This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2013-037434, filed Feb. 27, 2013, the entire contents of which are incorporated herein by reference.
Embodiments described herein relate generally to an endless belt used for image forming device and an image forming device having such an endless belt for forming an image.
One type of an image forming device includes an endless belt such as an intermediate transfer belt, a fixing belt, and a sheet conveyor belt. One example of the endless belt includes a belt base member and a reinforcement tape on outer edge of the belt base member. The ends of the reinforcement tape are typically bonded together. However, because the bonded portion of the reinforcement tape has a higher rigidity than other portions of the reinforcement tape, the bonded portion of the reinforcement tape may damage the belt base material when the bonded portion is repeatedly bent and extended in accordance with the rotation of the endless belt.
In general, according to one embodiment, an endless belt for an image forming device includes a base member that is shaped in a loop and is to be rotated around a center of the loop, and a reinforcement tape that is attached to a side of the base member, has two ends that are overlapped with each other, and has a bonding portion between the two ends in the overlapped portion. The bonding portion has an outer portion, an inner portion and a center portion between the inner and outer portions. A length of the center portion in a rotating direction of the base member is greater than a length of the inner portion and a length of the outer portion.
Hereinafter, one embodiment will be described with reference to
The image forming device is not limited to the MFP 10. The image forming device may be a revolver-type MFP in which a plurality of revolver-type developing units sequentially develop images one photosensitive drum. The number of the developing units is not limited.
The scanner 12 reads an original image for forming an image by the printer unit 18. The control panel 13 includes, for example, an input key 13a and a touch panel display 13b. The input key 13a receives, for example, an input by a user. The display 13b, for example, receives an input by a user or displays information to a user.
The paper feeding cassette unit 16 includes a paper feeding cassette 16a which accommodates a sheet P, which is a recording medium, and a pickup roller 16b which picks up the sheet P from the paper feeding cassette 16a. The paper feeding cassette 16a may feed an unused sheet P1 or a reused sheet (for example, a sheet on which an image has been erased) P2. The paper feeding tray 17 may feed the unused sheet P1 or the reused sheet P2 with a pickup roller 17a.
The printer unit 18 includes an intermediate transfer belt 21, which is an endless belt for the image forming device. In the printer unit 18, the intermediate transfer belt 21 is held by a backup roller 40 including a driving unit, a driven roller 41, and a tension roller 42, and rotates in an arrow direction of m.
The printer unit 18 includes four sets of image forming stations 22Y, 22M, 22C, and 22K for forming images of Y (yellow), M (magenta), C (cyan), and K (black), respectively, which are aligned in parallel under the intermediate transfer belt 21. The printer unit 18 includes supply cartridges 23Y, 23M, 23C, and 23K above the image forming stations 22Y, 22M, 22C, and 22K, respectively.
The supply cartridges 23Y, 23M, 23C, and 23K accommodate supplement toners of Y (yellow), M (magenta), C (cyan), and K (black), respectively.
For example, the image forming station 22Y of Y (yellow) includes an electrification charger 26, an exposure-scanning head 27, a developing unit 28, and a photoreceptor cleaner 29 around a photosensitive drum 24 rotating in an arrow direction of n. The image forming station 22Y of Y (yellow) includes a primary transfer roller 30 opposite to the photosensitive drum 24 across the intermediate transfer belt 21.
Three sets of image forming stations 22M, 22C, and 22K of M (magenta), C (cyan), and K (black), respectively, have the same structure as that of the image forming station 22Y of Y (yellow). The detailed description of the structure of the three sets of image forming stations 22M, 22C, and 22K of M (magenta), C (cyan), and K (black), respectively, is omitted.
After charging the corresponding photosensitive drum 24 with the corresponding electrification charger 26, each of the image forming stations 22Y, 22M, 22C, and 22K forms an electrostatic latent image on the photosensitive drum 24 by the corresponding exposure scanning head 27 that scans the surface of the photosensitive drum 24. The developing unit develops the electrostatic latent image on the photosensitive drum 24, using a developer including two components of toner of Y (yellow), M (magenta), C (cyan), or K (black) and a carrier. As the toner used for development, for example, a non-decolorizable toner may be used, or a decolorizable toner capable of being decolorized, for example, by heating at a predetermined decolorizing temperature or higher may be used.
