1. Field of the Invention
The present invention relates to an image forming apparatus such as copiers, facsimiles and printers. More particularly, the present invention relates to a driving device for rotating a developer bearing member which is arranged so as to face an image bearing member to develop an electrostatic latent image on the image bearing member with a developer.
2. Discussion of the Background
Published Unexamined Japanese Patent Applications Nos. (hereinafter referred to as JP-As) 2001-083801 and 2002-182470 have disclosed image forming apparatus including a photoreceptor serving as an image bearing member and a plurality of developing devices which contain respective developers (different color toners) and develop electrostatic latent images with the different color toners to form multi-color images.
Developing devices using a one component developing method are typically used for such image forming apparatus. The one-component developing methods are as follows:
The one component developing method has the following advantages over two component developing methods which use a two component developer including a toner and a carrier:
However, the developing devices using a one component developing method have the following drawbacks:
JP-As 2002-182470, 2001-356589 and 05-113714 have disclosed techniques in that the developing roller is reversely rotated to remove the foreign materials staying at the nip between the developing roller and the developer thickness controlling member from the nip to prevent occurrence of the above-mentioned problems.
The upper second gear 32B is engaged with a third gear 32C(K) which is fixedly mounted on a clutch 32D(K) and which is used for driving a black color (K) developing device. In addition, the upper second gear 32B is also engaged with a third gear 32C(Y) which is fixedly mounted on a clutch 32D(Y) and which is used for driving a yellow color (Y) developing device.
The lower second gear 32B′ is engaged with a third gear 32C(C) which is fixedly mounted on a clutch 32D(C) and which is used for driving a cyan color (C) developing device. In addition, the lower second gear 32B′ is also engaged with a third gear 32C(M) which is fixedly mounted on a clutch 32D(M) and which is used for driving a magenta color (M) developing device. These third gears 32C are arranged in a line in the vertical direction.
The clutch 32D(K) and a driving gear 34(K), which drives a black color (K) developing cartridge (not shown) and a black color (K) developing roller (not shown) to rotate, are coaxially mounted on a driving shaft 33(K). When the clutch 32D(K) is not engaged, the third gear 32C(K) idles. When the clutch 32D(K) is engaged, the third gear 32C(K) is connected with the driving shaft 33(K), and thereby the driving shaft 33(K) is rotated.
As mentioned above, the driving gear 34(K) is fixedly mounted on the driving shaft 33(K). A driven gear 35(K) which is illustrated by a dotted line in
When the clutch 32D(K) is engaged, the driving force of the third gear 32C(K) is transmitted to the driving shaft 33(K). Thereby the driving gear 34(K) is rotated, and the driving force is transmitted to the driven gear 35(K), resulting in rotation of the black color developing roller. At the same time, the black color developing cartridge is moved toward an image bearing member (i.e., a photoreceptor) due to the tangential force caused by engagement between the driving gear 34(K) and the driven gear 35(K).
Similarly to the above-mentioned driving operations of the black color developing roller and the black color developing cartridge, the developing rollers and developing cartridges for use in cyan (C) color, magenta (M) color and yellow (Y) color development operations are driven.
However, when image forming operations are continuously performed several times, the foreign material removing operation (i.e., the reverse rotation operation of the developing roller) has to be performed at the end of each image forming operation, and thereby the image forming speed is decreased.
In attempting to solve the problem, JP-A 05-113714 discloses a technique in that the foreign material removing operation is performed after performing the image forming operations predetermined times. However, the problems in that the image qualities deteriorate and/or the resultant images have white streaks often occur during a time period between a foreign material removing operation and the next foreign material removing operation.
Because of these reasons, a need exists for a developing device which can form visual images at a high speed without causing image quality deterioration problems such as formation of the white streak images.
Accordingly, an object of the present invention is to provide an image forming apparatus which can produce visual images having good image qualities at a high speed.
Briefly this object and other objects of the present invention as hereinafter will become more readily apparent can be attained by an image forming apparatus including:
It is preferable that the developer thickness controlling member has a roller-form, wherein the developer thickness controlling members are stopped when the respective developer bearing members rotate to develop the latent images, and when the respective developer bearing members are reversely rotated, the developer thickness controlling members is rotated while driven by the respective developer bearing members.
