This application is related to Japanese Patent Application No. 2011-034851 filed on Feb. 21, 2011, whose priority is claimed and the disclosure of which is incorporated by reference in its entirety.
1. Field of the Invention
The present invention relates to a developing device and an image forming apparatus. More particularly, the present invention relates to a developing device with the use of a two-component developer including a toner and a magnetic carrier, and an image forming apparatus such as an electrostatic copying machine, a laser printer and a facsimile machine that form images using the developing device by an electrophotographic method.
2. Description of the Related Art
In the image forming apparatus using the electrophotographic method, an electrostatic latent image is formed on a surface of a photoconductor drum (toner image holder), toner is supplied to the photoconductor drum by means of a developing device to develop the electrostatic latent image, a toner image formed on the photoconductor drum through the development is transferred onto a sheet such as a paper sheet, and the toner image is fused onto the sheet by means of a fuser.
In recent years, for a full-color compliant and high-definition compliant image forming apparatus, a two-component developer (hereinafter, may be referred to simply as “developer”) has been widely used, which is excellent in toner charging stability. The developer includes a toner and a magnetic carrier. The toner and the carrier are agitated in a developing device to generate friction between the toner and the magnetic carrier, and the friction allows the toner to be appropriately charged.
The charged toner is supplied to a surface of a developer holder such as a developing roller. The toner supplied to the developing roller is transferred to an electrostatic latent image formed on a photoconductor drum by electrostatic attraction. Thus, a toner image based on the electrostatic latent image is formed on the photoconductor drum.
Further, such an image forming apparatus is required to be more high-speed and downsized. It is therefore necessary to quickly perform sufficient charging of a developer and to quickly convey the developer.
To this end, as a today's image forming apparatus, there
B has been proposed an image forming apparatus including a circulative developing device in order to instantly disperse supplementary toner into a developer to give an appropriate amount of charge.
For example, Japanese Unexamined Patent Publication No. 2004-272017 proposes a developing device comprising a developing container including a developing chamber and an agitating chamber that are separated by a partition wall to constitute a circulation route for a developer, the developing chamber comprising a developer carrying member for carrying the developer including a toner and a carrier and conveying the developer to an image bearing member, the agitating chamber comprising: a screw member having an agitating vane on a rotation axis and plate-like members (fins) attached to spaces in the agitating vane for agitating and conveying the developer; and a toner supply port for receiving the supplementary toner, wherein a second area spaced apart from the toner supply port by a predetermined distance and more toward the downstream side of the developer conveyance direction has more fins than a first area near the toner supply port.
When the screw member has a plurality of fins as in conventional cases, it is possible to enhance the miscibility between the developer and the supplementary toner, and enhance the agitating property and the charge impart ability of the developer thereby to prevent defective images. However, when the fins are provided, shearing stress (shear force) against the developer in a compressed state is increased and the stress on the developer during conveyance of the developer causes an external additive of the toner to be buried in the toner particles. In this case, the flow-ability of the developer is easily reduced and abrasion of the carrier is accelerated.
The present invention has been achieved to solve the above-mentioned problems, and it is an object of the invention to provide a developing device and an image forming apparatus that are capable of stabilization of the toner charging ability and prevention of an uneven toner concentration by reducing stress on a developer during conveyance and enhancing the miscibility between the developer and a supplementary toner.
The present invention is a developing device, comprising:
a first developer conveyance path and a second developer conveyance path for conveying and circulating a two-component developer including a toner and a magnetic carrier;
a first communicating path for guiding the two-component developer in the first developer conveyance path to the second developer conveyance path;
a second communicating path for guiding the two-component developer in the second developer conveyance path to the first developer conveyance path;
a first conveyance member being provided in the first developer conveyance path in a freely rotatable manner for conveying the two-component developer in one direction;
a second conveyance member being provided in the second developer conveyance path in a freely rotatable manner for conveying the two-component developer in one direction;
a developing roller for bearing and supplying the two-component developer in the first developer conveyance path to a photoconductor drum;
a developer collection path for guiding the two-component developer left on a surface of the developing roller after the developer is supplied to the photoconductor drum and used for the development in a direction away from the first developer conveyance path;
a third developer conveyance path for containing the two-component developer guided to the developer collection path and conveying the developer in one direction;
a third conveyance member being provided in the third developer conveyance path in a freely rotatable manner;
a toner supply port for supplying new toner to the third developer conveyance path;
a developer drawing and conveyance path for guiding the two-component developer supplied with the new toner in the third developer conveyance path to the second developer conveyance path; and
a developer drawing member being provided in the developer drawing and conveyance path in a freely rotatable manner for simultaneously agitating and conveying the two-component developer in one direction.