The decolorizable toner which is decolorized by heating at the decolorizing temperature or higher is made by, for example, adding a coloring agent, a coloring compound, and a developer to a binder resin. When a toner image formed by the decolorizable toner is heated at the predetermined decolorizing temperature or higher, the coloring compound and the developer within the decolorizable toner are dissociated, and hence the toner image is erased. For example, the decolorizable toner may be fixed to the sheet P at a comparatively low temperature and decolorized at a temperature higher than the fixing temperature.
The primary transfer roller 30 primarily transfers the toner image formed on the photosensitive drum 24 to the intermediate transfer belt 21. The respective image forming stations 22Y, 22M, 22C, and 22K sequentially pile the mono-color toner images of Y (yellow), M (magenta), C (cyan), and K (black), on the intermediate transfer belt 21 by the respective primary transfer rollers 30, thereby forming a color toner image. The photoreceptor cleaner 29 removes the toner left on the photosensitive drum 24 after the primary transfer.
The printer unit 18 includes a second transfer roller 32 opposite to the backup roller 40 across the intermediate transfer belt 21. The second transfer roller 32 secondarily transfers the color toner image on the intermediate transfer belt 21 to the sheet P. The sheet P is carried from the paper feeding cassette unit 16 or a manually paper feeding tray 17 along a conveyance path 33, in accordance with the color toner image being conveyed on the intermediate transfer belt 21. The belt cleaner 43 removes the toner left on the intermediate transfer belt 21 after the secondary transfer.
The printer unit 18 includes a resist roller 33a, a fixing device 34, and a paper discharge roller 36 along the conveyance path 33. The printer unit 18 includes a branch unit 37 and an inverse conveyor unit 38 downstream with respect to the fixing device 34 in a sheet conveying direction. The branch unit 37 guides the image-fixed sheet P to the paper discharge unit 20 or a reverse conveyor unit 38. In the case of a double-side printing, the reverse conveyor unit 38 conveys the sheet P guided by the branch unit 37 thereto in a direction of the resist roller 33a.
According to the above-described structure, the MFP 10 forms a fixed toner image on the sheet P in the printer unit 18 and discharges the sheet P to the paper discharge unit 20.
The intermediate transfer belt 21 will be described in detail. As illustrated in
The reinforcement tape 47 is made of, for example, polyester resin (for example, PET), polyimide resin (for example, PI), or fluorine resin (for example, PFA, PTFE, and PVDF). The reinforcement tape 47 has a single-layer or a stacked-layer structure and has flexibility.
The reinforcement tape 47 is adhered to both sides of the belt base member 46 along the rotational direction of the arrow m by a bonding agent or an adhesive agent. For example, when the intermediate transfer belt is provided with a rib only on one side, the reinforcement tape may be provided only on a side of the belt base member 46 that has no rib. The both ends 47a and 47b of the reinforcement tape 47 overlap with each other in an overlapped portion α. The overlapped portion a of the reinforcement tape 47 is bonded by a weld 48, which is a bonding portion.
An inner end 47c of the reinforcement tape 47 is located inward (close to the center of the belt base member 46 in an axial direction of the backup roller 40 or the driven roller 40) from the respective roller ends 40a and 41a of the backup roller 40 and the driven roller 41 even when the intermediate transfer belt 21 is deviated by a maximum width β. For example, when the intermediate transfer belt 21 is deviated by the maximum width β, a space γ is created between the roller ends 40a and 41a and the rib 46a, as illustrated in
At the weld 48, for example, a plurality of long wiry heaters are inserted in the overlapped portion a of the reinforcement tape 47 and heated, to weld the reinforcement tape 47. Alternatively, the reinforcement tape 47 maybe weld by applying a heated iron thereto. In the overlapped portion a of the reinforcement tape 47, rigidity in the weld 48 is higher than that in the periphery of the weld 48.
An example of the shape of the weld 48 formed by a plurality of the heaters is shown in
When the intermediate transfer belt 21 rotates in the arrow direction of m, the overlapped portion a of the reinforcement tape 47 is significantly bent, for example, at the location of the backup roller 40 or the driven roller 41. Therefore, when a change in rigidity in the direction of m is sharp between the weld 48 of the overlapped portion a of the reinforcement tape 47 and the periphery of the weld 48, it can easily cause a crack in a portion of the belt base member 46 corresponding to the end portion of the weld 48 during a repetition of bending and extension of the reinforcement tape 47. According to this embodiment, a change in rigidity between the weld 48 of the overlapped portion α of the reinforcement tape 47 and the periphery of the weld 48 is smaller. This can prevent a crack in the belt base member 46 caused by a change in rigidity during the repetition of bending and extension.
