1. Field of the Invention
The present invention relates to an image forming apparatus, such as a copier, printer, facsimile machine, or a multifunctional device combining several such functions.
2. Discussion of the Background
in the electrophotographic image forming apparatus market, lowering running costs is a long-felt need. Toward that end, various methods of extending the working life of the process cartridges that are used in such apparatuses are disclosed, including use of a removable toner cartridge independently replaceable from an image forming apparatus is disclosed.
In the toner cartridge, toner is delivered from a toner container to a developing unit. In a case in which the toner is delivered using the force of gravity, a complicated member for feeding the toner to the developer unit is not needed in the toner container. Such a gravity-feed configuration has the advantage of being inexpensive, thereby contributing to the lowest running cost. However, a drawback of this arrangement is that a powder pressure of the toner is not controlled because the toner is gravitationally fed from the toner container, and therefore an outlet thereof may be contaminated with the toner when a toner container still containing toner is removed from the image forming apparatus. When the outlet is opened and closed while the powder pressure is high, an opening and closing member of the developing unit is contaminated. Further, because the outlet faces downward, any toner adhering to the outlet tends to scatter and contaminate the surrounding area inside the apparatus.
Therefore, to minimize uncontrolled scattering of the toner adhering to the outlet, typically the outlet is located in a horizontal direction of the toner container so that the outlet does not face downward when the toner container is removed from the apparatus. Alternatively, a toner container having the outlet located at an end in a horizontal direction of the toner container and facing downward without powder pressure is known.
However, conventional toner containers having an outlet in a horizontal direction do not have a power to feed a toner into a developing unit, thus necessitating use of a complicated part such as a feed screw for feeding the toner forward, resulting in a larger and more costly toner container.
In short, a toner container having a downward facing outlet costs less but cannot avoid scattering toner. By contrast, a toner container having an outlet facing in a horizontal direction can avoid scattering the toner but becomes bulky and expensive. replaceablereplaceable
Accordingly, an object of the present invention is to provide a compact low-cost image forming apparatus in which a toner container is easily replaceable and a toner is effectively prevented from scattering.
This and other objects of the present invention, either individually or collectively, have been satisfied by the invention of an improved image forming apparatus, comprising:
an image developer configured to develop an electrostatic latent image; and
a toner provider configured to provide a toner from a toner container to the image developer in a direction of gravitational force,
wherein the toner container is capable of taking:
the toner container comprises:
These and other objects, features and advantages of the present invention will become apparent upon consideration of the following description of the preferred embodiments of the present invention taken in conjunction with the accompanying drawings.
Various other objects, features and attendant advantages of the present invention will be more fully appreciated as the same becomes better understood from the detailed description when considered in connection with the accompanying drawings in which like reference characters designate like corresponding parts throughout and wherein:
The present invention provides a compact low-cost image forming apparatus in which a toner container is easily replaceable and a toner is effectively prevented from scattering.
More particularly, the present invention relates to an image forming apparatus, comprising:
an image developer configured to develop an electrostatic latent image; and
a toner provider configured to provide a toner from a toner container to the image developer in a direction of gravitational force,
wherein the toner container is capable of taking:
the toner container comprises:
Above the image developer 5, a toner provider 6 is located, which contains a replaceable toner and provides the toner T into the image developer 5 while connecting therewith. The toner provider 6 includes a toner container 4. The toner container 4 directly provides the toner T into the image developer 5. The toner container 4 may provide the toner into the image developer through a supply route in the image forming apparatus 100.
In a tandem-type image forming apparatus, each monochrome color, mainly black, magenta, cyan and yellow image is formed on the surface of each photoreceptor. When an image is formed by a nega-posi method (a toner adheres to a lower potential part) therein, the photoreceptor 1, the surface of which is uniformly charged by the charging roller 2 is irradiated by the irradiator 3 to form an electrostatic latent image thereon, and the image developer 5 attaches a toner thereto to form a visual image.