The present invention is a developing device, comprising:
a first developer conveyance path and a second developer conveyance path for conveying and circulating a two-component developer including a toner and a magnetic carrier;
a first communicating path for guiding the two-component developer in the first developer conveyance path to the second developer conveyance path;
a second communicating path for guiding the two-component developer in the second developer conveyance path to the first developer conveyance path;
a first conveyance member being provided in the first developer conveyance path in a freely rotatable manner for conveying the two-component developer in one direction;
a second conveyance member being provided in the second developer conveyance path in a freely rotatable manner for conveying the two-component developer in one direction;
a developing roller for bearing and supplying the two-component developer in the first developer conveyance path to a photoconductor drum;
a developer collection path for guiding the two-component developer left on a surface of the developing roller after the developer is supplied to the photoconductor drum and used for the development in a direction away from the first developer conveyance path;
a third developer conveyance path for containing the two-component developer guided to the developer collection path and conveying the developer in one direction;
a third conveyance member being provided in the third developer conveyance path in a freely rotatable manner;
a toner supply port for supplying new toner to the third developer conveyance path;
a developer drawing and conveyance path for guiding the two-component developer supplied with the new toner in the third developer conveyance path to the second developer conveyance path; and
a developer drawing member being provided in the developer drawing and conveyance path in a freely rotatable manner for simultaneously agitating and conveying the two-component developer in one direction.
According to this configuration, the new toner coming from the toner supply port is supplied to the third developer conveyance path, which conveys the two-component developer that was left on the surface of the developing roller after being supplied to the photoconductor drum and used in the development and that has been guided to the developer collection path.
That is, in the third developer conveyance path, the two-component developer not to be supplied with the new toner is the two-component developer that has been used in the development on the photoconductor drum to have a lowered toner concentration. Accordingly, in the third developer conveyance path, the two-component developer in which the toner concentration is lowered will be supplied with the new toner and, in other words, the two-component developer which has not been used in the development and in which the toner has not been consumed will not be supplied with the new toner. Thus, it is possible to prevent a locally increased toner concentration to prevent an uneven toner concentration.
In addition, since the developer drawing member provided in the developer drawing and conveyance path simultaneously agitates and conveys the two-component developer supplied with the new toner in one direction, it is possible to prevent the two-component developer from being conveyed while having the supplementary toner floating thereon to enhance the miscibility between the supplementary toner and the two-component developer, and stabilize the toner charging ability.
The second communicating path may include: a second communicating conveyance path elongated in a vertical direction into a cylindrical shape; a second communicating conveyance member being provided in the second communicating conveyance path in a freely rotatable manner; a first opening for taking in the two-component developer from the second developer conveyance path to the second communicating conveyance path; and a second opening for sending the two-component developer conveyed upward in the vertical direction by the second communicating conveyance member to the first developer conveyance path.
According to this configuration, in the second communicating path, the two-component developer is taken to the second communicating conveyance path through the first opening, conveyed upward in the vertical direction by the second communicating conveyance member, and sent to the first developer conveyance path through the second opening to allow reduction of stress on the two-component developer.
The first opening corresponds to an opening b1 in
The first developer conveyance path may be disposed above the second developer conveyance path in the vertical direction, the third developer conveyance path may be disposed under the second developer conveyance path in the vertical direction, and the developer drawing and conveyance path is elongated in the vertical direction into a cylindrical shape and includes a third opening at a lower end thereof in the vertical direction for taking in the two-component developer from the third developer conveyance path and a fourth opening at an upper end thereof in the vertical direction for sending, to the second developer conveyance path, the two-component developer conveyed upward in the vertical direction by the developer drawing member.
According to this configuration, the two-component developer to which the new toner has been supplied and which has been taken from the third developer conveyance path through the third opening is conveyed upward in the vertical direction by the developer drawing member to prevent the two-component developer from being conveyed while having the supplementary toner floating thereon and reduce stress on the developer.
In addition, since the first, second and third developer conveyance paths are arranged in the vertical direction, the width of the developing device in the horizontal direction can be small.