According to a start of printing operation, at the printer unit 18, mono-color toner images are formed respectively in the four sets of image forming stations 22Y, 22M, 22C, and 22K on the respective photosensitive drums 24. The printer unit 18 sequentially superimposes the mono-color toner images of the respective photosensitive drums 24 on the intermediate transfer belt 21 rotated in the arrow direction of m by the respective primary transfer rollers 30, as the primary transfer. After the primary transfer, the respective photoreceptor cleaners 29 clean the toner remaining on the respective photosensitive drums 24. The photosensitive drums 24 are ready for the next printing.
The intermediate transfer belt 21 further rotates in the arrow direction of m and conveys the toner image to the second transfer roller 32. In accordance with the toner image arriving at the location of the second transfer roller 32, the MFP 10 conveys the sheet P from the paper feeding cassette unit 16 or the paper feeding tray 17 to the second transfer roller 32. The second transfer roller 32 performs the secondary transfer of the toner image on the intermediate transfer belt 21 to the sheet P, with a transfer bias.
Then, the fixing device 34 of the MFP 10 fixes the toner image to the sheet P, and the sheet P with the print image fixed thereto is conveyed to the branch unit 37. In the case of double-side printing, the branch unit 37 guides the sheet P in a direction of the reverse conveyor unit 38. The MFP 10 performs the printing operation on the rear surface of the sheet P conveyed from the resist roller 33a. In the case of single-side printing, the branch unit 37 guides the sheet P to the paper discharge unit 20, and then the printing operation is finished.
During the printing operation, the overlapped portion α of the reinforcement tape 47 of the intermediate transfer belt 21 rotating in the arrow direction of m is bent largely at the location of the backup roller 40 or the driven roller 41. The width of the weld 48 of the overlapped portion a of the reinforcement tape 47 gradually becomes wider from the leading end 48a and the trailing end 48c to the center 48b, and the rigidity of the weld 48 becomes gradually higher, as compared to the periphery. Even when the overlapped portion a of the reinforcement tape 47 is repeatedly bent or extended, the belt base member 46 cannot be damaged due to a change in the rigidity of the weld 48.
According to the embodiment, the reinforcement tape 47 is attached to the periphery of the belt base member 46, to reinforce the belt base member 46 in a circumferential direction. In the axial direction of the backup roller 40 and the driven roller 41, the inner end 47c of the reinforcement tape 47 is disposed inward from the roller ends 40a and 41a, to reinforce the belt base member 46 also in the axial direction.
According to the embodiment, the width of the weld 48 of the reinforcement tape 47 is gradually widened from the leading end 48a or the trailing end 48c to the center 48b. The rigidity of the weld 48 is gradually varied from the rigidity of the periphery, and hence the belt base member 46 is prevented from being damaged. As a result, a lifetime of the belt base member 46 can be improved.
In the image forming device according to the above-mentioned embodiment, the shape of the weld 48 is not limited to the above-described shape, and any shape may be possible as long as the width of the end is narrower than the width of the center. For example, the shape of the bonding portion may be a diamond-shaped weld 51, an oval-shaped weld 52, an hourglass-shaped weld 53, and a hexagonal shaped weld 54 as shown in
Further, plural bonding portions may be provided. For example, the problem portion may be formed in a large diamond-shaped weld 56 including small diamond-shaped welds 56a, 56b, . . . , and 56n, as shown in
Further, in the bonding portion, the overlap portion of the reinforcement member may not be weld but may be adhered to each other with a bonding agent (adhesive). When the bonding agent is used to bond the reinforcement member, the width of the end of the bonding agent is made narrower than the width of the center thereof. Further, the endless belt is not limited to the intermediate transfer belt. The endless belt may be, for example, a belt used for a fixing belt, a sheet conveyor belt, or the like of the image forming device.
While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. Indeed, the novel embodiments described herein may be embodied in a variety of other forms. Furthermore, various omissions, substitutions and changes in the form of the embodiments described herein maybe made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the inventions.
Number | Date | Country | Kind |
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2013-037434 | Feb 2013 | JP | national |