In addition, it is preferable that the driving device further includes:
driving gears mounted on both ends of respective support shafts of the developer bearing members, wherein the developer bearing members are supported by the respective support shafts; and
drive force transmitting gears which are engaged with the respective driving gears, wherein when the driving gears are rotated to rotate the respective developer bearing members, the corresponding developing device is moved a position close to the image bearing member due to the tangential driving force of the driving gears.
In this image forming apparatus, the forward driving member rotates one of the developer bearing members in the developing operation and the reverse rotation driving member reversely rotates different one of the developer bearing members when the developing operation is not performed can be driven at the same time. Namely, it is possible that when one of the developer bearing members is rotated in a direction to perform the developing operation, different one of the developer bearing members is rotated in the reverse direction to remove foreign materials and aggregated toner particles staying at the nip.
Thus, foreign materials and aggregated toner particles staying at the nip can be removed (i.e., deterioration of image qualities can be prevented) without reducing the image forming speed (i.e., the image developing speed).
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 image forming apparatus of the present invention will be explained referring to a color laser printer (hereinafter referred to as a printer) having four sets of developing devices.
In this embodiment, the photoreceptor 11 is a belt photoreceptor on the surface of which an organic photosensitive layer is formed. Around the photoreceptor 11, the charger 12, the developing unit 14 and the cleaner 19 are arranged.
The charger 12 applies a high voltage to the photoreceptor 11 to uniformly charge the photoreceptor 11.
The writing device 13 includes a laser diode (not shown), a polygon mirror 13A, an f/θ lens 13B, a reflection mirror 13C, etc. Laser light is emitted from the laser diode according to the image signals corresponding to a black color (K) image, a cyan color (C) image, a magenta color (M) image and a yellow color (Y) image. The thus emitted laser light is reflected from the polygon mirror 13A and passes through the f/θ lens 13B, followed by reflection from the reflection mirror 13C to irradiate the surface of the photoreceptor 11. Thus, an electrostatic latent image is formed on the photoreceptor 11.
The developing unit 14 includes four developing cartridges which contain different color toners having a charge opposite to that of the charge formed on the photoreceptor 11 but have the same constitution. Only one developing cartridge 21 is illustrated in
As illustrated in
Referring to
The thus prepared color toner image is transferred onto a receiving paper, which has been fed by the paper feeding device 16, by the transfer device 17 while a voltage having a polarity opposite to that of the charges of the toners is applied to the receiving paper. The color image transferred on the receiving paper is melted and fixed on the receiving paper by the fixer 18. The thus prepared color copy is discharged from the printer 1.
Referring to
As illustrated in
When the rotation driving force of the driving motor 31 is transmitted to the driving shaft 33 and thereby the driving shaft 33 is rotated, the driving gears 34 mounted on the driving shaft 33 are rotated. The rotation driving force is also transmitted to the driven gears 35 which are engaged with the driving gears 34, and thereby the developing roller 22 can be rotated and the developing cartridge 21 can be moved toward the photoreceptor 11.
On both ends of the rotating shaft 38, caps 36 are provided. In addition, guide members 37 are provided on the housing 10 of the main body to guide the caps 36 to move back and forth. As illustrated in
When the developing cartridge 21 has the developing position as illustrated in
Then the regulation roller 24 will be explained.
The driving mechanism for use in this embodiment is illustrated in
A first gear 32Aa and a second gear 32Ba which are rotated by the driving force of the driving motor 31a are provided. The second gear 32Ba is engaged with a third gear 32C(K) of the K developing cartridge 21K, which is mounted on a clutch 32D(K) thereof. In addition, the second gear 32Ba is also engaged with a third gear 32C(Y) of the Y developing cartridge 21Y, which is mounted on a clutch 32D(Y) thereof. The K developing cartridge and the Y developing cartridge are arranged in a line in a vertical direction.