The third opening corresponds to an opening c1 in
The developing device of the present invention may further comprise a scraper for removing the two-component developer left on the surface of the developing roller after the development from the surface of the developing roller and guiding the developer toward the developer collection path.
According to this configuration, the scraper can prevent the two-component developer having a toner concentration lowered due to toner consumption from being left on the surface of the developing roller and conveyed to the first developer conveyance path to prevent the two-component developer having the locally lowered toner concentration from being supplied again to the photoconductor drum.
The developing device of the present invention may further comprise a toner concentration detection sensor disposed so as to contact with the developer in the third developer conveyance path.
According to this configuration, it is possible to sensitively detect variation of the toner concentration, because the detection is not performed on the toner concentration of the two-component developer including both the two-component developer in which the toner has been consumed and the two-component developer in which the toner has not been consumed but performed only on the toner concentration of the two-component developer in which the toner has been consumed.
The bottom of the developer drawing and conveyance path may be lower than the bottom of the third developer conveyance path in the vertical direction.
According to this configuration in which the bottom of the developer drawing and conveyance path is lower than the bottom of the third developer conveyance path in the vertical direction, the developer can flow smoothly without staying in the third developer conveyance path.
The bottom of the second communicating conveyance path may be lower than the bottom of the second developer conveyance path in the vertical direction.
According to this configuration in which the bottom of the second communicating conveyance path is lower than the bottom of the second developer conveyance path in the vertical direction, the developer can flow smoothly without staying in the second developer conveyance path.
The toner supply port may be disposed at a downstream side with respect to the toner concentration detection sensor and at an upstream side with respect to the developer drawing and conveyance path in a two-component developer conveyance direction.
According to this configuration in which the toner supply port for supplying the new toner is disposed at a downstream side with respect to the toner concentration detection sensor and at an upstream side with respect to the developer drawing and conveyance path, the developer in which the toner has been consumed and the toner concentration has been detected can be supplied with the new toner in an appropriate amount according to the detected concentration to prevent an uneven toner concentration.
The developer drawing and conveyance path may have a cylindrical internal space, and the developer drawing member may be an auger screw.
According to this configuration, it is possible to prevent stress on the two-component developer being conveyed from increasing excessively and enhance the miscibility between the supplementary toner and the two-component developer.
According to another aspect of the present invention, there is provided an image forming apparatus, comprising:
the above-described developing device;
a photoconductor drum having a surface on which an electrostatic latent image is formed;
a charger for charging the surface of the photoconductor drum;
an exposure device for forming the electrostatic latent image on the surface of the photoconductor drum;
a toner supplying device for supplying a toner to the developing device;
a transfer device for transferring, to a recording medium, a toner image formed on the surface of the photoconductor drum by the developing device with the toner supplied from the toner supplying device; and
a fuser for fusing the transferred toner image onto the recording medium.
According to the present invention, it is possible to reduce stress on the two-component developer, enhance the miscibility of the supplementary toner, stabilize the toner charging ability and prevent an uneven toner concentration to allow formation of stable images over a long period of time.
Hereinafter, embodiments of a developing device and an image forming apparatus of the present invention will be described in detail with reference to the drawings. It should be noted that the present invention is not limited to the embodiments.
An image forming apparatus 100 mainly comprises: a developing device housing 100A accommodating a plurality of developing devices 2a to 2d in a casing; a fuser housing 100B accommodating a fuser 12 above the developing device housing 100A in the casing; and a partition 30 provided between the developing device housing 100A and the fuser housing 100B to insulate heat of the fuser 12 to prevent the heat from being transferred to a developing device side.
The image forming apparatus 100 forms a multicolor or monochrome image on a sheet-like recording medium (recording paper) according to image data transmitted from an external source. An upper surface of the developing device housing 100A, located beside the fuser housing 100B in
In the embodiment in
As illustrated in
The reference numeral a represents members for black image formation, the reference numeral b represents members for cyan image formation, the reference numeral c represents members for magenta image formation, and the reference numeral d represents members for yellow image formation.
In the image forming apparatus 100, a black toner image, a cyan toner image, a magenta toner image and a yellow toner image are selectively formed on the surfaces of the photoconductor drums 3a, 3b, 3c and 3d based on image data of the four color components of black (K), cyan (C), magenta (M) and yellow (Y), respectively. The toner images formed are superimposed on each other on the intermediate transfer belt unit 8 to form one color image on a recording medium.