The toner image is transferred by the transferer 7 onto an intermediate transfer belt 13 from the surface of the photoreceptor drum 1, and the untransferred toner therefrom is removed from the surface of the photoreceptor by a cleaning blade 11 of the cleaner 12. The toner image transferred onto the intermediate transfer belt is transferred by a second transfer roller 8 onto a recording paper fed from a paper feed tray 10 at a second transfer site. The residual toner and external additive after transferred are removed by a cleaning member. The toner image transferred onto the recording paper is melted and bonded thereon, and the recording paper the toner image is bonded on is discharged from an unillustrated paper ejection opening.
The apparatus includes a sensor 15 used for controlling image density and positional adjustment, and a cleaning unit 16 cleaning the toner remaining on the surface of the intermediate transfer belt. The sensor 15 measures an amount of the toner transferred onto the intermediate transfer belt 13 and positions of each color to control image density and positional adjustment. The cleaning unit 16 has a cleaning blade 14 which contacts the belt in a counter direction relative to a travel direction of the belt, and a metallic cleaning counter roller 17. The toner removed by the cleaning blade 14 is transported by a transport coil 18 into an unillustrated waste toner container.
In the toner container 4 in the second position, a projection 22 is formed through a tapered part 23 at the bottom, and the toner outlet 21 is formed on the lower surface of the projection 22. When the toner container 4 changes its position from the second position to the first position, the toner outlet 21 faces in a horizontal direction as
In the image developer 5, a developing roller 25 as a developer bearer, a feed roller 26 and a toner feed member 27 are contained in a case 28 as
When a toner is fed into the case 28, the toner T is fed in an arrow direction. The toner fed by the feed roller 26 onto the developing roller 25 and adhering thereto is uniformed by a regulation blade 33 in
The toner container 4 includes a main cap member 31 and a sub-cap member 32. When the toner outlet 21 of the toner container 4 faces downward (the second position), the main cap member 31 is open to open the toner outlet 21 as
The toner container 4 can further rotate from the first position in
The main cap member 31 operates simultaneously with swing of the toner container 4. Namely, the main cap member 31 operates simultaneously through an interlock mechanism 35 shown in
The pair of catching parts 36 are located at both sides of the projection 22 of the toner container 4, sandwiching the projection 22. Therefore, the pair of catching parts 36 and the catching part 37 do not disturb swing of the toner container 4. A width dimension of a cap of the main cap member 31 (the main cap member 31 itself) and that of a cap 32b of the sub-cap member 32 of the toner outlet 21 of the toner container 4 are within that of a part receiving a swing axis of the toner container 4, i.e., a narrow width part 24 mentioned later.
The sub-cap member 32 covers the surface of the main cap member 31 in the toner container removing position in
The sub-cap member 32 will be specifically explained, using
Near the sub-cap member 32, a regulation member 40 the cap 32b is engaged with is located. Namely, in the first and second positions, from the first position to the second position, and from the second position to the first position, the cap 32b is engaged with the regulation member 40 and does not cover the main cap member 31 against an elastic force of the elastic member. From the first position to the toner container removing position, the cap 32b is released from the regulation member 40. Therefore, in the toner container removing position, the cap 32b covers the main cap member 31. From the toner container removing position to the first position, the cap 32b is engaged with the regulation member 40 and does not cover the main cap member 31.
In
Next, an operation of exchanging the toner container 4 will be explained. First, a way of removing the toner container 4 from the apparatus 100 will be explained. The external cover 20 is opened relative to the toner container 4 to be removed as
Then, as
Next, a way of setting the toner container 4 in the apparatus 100 will be explained. First the toner container 4 is placed in the external cover 20 as
Then, the toner container 4 takes the first position, in which the sub-cap member 32 does not cover the main cap member 31, i.e., as shown in
In the image forming apparatus of the present invention, the toner outlet 21 of the toner container 4 in the second position (when feeding a toner) faces downward in a direction of gravitational force, and the toner can be fed through the toner outlet 21 into the image developer 5. Therefore, a stirrer and a feeder for feeding a toner are not needed in the toner container 4. Namely, the image forming apparatus of the present invention has a simple and low-cost configuration capable of feeding a toner into the image developer from the outlet without the stirrer and the feeder for feeding a toner.
