from an upstream side to a downstream side in a direction in which the intermediate transfer belt 22 circulates.
Although a configuration in which an image is recorded by using toner of four colors C, M, Y, and K is described as an example in the present exemplary embodiment, this is not restrictive, colors of ink and a combination thereof may be changed. For example, light-colored ink such as light cyan or light magenta, deep-colored ink, special color ink, and the like may be added as needed. Furthermore, an order in which the image formation units 12 for the respective colors are arranged is not limited to the one illustrated in
Intermediate Transfer Unit
The intermediate transfer unit 14 includes first transfer rollers 34 disposed so as to face the image formation units 12 for the respective colors and a backup roller 33 disposed so as to face the transfer cylinder 36.
Intermediate Transfer Belt
The intermediate transfer belt 22 is an endless belt. The intermediate transfer belt 22 is suspended around plural rollers 32, and thereby a posture thereof is decided. In the present exemplary embodiment, the posture of the intermediate transfer belt 22 is a substantially obtuse triangular shape that is long in an apparatus width direction in front view and has an obtuse-angled bulging part bulging downward. One (not illustrated) of the plural rollers 32 has a function of rotating the intermediate transfer belt 22 in a direction indicated by arrow X by force of a motor (not illustrated). The intermediate transfer belt 22 transports a first-transferred image to the second transfer position 20 by rotating in the direction indicated by arrow X.
The intermediate transfer belt 22 is configured to be capable of circulating in the direction indicated by arrow X while being in contact with the photoreceptors 24 of the respective colors or being separated from the photoreceptors 24 of the respective colors.
First Transfer
Each first transfer part 19 is a part where the photoreceptor 24, the intermediate transfer belt 22, and the first transfer roller 34 make contact with one another. The first transfer roller 34 is disposed so as to face the photoreceptor 24 with the intermediate transfer belt 22 interposed therebetween. The first transfer roller 34 and the intermediate transfer belt 22 are configured to make contact with each other by a predetermined load.
Furthermore, a voltage is applied to the first transfer roller 34 by a power feeding part (not illustrated). This voltage is a first transfer voltage by which a developer image formed on the photoreceptor 24 is first-transferred onto the intermediate transfer belt 22 between the photoreceptor 24 and the first transfer roller 34.
Transfer Cylinder
The transfer cylinder 36 is disposed so as to face the backup roller 33 with the intermediate transfer belt 22 interposed therebetween. The transfer cylinder 36 has a cylindrical shape having an axial direction in a depth direction of the image forming apparatus 10 and is rotatable in a circumferential direction.
A voltage is applied to the transfer cylinder 36 by a power feeding part (not illustrated). This voltage is a second transfer voltage by which developer images transferred onto the intermediate transfer belt 22 in an overlapping manner are second-transferred onto a sheet P transported to the second transfer position 20.
As illustrated in
Furthermore, the transfer cylinder 36 is provided, at both end portions thereof in the axial direction, with sprockets 37 around which the chains 49 are suspended.
The transfer cylinder 36 also has a cylinder body (not illustrated) and a sheet-shaped jacket member wound around the cylinder body, as with the transport cylinder for image formation 39 (see
Second Transfer
As illustrated in
Fixation Device
As illustrated in
As illustrated in
As illustrated in
Furthermore, the transfer cylinder 36 and the fixation cylinder 402 are each provided, at both end portions thereof in the axial direction, with sprockets 37 around which the chains 49 are suspended.
The fixation cylinder 402 also has a cylinder body (not illustrated) and a sheet-shaped jacket member wound around the cylinder body, as with the transport cylinder for image formation 39 (see
Basic Image Formation Operation
Next, an outline of basic image formation operation on a sheet P in the developer image forming part 99 illustrated in
Upon receipt of an image formation command from an outside, a controller 160 causes the image formation units 12 to operate. The photoreceptors 24 of the respective colors are charged by the respective charging units 26 while rotating. The controller 160 sends image data that has been subjected to image processing in an image signal processing part (not illustrated) to the exposure devices 28. The exposure devices 28 expose the charged photoreceptors 24 to light by irradiating the photoreceptors 24 with exposure light according to the image data. This forms electrostatic latent images on outer circumferential surfaces of the photoreceptors 24. The electrostatic latent images formed on the photoreceptors 24 are developed by the developing devices 30, and thus toner images, which are an example of developer images of respective colors, are formed on the photoreceptors 24 corresponding to the respective colors.
The toner images of the respective colors formed on the photoreceptors 24 of the respective colors are first-transferred onto the intermediate transfer belt 22 by the first transfer rollers 34 of the respective colors at the first transfer parts. The toner images of the respective colors are sequentially first-transferred onto the intermediate transfer belt 22 so as to be superimposed on one another since the intermediate transfer belt 22 circulates. The toner images thus superimposed on one another are transported to the second transfer position 20 by circulation of the intermediate transfer belt 22. The superimposed toner images are transferred from the intermediate transfer belt 22 onto a sheet P at the second transfer position 20.
The sheet P onto which the toner images have been second-transferred is transported toward the fixation device 400. In the fixation device 400, the sheet P is heated and pressed by the heating roller 404 and the fixation cylinder 402. In this way, the toner images formed by the image formation units 12 are fixed onto the sheet P.
Configuration of Substantial Part
A configuration of a substantial part according to the present exemplary embodiment is described.
