Patent Grant
8185032
This application claims priority under 35 USC §119 to Japanese Patent Application No. 2007-064155, filed on Mar. 13, 2007, the entire contents of which are herein incorporated by reference.
1. Field of the Invention
The present invention relates to a used toner collection device and an image forming apparatus employing the used toner collection device.
2. Discussion of the Background Art
Conventionally, in an image forming apparatus, toner collected by a drum cleaner is conveyed and stored in a collection space arranged at an upper section in an all-in-one unit (including a photosensitive drum and peripherals including a toner tank) so as to downsize and save space. Further, as a conveyance system conveying used toner upward, a belt system is sometimes employed and is driven by a driving device for driving the drum cleaner. Various propositions have been presented as to a used toner collection technology as discussed in Japanese Patent Registration Nos. 3592068 and 3327380, and Japanese Patent Application Laid Open Nos. 9-138579, 9-120242, and 8-115032. In many of these conventional technologies, used toner is transferred from a cleaning device to a conveyance belt, and the conveyance belt moves it upward and passes the used toner to the collection space.
In the above-mentioned system, toner is firmly fixed or becomes massed together on the conveyance member due to temperature increase or the like, thereby likely deteriorating a conveyance performance. Further, the used toner remains, becomes massed together, and firmly sticks onto the vertical conveyance member, and thereby possibly deteriorating a conveyance performance in the worst case when an operation of the vertical conveyance member halts.
The present invention has been made in view of the above noted and another problems and one object of the present invention is to provide a new and noble used toner conveyance device.
Such a new and noble used toner conveyance device includes a lateral conveyance member for conveying used toner substantially in the horizontal direction, and a vertical conveyance member for upwardly conveying the used toner transferred from the lateral conveyance member. The vertical conveyance member transfers the used toner to either a collection space or a next conveyance path. The vertical conveyance member stops its operation when a prescribed delay time has elapsed after the lateral conveyance member stops conveyance operation.
In another embodiment, the used toner can be conveyed during the prescribed delay time from a used toner transfer section, at which the used toner is transferred from the lateral conveyance member to the vertical conveyance member, to another used toner transfer section, at which the used toner is transferred from the vertical conveyance member to one of the collection space and the next conveyance path.
In yet another embodiment, a conveyance speed of the vertical conveyance member is slower during the prescribed delay time than that during an ordinary operation.
In yet another embodiment, a driving force accumulation mechanism is provided to accumulate a driving force driving the lateral conveyance member. A driving force is applied from the driving force accumulation mechanism to the vertical conveyance member during the prescribed delay time.
In yet another embodiment, the vertical conveyance member gradually increases its conveyance speed after starting up, while the driving force driving the lateral conveyance member is accumulated at the same time in the driving force accumulation mechanism.
In yet another embodiment, the vertical conveyance member is forcibly stopped or interrupted when a door covering the vertical conveyance member is open during the prescribed delay time.
In yet another embodiment, toner having a low melting point is used.
In yet another embodiment, polymerized toner is used.
In yet another embodiment, a processing cartridge or an image forming apparatus includes the used toner conveyance device.
A more complete appreciation of the present invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
Referring now to the drawings, wherein like reference numerals and marks designate identical or corresponding parts throughout several figures, in particular In
The vertical conveyance path 4 includes a conveyance belt 8 rotating around a pair of rollers 5 and 6 with plural protrusions 7. The used toner 2 passed to the vertical conveyance path 4 is upwardly conveyed by the conveyance belt 8, and is further passed to either a collection space or the next path 10 from a transfer section 9.
In this embodiment, the vertical conveyance member 8 stops with a prescribed delay after the lateral conveyance path 1 stops supplying the used toner 2 from the lateral conveyance path 1 to the vertical conveyance path 4. Thus, since the vertical conveyance member 8 operates even after the lateral conveyance path 1 stops, toner remaining on the vertical conveyance member 8 can be decreased, and fixation and aggregation can be prevented. Further, the used toner can be credibly conveyed even after the path is left unused for a long time period and then restarts.
Now, an exemplary sequence of operations of the lateral and the vertical conveyance paths 1 and 4 is described with reference to
Now, a second embodiment is described. The second embodiment is based on the first embodiment of
According to this embodiment, since such conveyance is executed from an input position to an output position (i.e., between the transfer sections 3 and 9) during the prescribed delay, the less toner remains on the vertical conveyance member 8. As a result, the used toner can be prevented from fixation and aggregation, and is more credibly conveyed after the path 4 is left unused for a long time period.