The clutch 32D(K) and a driving gear 34(K), which drives the K developing roller and the K developing cartridge, are coaxially mounted on a driving shaft 33(K). In addition, the driving gear 34(K) is engaged with the driven gear 35 mounted on the rotation shaft 38 of the developing roller 22, as illustrated in
Similarly, the driving motor 31b, which is located at a position lower than that of the driving motor 31a, includes a first gear 32Ab and a second gear 32Bb. The second gear 32Bb is engaged with a third gear 32C(C) of the C developing cartridge 21C, which is mounted on a clutch 32D(C) thereof. In addition, the second gear 32Bb is also engaged with a third gear 32C(M) of the M developing cartridge 21M, which is mounted on a clutch 32D(M) thereof. In addition, similarly to the case mentioned above, the clutches 32D(C) and 32D(M) are mounted on respective driving shafts 33(C) and 33(M) on which the driving gears 34(C) and 34(M) are mounted, respectively.
Then the developing operation of the developing unit for use in the image forming apparatus of the present invention will be explained referring to
When the developing operation is started, the driving motor 31a is forwardly rotated at a predetermined rotation speed. The rotation force of the gears are transmitted to the driving shaft 33K while the clutch 32D(K) is engaged by a driving mechanism (not shown in
When the black color (K) developing operation is completed, the clutch 32D(K) is disengaged and the motor 31a is stopped once. When the clutch 32D(K) is disengaged, the black color developing cartridge 21K is retreated due to the elastic force of the compression spring 25, and is stopped while the back of the developing cartridge 21K is contacted with the stopper 24 which is illustrated in
Then the driving motor 31a optionally rotates reversely at a predetermined speed slower than that in the forward rotation. At the same time, the other driving motor 31b rotates in the forward rotation direction at a predetermined rotation speed. Then the clutch 32D(K) and the clutch 32D(M) are engaged to transmit the driving forces to the respective driving shafts. The developing roller connected with the clutch 32D(K) is reversely rotated to remove the toner particles and foreign materials staying at the nip between the (K) developing roller and the (K) regulation roller. On the other hand, the (M) developing device 21M to which the driving force is transmitted by the clutch 32D(M) is moved toward the photoreceptor 11 and the (M) developing roller is rotated in the forward direction. Thus, the magenta color developing operation is performed as illustrated in
Similarly to the operations mentioned above, after the magenta color developing operation is completed, the yellow color developing operation is performed while the toner particles and foreign materials staying at the nip between the (M) developing roller and the (M) regulation roller are removed as illustrated in
In this embodiment, the latent image forming and developing operations are performed in the order of black (K), magenta (M), yellow (Y) and cyan (C) colors, but the order is not limited thereto. In addition, the foreign material removing operations (i.e., the reverse rotation operations of the developing rollers) are not limited to the order mentioned above.
In the driving system of this embodiment, a motor gear 31A of the driving motor 31 is engaged with an upper first gear 32A and a lower first gear 32A′. The upper first gear 32A is engaged with an upper second gear 32B which is located over the upper first gear 32A, and the lower first gear 32A′ is engaged with a lower first gear 32B′ which is located under the lower first gear 32A′.
The driving force of the upper second gear 32B is transmitted to a third gear 32C(K) mounted on a driving shaft 33(K) for use in developing black color images and to another third gear 32C(Y) mounted on a driving shaft 33(Y) for use in developing yellow color images, via respective clutches 32F(K) and 32F(Y). Similarly, the driving force of the lower second gear 32B′ is transmitted to a third gear 32C(C) mounted on a driving shaft 33(C) for use in developing cyan color images and to another third gear 32C(M) mounted on a driving shaft 33(M) for use in developing magenta color images, via respective clutches 32F(C) and 32F(M).
In addition, driving gears 34(K), 34(Y), 34(C) and 34(M) are mounted on the respective driving shafts 33(K), 33(Y), 33(C) and 33(M). The driving gears 34(K), 34(Y), 34(C) and 34(M) are engaged with respective driven gears 35 which are mounted on the respective driving shafts 38 of the respective developing rollers 22 and which are illustrated in
The forward rotation driving system (F-line) includes the clutches 32F(K) and 32F(Y), to which rotation force is transmitted by the upper second gear 32B, and the clutches 32F(C) and 32F(M), to which rotation force is transmitted by the lower second gear 32B′.