Transport Unit
As illustrated in
As illustrated in
Maintenance Position
Next, maintenance positions of the recessed parts 100 and 101 (see
The maintenance of the transfer cylinder 36 (see
Maintenance Position of Transfer Cylinder
A maintenance position of the recessed part 100 of the transfer cylinder 36 illustrated in
From another perspective, the range H3 is within an angle in which the chains 49 are suspended around the transfer cylinder 36 and within an angle in which the driving force transmission mechanism part 279 is not provided.
Note that the maintenance position of the recessed part 100 of the transfer cylinder 36 according to the present exemplary embodiment is a position of 2 o'clock in front view, specifically, the position illustrated in
Maintenance Position of Fixation Cylinder
The maintenance position of the recessed part 101 of the fixation cylinder 402 illustrated in
From another perspective, the range H4 is within an angle in which the chains 49 are suspended around the fixation cylinder 402 and within an angle in which the heating roller 404 is not provided.
Note that the maintenance position of the recessed part 101 of the fixation cylinder 402 according to the present exemplary embodiment is a position of 10 o'clock in front view, specifically, the position illustrated in
Position Detection Mechanism
Position detection mechanisms 270 and 271 illustrated in
In the present exemplary embodiment, the position detection mechanisms 270 and 271 are for stopping the recessed part 100 of the transfer cylinder 36 and the recessed part 101 of the fixation cylinder 402 so that the recessed part 100 of the transfer cylinder 36 and the recessed part 101 of the fixation cylinder 402 are located in the ranges H3 and H4, which are maintenance positions.
Controller
As in the first exemplary embodiment, in a case where a worker selects the transfer cylinder 36 as a maintenance target on the operation panel 16, the controller 160 illustrated in
From another perspective, in a case where the worker selects the transfer cylinder 36 as a maintenance target on the operation panel 16, the controller 160 controls the driving mechanism 79 so that the recessed part 100 of the transfer cylinder 36 stops at the maintenance position illustrated in
Operation
Next, operation of the present exemplary embodiment is described.
In a case where the worker selects the transfer cylinder 36 as a maintenance target on the operation panel 16, the controller 160 controls the driving mechanism 79 so that the recessed part 100 of the transfer cylinder 36 is located at the maintenance position illustrated in
It is therefore possible to reduce an amount of work for stopping the recessed part 100 or 101 at the maintenance position as compared with a case where the worker stops the recessed part 100 or 101 at the maintenance position by inching the transfer cylinder 36 or the fixation cylinder 402 that is a maintenance target.
Since the maintenance position of the recessed part 100 of the transfer cylinder 36 and the maintenance position of the recessed part 101 of the fixation cylinder 402 are within a range in which the chains 49 are suspended, the recessed parts 100 and 101 may be easily accessed as compared with a case where the maintenance positions of the recessed parts 100 and 101 are outside the range in which the chains 49 are suspended.
Furthermore, since the maintenance positions of the recessed parts 100 and 101 are within the range in which the chains 49 are suspended and outside the range in which the driving force transmission mechanism part 279 or the heating roller 404 is disposed, the recessed parts 100 and 101 may be easily accessed as compared with a case where the maintenance positions of the recessed parts 100 and 101 are outside the range in which the chains 49 are suspended and within the range in which the driving force transmission mechanism part 279 or the heating roller 404 is disposed.
Other Remarks
Note that the present disclosure is not limited to the above exemplary embodiments.
For example, although the configuration in which the gripper 42 that is an example of a holding member physically holds a front end portion P1 of a sheet P has been described as an example in the above exemplary embodiments, the present disclosure is not limited to such a structure, and the gripper 42 may hold a front end of a sheet P, for example, by force of sucking air.
Furthermore, for example, although the circulating member is chains in the above exemplary embodiments, the present disclosure is not limited to this. For example, the circulating member may be a belt.
Furthermore, for example, although an inkjet system or a dry-type electrophotographic system has been described as an image formation system for forming an image on a sheet P in the above exemplary embodiments, the present disclosure is not limited to this. For example, a wet-type electrophotographic system using a liquid developer, an offset printing system, or the like may be employed.
Furthermore, for example, although maintenance targets are the transport cylinder for image formation 39, the transport cylinder for drying 302, the transfer cylinder 36, and the fixation cylinder 402 in the above exemplary embodiments, the present disclosure is not limited to these. The maintenance targets may be transport cylinders in general that are provided with a recessed part and transport a recording medium.
Furthermore, for example, the maintenance positions of the recessed parts 100 and 101 are not limited to those in the above exemplary embodiments. The maintenance position may be within a range in which the chains 49 are not suspended around a transport cylinder or may be within a range in which a peripheral member is provided.
Furthermore, the configuration of the image forming apparatus is not limited to those in the above exemplary embodiments and can be various configurations. Furthermore, the present disclosure can be implemented in various aspects without departing from the spirit of the present disclosure.
The foregoing description of the exemplary embodiments of the present disclosure has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the disclosure and its practical applications, thereby enabling others skilled in the art to understand the disclosure for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the disclosure be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
---|---|---|---|
2021-137600 | Aug 2021 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
20010052666 | Kuwata | Dec 2001 | A1 |
20060056886 | Ohishi | Mar 2006 | A1 |
20100322647 | Hosohara | Dec 2010 | A1 |
20120212552 | Houjou | Aug 2012 | A1 |
Number | Date | Country |
---|---|---|
2006184403 | Jul 2006 | JP |
2006-259223 | Sep 2006 | JP |
Number | Date | Country | |
---|---|---|---|
20230068115 A1 | Mar 2023 | US |