Patent Grant
7043190
1. Field of the Invention
The present invention relates an image forming apparatus employing an electro-photographic process such as a laser printer, an electro-photographic copying machine and the like, and particularly, to an image forming apparatus having a toner recycle mechanism, and a controlling method therefor.
2. Related Art Statement
In an Image forming apparatus 1 employing an electro-photographic process such as a laser printer, an electrophotographic copying machine and the like, as shown in
On the other hand, paper P is carried to a transfer region by carrying rollers 7, 7, the paper P is charged by a transfer device 8, and a toner image formed on the surface of the photosensitive drum 2 is transferred to the surface of the paper P. The paper P is stripped from the surface of the photosensitive drum 2 by a stripping device 9, a toner image is fixed to the surface of the paper P by a fixing device (not shown), and the paper P is discharged outside the device by a discharging roller (not shown).
After the toner image has been transferred to the surface of the paper P, toner remained on the surface of the photosensitive drum 2 is scraped off by a blade 11 of a cleaning device 10 to recover it, and then a load remained on the surface of the photosensitive drum 2 is removed by an eliminator 12 to place the surface of the photosensitive drum 2 in an initial state.
In a developing device 5 employing a two-components developing system, as shown in
A toner recycle mechanism 16 is constituted by a carrying screw 17 disposed within the cleaning device 10, a toner carrying tube 18 for communications between the cleaning device 10 and the developing device 5, a carrying screw 19 disposed within the toner carrying tube 18, and the like. Toner TR recovered into the cleaning device 10 is introduced into a toner carrying tube 18 by the carrying screw 17, and carried into the toner carrying tube 18 by a carrying screw 19, and the toner TR is supplied into the developing device 5.
When the developing device 5 is continued to be driven for a long period of time, toner T being mixed and stirred becomes deteriorated, and a degree of agglomeration of toner T within the developing device 5 changes also. When a degree of agglomeration of toner T within the developing device 5 becomes excessively low, a quantity of toner adhered to the surface of the photosensitive drum 2 increases, and therefore a fog phenomenon occurs in which fine toner is adhered to the whole paper P. On the other hand, when a degree of agglomeration of toner T within the developing device 5 becomes excessively high, a quantity of toner adhered to the surface of the photosensitive drum 2 decreases, and therefore an unevenness in density occurs in a toner image formed on paper P.
In view of the foregoing, there has been proposed an image forming apparatus wherein in order that, even if a degree of agglomeration of toner T within the developing device 5 is changed, an image which is excellent in quality and stabilized in density can be formed on paper P, a degree of agglomeration of toner T is detected on the basis of rotational torque of the stirring screws 13, 14, and a development bias voltage is controlled corresponding to the degree of agglomeration of toner T (see Japanese Patent Application Laid-Open No. Hei 11-352758 Publication).
However, in the image forming apparatus having a toner recycle mechanism sometimes involves a case where a large quantity of recycle toner TR recovered is supplied into the developing device 5, and the rotational torque of the stirring screws 13, 14 elevates. In such a case as described, as disclosed in Japanese Patent Application Laid-Open No. Hei 11-352758 Publication, even if a development bias voltage is made high, a phenomenon such as fog in paper P or scattering of toner is not improved because an amount of charge of toner T present within the developing device 5 (fresh toner TF and recycle toner TR) is uneven.
That is, it is contemplated that dominant causes that a degree of agglomeration of toner T within the developing device 5 changes are both 1) a deterioration of toner T, and 2) an excessively large supply of recycle toner TR). However, the fact that by which dominant cause the degree of agglomeration of toner T within the developing device 5 was changed cannot be judged merely by detecting the rotational torque of the stirring screws 13, 14. Therefore, in the image forming apparatus disclosed in Japanese Patent Application Laid-Open No. Hei 11-352758 Publication, the phenomenon such as fog in paper P or scattering of toner could not be improved positively.
The present invention has been accomplished in view of the conventional problems in the image forming apparatus having a toner recycle mechanism. An object of the invention is to provide an image forming apparatus capable of effectively preventing a fog or toner scattering from occurring on a white ground of paper, and unevenness of density from occurring on an image formed on paper.
For achieving the aforesaid object, an image forming apparatus according to an embodiment of the present invention is characterized in that rotational torque of a stirring screw disposed within a developing device and capacity of recycle toner within a developing device are detected, and where the rotational torque of the stirring screw is elevated and the capacity of the recycle toner is increased, control operation for lowering a rotational speed of the stirring screw is executed without changing a development bias voltage, and where the rotational torque of the stirring screw is elevated and the capacity of the recycle toner is not increased, control operation for elevating a development bias voltage is elevated and the rotational speed of the stirring screw is not changed.