When removing the container, the main cap member 31 closes the toner outlet 21, scattering of a toner therefrom can be prevented. Even when the main cap member 31 closes the toner outlet 21 in the first position and the toner container removing position, the toner T occasionally adheres to the surface of the main cap member 31. Therefore, in the present invention, the toner outlet 21 faces upward relative to the first position when removing the container, and the sub-cap member 32 covers the main cap member 31 from the first position to the toner container removing position. Thus, even when some toners T adheres to the main cap member 31, scattering of a toner T therefrom can be reduced. Namely, scattering of a toner when removing the container can effectively be prevented, contamination thereby can be avoided, and a user does not have to exchange the container with careful attention to scattering of a toner, which simplifies the operation of exchanging the container. Locating the toner outlet 21 of the toner container 4 above in the toner container 4 in the first position can stably prevent the toner T from flowing out from the toner outlet 21. The toner outlet 21 has a large trajectory when the toner container swings, and torque for opening and closing the main cap member is advantageously obtainable with ease. The width dimension of the toner outlet 21 of the toner container 4 can advantageously be fixed to offer a small-size toner container 4.
The toner container 4 has good operability because the toner outlet 21 can be closed only by changing the position of the container from the second position to the first position.
The external cover 20 is opened to change the position of the toner container 4 from the second position to the first position, which can ease the operation of exchanging the container without skill and shorten the time thereof. Each of the toner containers 4 is equipped with an external cover which opens when exchanging the container. In the toner container 4 which does not need exchange, the abrasion of the main cap member 31 (a seal member) due to opening and closing operations thereof can be avoided and scattering of a toner can stably be prevented for long periods.
In
The toner container 4 is covered by the external cover 20 such that the projections 52a and 52b of the toner container 4 are jointed into the straight groove 51a (shown in a virtual line in
Thus, with the swing of the toner container 4 in an arrow X1 direction, the projections 52a and 52b enters deep in the circular grooves 51b and 51c, respectively, and the toner container 4 takes the first position. In the first position, the projections 52a and 52b are located deep in the circular grooves 51b and 51c, respectively.
When the toner container 4 is swung in an arrow X2 direction from the first position, the projections 52a and 52b scrape in the circular grooves 51b and 51c in an arrow X2 direction, respectively, i.e., the projections 52a and 52b enter the straight groove 51a. Then, the toner container 4 is elevated such that the projections 52a and 52b are drawn from the straight groove 51a to take out the toner container 4 from the external cover 20.
The guide mechanism 50 can easily and stably exchange the toner container 4.
In
Namely, a wire stirring member 62 is located at the toner feed opening 30 side of an axis 63 of the first screw 27a forming the toner feed member 27, and the oscillation body 61 is attached to stirring member 62. The stirring member 62 includes a rotating part 62a eccentrically located from the axis of the first screw 27a, and the base of the oscillation body 61 is connected with the rotating part 62a.
When the first screw 27a which is a feed member of the image developer 5 is driven, the axis of the first screw 27a axially rotates. With the rotation, the rotating part 62a eccentrically rotates to reciprocate the oscillation body 61, which can unstiffen a toner near the outlet 21 in the toner container 4. In addition, the eccentric rotation of the rotating part 62a can unstiffen a toner near the toner feed opening 30.
Thus, the unstiffening member 60 can unstiffen a toner near the outlet 21 in the toner container 4, which stably feeds a toner from the outlet 21 and prevents the outlet 21 from being clogged with a toner.
The image forming apparatus of the present invention includes electrophotographic copiers, laser beam printers, facsimiles, etc. An angle (relative to a level surface) of the toner container removing position can optionally be selected as long as a user can remove or fix the toner container 4. A pair of the guide mechanisms 50 are formed on the side wall, but may be one thereon.
This application claims priority and contains subject matter related to Japanese Patent Application No. 2010-174512, filed on Aug. 3, 2010, the entire contents of which are hereby incorporated by reference.
Having now fully described the invention, it will be apparent to one of ordinary skill in the art that many changes and modifications can be made thereto without departing from the spirit and scope of the invention as set forth therein.
Number | Date | Country | Kind |
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2010-174512 | Aug 2010 | JP | national |