When L represents a distance from the inlet to the outlet of the vertical conveyance path 4, the following relation is preferably satisfied:
L≦S
Further, a conveyance performance can especially be improved if a conveyance speed is decreased as mentioned with reference to the second and third examples of
Now, a third embodiment is described. In this embodiment, as shown in the second and third examples of
An amount of conveyable toner per hour is in proportion to an operation speed of a conveyance path. That is, the more the speed, the more the amount of conveyable toner. However, due to thrusting resistance created between a conveyance belt and a side wall or toner leakage and the like, each caused when the speed increases, an amount of actually conveyable toner (i.e., a conveyance efficiency) likely decreases in relation to a moving distance of the conveyance belt.
According to this embodiment, since the used toner to the conveyance member 8 is stopped inputting during the prescribed delay, there is no limitation to a conveyance amount per hour for the vertical conveyance member 8. Thus, if used toner is conveyed by the vertical conveyance member 8 at a highly efficient speed, toner remaining on the conveyance path can be reduced efficiently, and is credibly conveyed after a long halt.
Now, a fourth embodiment is described. This embodiment is based on the one of first to third embodiments. Specifically, a driving force for the vertical conveyance member 8 during the prescribed delay time is obtained from a driving source for driving the lateral conveyance path 1 via a driving force accumulation mechanism. Specifically, a driving force for driving the vertical conveyance member 8 during the prescribed delay is obtained from the driving force accumulation mechanism. For example, a spiral spring or a flywheel can be used as the driving force accumulation mechanism.
An exemplary configuration of the driving force accumulation mechanism 12 with a built-in spiral spring is described with reference to
According to this embodiment, an operation of the vertical conveyance path during the prescribed delay is achieved at low cost without a special driving source for vertical conveyance path private use, such as a motor, etc.
Now, a fifth embodiment is described. This embodiment is based on one of the first to fourth embodiments. Further, a driving force for the vertical conveyance member 8 is obtained from a driving source for driving the lateral conveyance path 1 via the above-mentioned driving force accumulation mechanism 12. The vertical conveyance member 8 gradually increases its traveling a speed after starting up while a driving force is accumulated in the driving force accumulation mechanism 12 until the vertical conveyance belt 8 reaches a normal speed.
According to this embodiment, when the driving force is accumulated, an amount of toner conveyed by the vertical conveyance member 8 becomes less than that conveyed by the lateral conveyance path 1. However, since an amount of the used toner on the vertical conveyance member 8 is more decreased than that is the first to fourth embodiments, the used toner almost does not pile up nor is aggregated. Thus, the driving force can be accumulated in the driving force accumulation mechanism 12.
An exemplary sequence of lateral and vertical driving is described with reference to
Now, a sixth embodiment is described. This embodiment is based on the first to fifth embodiments, and wherein when a door of an image forming apparatus is unexpectedly open during the prescribed delay, the operation during the prescribed delay is forcibly interrupted or stopped.
According to this embodiment, even though a user or the like opens the door of the apparatus during the delay time operation, an accident possibly caused by erroneously contacting an operation section can be avoided by forcibly interrupting or stopping the operation during the prescribed delay. When such a driving force accumulation mechanism 12 is employed, since it can't be stopped simply by turning off an electric system different from a situation in which a motor is used for driving the vertical conveyance belt 8, a safeguard, such as a brake, a stopper, etc., is needed. Then, a prescribed safeguard can be arranged in an image forming apparatus or an all-in-one unit or the like.
Now, a seventh embodiment is described. This embodiment is based on the first to sixth embodiments, and further employing low melting point toner.
Specifically, the low melting point toner hardly sticks and is not aggregated on the vertical conveyance member 8. Further, the used toner can credibly be conveyed even if the vertical conveyance path is not used for a long time period.
Now, a ninth embodiment is described. This embodiment is based on the first to sixth embodiments, and further employs polymerization toner.
Specifically, the polymerization toner hardly sticks and is not aggregated on the vertical conveyance member 8. Further, the used toner can credibly be conveyed even if the vertical conveyance path is not used for a long time period.
Now, a tenth embodiment is described. This embodiment is based on the first to ninth embodiments and further includes a process cartridge. Specifically, the process cartridge preferably includes the lateral and vertical conveyance paths 1 and 4 as mentioned in the above-mentioned embodiment to seal the toner. The process cartridge preferably receives transmission of driving force or the like from an outside.
Now, a schematic configuration of an image forming apparatus according to an eleventh embodiment is described with reference to
Obviously, numerous additional modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the present invention may be practiced otherwise than as specifically described herein.
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| Number | Date | Country | |
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