An embodiment of an image forming apparatus having a toner recycle mechanism employing a two-components developing system will be described in detail hereinafter with reference to the drawings.
An image forming apparatus 1 comprises, as shown in
The developing device 5 receives therein, as shown in
The image forming apparatus 1 has a toner recycle mechanism 16, and the toner recycle mechanism 16 comprises a carrying screw 17 disposed within the cleaning device 10, a toner carrying tube 18 for communications between the cleaning device 10 and the developing device 5, a carrying screw 19 disposed within the toner carrying tube 18, and the like.
The toner T received within the developing device 5 is mixed and stirred by the stirring screws 13, 14, and charged to negative polarity by friction. The carrier C having magnetism is magnetic adsorbed in the surface of the developing roller 6 whereby the toner T electrostatic adsorbed is also held and carried to the surface of the developing roller 6. A bias voltage is applied to the surface of the developing roller 6 whereby the toner T held and on the surface of the developing roller 6 is electrostatic adhered to an electrostatic latent image forming portion of the surface of the photosensitive drum 2 to form a toner image on the surface of the photosensitive drum 2.
The toner image formed on the surface of the photosensitive drum 2 is transferred to the surface of paper P by the transfer device 8, but the toner remained on the surface of the photosensitive drum 2 after transfer is scraped off by the blade 11 and recovered into the cleaning device 10. The toner TR recovered into the cleaning device 10 is introduced into the toner carrying tube 18 by the carrying screw 17, and carried to the developing device 5 while flowing into the toner carrying tube 18 by means of the carrying screw 19.
Where toner T is consumed by development, fresh toner TF is supplied from the toner hopper 15 into the developing device 5, and recycle toner TR is supplied from the cleaning device 10, and the supplied toners TF, TR are mixed with the carrier C and stirred, and charged to negative polarity by friction.
In the image forming apparatus 1 according to the present embodiment, toner density in the developer D, rotational torque of the stirring screws 13, 14, and capacity of the recycle toner TR are detected in order to grasp the circumstances of toner T in the developer D.
The toner density in the developer D is detected by disposing a toner density sensor 21 downwardly of the stirring screw 14 and on the basis of a change in permeability of the developer D; the rotational torque of the stirring screws 13, 14 is detected on the basis of a change in current of a motor driving the stirring screws 13, 14; and the capacity of the recycle toner TR is detected by disposing a level sensor 20 in the vicinity of a supply port of the recycle toner TR and on the basis of a change in height of the developer D.
The image forming apparatus according to the present embodiment is characterized in that the dominant cause of changing a degree of agglomeration of toner F within the developing device 5, which could not be judged merely by detecting the rotational torque of the stirring screws 13, 14, can be judged in a manner such that the capacity of the recycle toner TR is detected whereby either 1) deterioration of toner T or 2) excessive supply of the recycle toner TR is discriminated positively.
The fact that even if the rotational torque of the stirring screws 13, 14 is elevated, the height of the developer D is elevated and the capacity of the recycle toner TR is increased is discriminated as the dominant cause of the 2) excessive supply of the recycle toner TR, and the rotational speed of the stirring screws 13, 14 is lowered without elevating the development bias voltage, the staying time within the developing device 5 of the recycle toner TR is sufficiently extended, and charging is done till the good condition is obtained.
It is noted that such a control operation as described is executed before starting of print or at the time of waiting for print after termination of print. However, where the fact that an increase in capacity of the recycle toner TR is detected at the time of continuous print, the continuous print operation is forcibly stopped, and the operation is executed as the print waiting state.
In a case where toner T in the developer D is in various circumstances, image characteristics when print operation is executed, and fixed control operation to be executed and image characteristics when print operation is executed later will be specifically described referring to embodiments.
Where the image forming apparatus 1 shown in
Here, toner density in the developer D is that 6.5% is a reference value, and its ±0.5% is an allowable range; rotational torque of the stirring screws 13, 14 is that 1.8 kg·cm is a reference value, and 1.4 to 2.2 kg·cm is an allowable range; and capacity of the recycle toner TR is that 13 mm is a reference value, and 8 to 18 mm is an allowable range.
In case of the embodiment 1, toner density in the developer D is 6.5%, rotational torque of the stirring screws 13, 14 is 1.8 kg cm, and capacity of the recycle toner TR is 18 mm, which are the state that the toner density in the developer D is stabilized, the image density is sufficient and the fog as well as toner scattering are rarely found.