The clutch 32F(K) used for black color image formation is equipped with a gear, which is engaged with both the upper second gear 32B and the third gear 32C(K) mounted on the driving shaft 33(K). Thus, the driving force of the motor 31 is transmitted to the driving gear 34(K), and thereby the driving gear 34(K) is rotated in the clockwise direction (i.e., in the forward direction). Similarly to this driving system for black color image formation, driving force is transmitted in the driving systems for cyan, magenta and yellow color image formation, and the respective driving gears are rotated in the forward direction.
The reverse rotation driving system (G-line) includes clutches 32G(K) and 32G(Y), to which a rotational force is transmitted by the upper second gear 32B, and clutches 32G(C) and 32G(M), to which rotation force is transmitted by the lower second gear 32B′. In order to reversely rotate the driving shafts 33(K), 33(Y), 33(C) and 33(M), rollers G and G′ having respective timing belts T and T′ are provided on a location inside or outside of the respective upper and lower second gears 32B and 32B′.
In addition, each of the clutches 32G(K), 32G(Y), 32G(C) and 32G(M) has a portion bearing the timing belts T and T′. Further, a gear is provided on a location inside or outside of the portion bearing the timing belt T or T′. Since the gear is engaged with the third gear 32C, the driving force is transmitted to the driving gear 34. In this case, the rotation direction of the clutch 32G is the same as that (i.e., the clockwise direction) of the second gear 32B. Therefore, the driving gear 34 is reversely rotated.
In the developing device having such a constitution as illustrated in
The first-mentioned driving system for use in the image forming apparatus of the present invention has two different lines, one of which includes the upper developing cartridges 21K and 21Y and the upper developing rollers 22 for black and yellow color image formation and the other of which includes the lower developing cartridges 21C and 21M and the lower developing rollers 22 for cyan and magenta color image formation. Therefore, the lower developing rollers can be rotated in a direction opposite to that of the upper developing rollers. Therefore, one of the developing rollers which have completed its developing operation can be reversely rotated before the next color developing operation starts or during the next color developing operation is performed. Thus, it is possible to perform the foreign material removing operation while an image forming operation for another color image is performed. As a result, images having good image qualities can be reproduced without decreasing the image forming speed even when images are continuously produced.
The second-mentioned driving system has both the forward rotation driving system (F-line) in which the developing roller are forwardly rotated and the reverse rotation driving system (G-line) in which the developing rollers are reversely rotated. Therefore, when one of the developing rollers is rotated in the forward direction by the forward rotation driving system (F-line), the other developing rollers can be reversely rotated by the reverse rotation driving system (G-line). Therefore, one of the developing rollers which have completed its developing operation can be reversely rotated to perform the foreign material removing operation when the other color developing operation is performed. As a result, images having good image qualities can be reproduced without decreasing the image forming speed even when images are continuously produced.
The contact/separate mechanism for use in the image forming apparatus of the present invention not only moves the developing device toward the image bearing member (i.e., the photoreceptor) utilizing the tangential driving force of gears such that the developing cartridge has a position close to the photoreceptor but also rotates the developing roller. Namely, both the movement of the developing cartridge and the rotation of the developing roller can be performed by only one mechanism, resulting in simplification of the developing device.
In addition, the regulation roller for use in the image forming apparatus of the present invention is rotated while driven by the developing roller when the developing roller is reversely rotated whereas the regulation roller is stopped when the developing roller is forwardly rotated. Therefore, it is possible to securely remove the toner particles and foreign materials staying at the nip between the developing roller 22 and the regulation roller 24. In addition, the portion of the regulation roller which is pressed by the developing roller is not limited because the regulation roller is sometimes rotated while driven by the developing roller. Therefore, the regulation roller is hardly abraded, and thereby good images can be stably produced for a long period of time.
Effect of the Invention
In the image forming apparatus of the present invention, a developing roller can be reversely rotated to remove toner particles and foreign materials staying at the nip between the developer bearing member (such as developing rollers) and a developer thickness controlling member (such as regulation rollers) while an image forming operation for another color image is performed. Therefore, images having good image qualities can be reproduced without decreasing the image forming speed even when images are continuously produced.
This document claims priority and contains subject matter related to Japanese Patent Application No. 2003-146881, filed on May 23, 2003, incorporated herein 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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2003-146881 | May 2003 | JP | national |
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Number | Date | Country | |
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20040234296 A1 | Nov 2004 | US |