Hereinafter, the photoconductor drums 3a to 3d corresponding to the respective colors will be collectively described with a reference numeral 3 as having the same configuration. Likewise, the developing devices will be denoted by a reference numeral 2, the chargers will be denoted by a reference numeral 5, the cleaner units will be denoted by a reference numeral 4, and the toner supplying devices will be denoted by a reference numeral 22 in the following description.
The developing device, which constitutes a characteristic configuration of the present invention, will be described later.
The photoconductor drum 3 includes a conductive base body and a photoconductive layer formed on a surface of the base body, and the photoconductor drum 3 is a cylindrical member that forms a latent image by charge and exposure. The photoconductor drum 3 exhibits a conductive property in response to exposure to light, and an electric image called electrostatic latent image is formed on the surface thereof. The photoconductor drum 3 is supported by drive means, not shown, such that it can rotate about its axis.
The cleaner unit 4 removes and collects toner left on the surface of the photoconductor drum 3 after development and image transfer processes.
The charger 5 is to uniformly charge the surface of the photoconductor drum 3 at a predetermined potential. As the charger 5, a contact brush type charger, a non-contact type charger, or the like may be used other than the contact roller type charger shown in
The exposure unit 1 causes light according to image data to pass between the charger 5 and the developing device 2, and irradiates the surface of the charged photoconductor drum 3 with the light to perform exposure, thereby forming an electrostatic latent image according to the image data on the surface of the photoconductor drum 3.
In the present embodiment, as illustrated in
The intermediate transfer belt unit 8 includes: intermediate transfer rollers 6a, 6b, 6c, and 6d (hereinafter, collectively described with a reference numeral 6); an intermediate transfer belt 7; an intermediate transfer belt driving roller 71; an intermediate transfer belt driven roller 72; and an intermediate transfer belt tension mechanism, not shown.
The intermediate transfer roller 6, the intermediate transfer belt driving roller 71, the intermediate transfer belt driven roller 72 and the intermediate transfer belt tension mechanism allow the intermediate transfer belt 7 to lay across in a tensioned condition, and allow the intermediate transfer belt 7 to be driven to rotate in a direction of an arrow B in
The intermediate transfer roller 6 is rotatably supported at intermediate transfer roller attaching parts of the intermediate transfer belt tension mechanism in the intermediate transfer belt unit 8. A transfer bias is applied on the intermediate transfer roller 6 in order to transfer a toner image from the photoconductor drum 3 onto the intermediate transfer belt 7.
The intermediate transfer belt 7 is disposed so as to be in contact with each photoconductor drum 3. Toner images of the respective color components formed on the photoconductor drum 3 are sequentially transferred to and superimposed on the intermediate transfer belt 7 to form a color toner image (multicolor toner image). The intermediate transfer belt 7 is formed into an endless form by using, for example, a film having a thickness of approximately 100 μm to 150 μm.
The toner images are transferred from the photoconductor drum 3 to the intermediate transfer belt 7 by means of the intermediate transfer roller 6 that is in contact with an inside surface of the intermediate transfer belt 7. A transfer bias having a high voltage (high voltage having a polarity (+) reverse to a charge polarity (−) of the toner) is applied to the intermediate transfer roller 6 in order to transfer the toner images.
The intermediate transfer roller 6 is formed with a metal (for example, stainless steel) shaft having a diameter of, for example, 8 mm to 10 mm as a base, and the surface thereof is covered with an elastic material having conductivity (for example, EPDM or urethane foam). The conductive elastic material enables the intermediate transfer roller 6 to uniformly apply a high voltage to the intermediate transfer belt 7. In the present embodiment, a roller type transfer electrode (intermediate transfer roller 6) is used. Alternatively, a brush type transfer electrode or the like may be used.
As described above, the electrostatic latent images on the photoconductor drum 3 are individually made visible with the toners corresponding to the respective color components to be toner images. The toner images are superimposed on the intermediate transfer belt 7. The superimposed toner images are moved by a rotation of the intermediate transfer belt 7 to a contact position (transfer part) between the intermediate transfer belt 7 and a paper sheet that has been conveyed to this position, and transferred onto the paper sheet by a transfer roller 11 disposed at this position. Here, while the intermediate transfer belt 7 and the transfer roller 11 are being pressed against each other at a predefined nip, a voltage is applied to the transfer roller 11 for transferring the toner images to the paper. This voltage is a high voltage having a polarity (+) reverse to a charge polarity (−) of the toner.