In case of the embodiment 2, toner density in the developer D is 6.5%, rotational torque of the stirring screws 13, 14 is 2.3 kg·cm, and capacity of the recycle toner TR is 20 mm, which are the state that a supply of the recycle toner TR is excessive, the image density is sufficient but the fog and toner scattering are found to be considerably much.
In case of the embodiment 3, toner density in the developer D is 6.5%, rotational torque of the stirring screws 13, 14 is 2.3 kg cm, and capacity of the recycle toner TR is 11 mm, which are the state that the developer D is deteriorated, the image density is sufficient but the fog and toner scattering are found to be considerably much.
In case of the embodiment 4, toner density in the developer D is 5.9%, rotational torque of the stirring screws 13, 14 is 2.3 kg cm, and capacity of the recycle toner TR is 11 mm, which are the state that the developer D is lowered, the image density is lowered but the fog and toner scattering are rarely found.
Next, with respect to the cases of the embodiments 1 to 3, image characteristics when print operation is executed after fixed control operation was executed were confirmed. The results are as shown in
Here, the development bias voltage is that E is a reference value, and the rotational speed of the stirring screws 13, 14 is that F is a reference value.
In the case of the embodiment 1, since the toner density in the developer D is in the stabilized state, no control operation was not executed.
In the case of the embodiment 2, since the state is that the rotational torque of the stirring screws 13, 14 is elevated, the capacity of the recycle toner TR is also increased, and the supply of the recycle toner TR is excessive, the rotational speed of the stirring screws 13, 14 was lowered. By such a control operation as described, the fog and toner scattering were rarely found.
In the case of the embodiment 3, since the state is that the rotational torque of the stirring screws 13, 14 is elevated, the capacity of the recycle toner TR is reduced, and the developer D is deteriorated, the development bias voltage was elevated. By such a control operation as described, the fog and toner scattering were rarely found.
In the case of the embodiment 4, since the state is that the toner density in the developer D is lowered, fresh toner TF was supplied into the developing device 5. By such a control operation as described, the image density was elevated to assume the good state.
Where the image forming apparatus 1 shown in
In the case of the comparative example 1, toner density in the developer D is 6.5%, and rotational torque of the stirring screws 13, 14 is 2.3 kg.cm, but capacity of the recycle toner TR is not detected. Therefore, either 1) the state that the developer D is deteriorated or 2) the state that the supply of the recycle toner TR is excessive cannot be discriminated, and the image density is sufficient but the fog and toner scattering were found to be considerably much.
Also, in the case of the comparative example 2, toner density in the developer D is 6.5%, and rotational torque of the stirring screws 13, 14 is 2.3 kg.cm, but capacity of the recycle toner TR is not detected. Therefore, either 1) the state that the developer D is deteriorated or 2) the state that the supply of the recycle toner TR is excessive cannot be discriminated, and the image density is sufficient but the fog and toner scattering were found to be considerably much.
Next, with respect to the cases of the comparative examples 1 and 2, the image characteristics when the print operation was executed after the fixed control operation has been executed were confirmed. The results are as shown in
In the case of the comparative example 1, since the rotational torque of the stirring screws 13, 14 was elevated, the development bias voltage was elevated. However, by such a control operation as described, the fog and toner scattering were hardly improved.
Also, in the case of the comparative example 2, since the rotational torque of the stirring screws 13, 14 was elevated, the development bias voltage was elevated. However, by such a control operation as described, the fog and toner scattering were hardly found.
As described above, in the case of the comparative example 1, since the capacity of the recycle toner TR is not detected, either 1) the state that the developer D is deteriorated or 2) the state that the supply of the recycle toner TR is excessive cannot be discriminated, and the fog and toner scattering could not be improved positively.
While in the present embodiments, the two-components developer has been used, it is to be noted that the present invention can be also applied to a single component developer not containing a carrier C.
Further, while in the present embodiments, as a toner density sensor, the sensor for detecting a change in permeability has been used, it is to be noted that a light reflecting type sensor arranged opposite to a developing roller or a photosensitive drum or the like may be used.
| Number | Name | Date | Kind |
|---|---|---|---|
| 5508793 | Kimura et al. | Apr 1996 | A |
| 5950062 | Yahata et al. | Sep 1999 | A |
| 6832058 | Akita et al. | Dec 2004 | B1 |
| Number | Date | Country |
|---|---|---|
| 11-352758 | Dec 1999 | JP |
| Number | Date | Country | |
|---|---|---|---|
| 20050214047 A1 | Sep 2005 | US |