In order to steadily obtain the nip, either one of the transfer roller 11 or the intermediate transfer belt driving roller 71 is formed from a hard material such as a metal, and the other is formed from a flexible material such as the case with an elastic roller (for example, elastic rubber roller or formable resin roller). Toners adhering to the intermediate transfer belt 7 due to the contact between the intermediate transfer belt 7 and the photoconductor drum 3; and toners that have not been transferred upon the transfer of the toner images from the intermediate transfer belt 7 to the paper sheet and that are remaining on the intermediate transfer belt 7 cause color mixture of the toners in a following process. Such toners are therefore removed and collected by the intermediate transfer belt cleaning unit 9.
The intermediate transfer belt cleaning unit 9 includes a cleaning blade (cleaning member) that is in contact with the intermediate transfer belt 7. The contact part of the intermediate transfer belt 7 with the cleaning blade is supported from a back side by the intermediate transfer belt driven roller 72.
The developing device housing 100A further includes: a sheet feed tray 10 disposed in a lowermost part of the developing device housing 100A for storing a plurality of recording media; a manual sheet feed tray 20 disposed on one side surface of the developing device housing 100A for receiving an irregular-size recording medium; and a sheet conveyance path S through which a recording medium is conveyed to the intermediate transfer belt unit (transfer device) 8 from the sheet feed tray 10 or the manual sheet feed tray 20.
The sheet conveyance path S guides a sheet from the sheet feed tray 10 and a recording medium from the manual sheet feed tray 20 to the sheet exit tray 15 via the transfer part and the fuser unit 12. The transfer part is located between the intermediate transfer belt driving roller 71 and the transfer roller 11.
Further, pickup rollers 16a and 16b, conveyance rollers 25a to 25h, a registration roller 14, the transfer part (transfer roller 11) and the fuser unit 12 are disposed along the sheet conveyance path S.
The conveying rollers 25a to 25h are small-size rollers provided along the sheet conveying path S for facilitating and assisting the sheet conveyance. The pickup roller 16a is a pull-in roller provided at an end of the sheet feed tray 10 for feeding sheets from the sheet feed tray 10 to the sheet conveyance path S one by one. The pickup roller 16b is a pull-in roller provided in the vicinity of the manual sheet feed tray 20 for feeding sheets from the manual sheet feed tray 20 to the sheet conveyance path S one by one. The registration roller 14 is to temporarily hold a seat being conveyed through the sheet conveyance path S and convey the sheet to the transfer part in such a timely manner that a front end of the toner images on the intermediate transfer belt 7 and a front end of the sheet coincide.
As illustrated in
The heat roller 81 is controlled by a controller, not shown, so as to be at a predetermined fusing temperature. The controller controls the temperature of the heat roller 81 based on a detection signal from a temperature detector, not shown.
The heat roller 81 having reached the fusing temperature and the pressure roller 82 are pressed against the recording medium to melt the toners, thereby fusing the toner image on the recording medium.
The recording medium having the toner image fused thereon is conveyed by the conveyance rollers 25b and 25c to a reverse sheet ejection path of the sheet conveyance path S, and ejected onto the sheet exit tray 15 with being reversed (i.e., with the toner image facing down).
The developing device 2 has, in the developer tank 111, a developing roller 115 disposed so as to oppose the photoconductor drum 3. The developing device 2 supplies toner to the surface of the photoconductor drum 3 by means of the developing roller 115 to develop (make visible) an electrostatic latent image formed on the surface of the photoconductor drum 3. As illustrated in
The developer tank 111 stores a developer including a toner and a magnetic carrier (two-component developer).
In the developer tank 111, the developing roller 115, the first conveyance member 112, the second conveyance member 113, the third conveyance member 114, the doctor blade 116 and the scraper 115a are arranged at positions as illustrated in
The carrier included in the developer usable for the present invention is a magnetic carrier having magnetism such as, for example, a ferrite carrier.
The inside of the developer tank 111 is partitioned into three chambers by the first partition 117a and the second partition 117b whose cross section parallel to the axial direction of the developing roller 115 is U-shaped. The three chambers are arranged one above the other in the vertical direction. The upper chamber of the three chambers is a first developer conveyance path P, the middle chamber located right under the first developer conveyance path P in the vertical direction is a second developer conveyance path Q, and the lower chamber located right under the second developer conveyance path Q in the vertical direction is a third developer conveyance path R.
That is, the three developer conveyance paths (P, Q, R) are arranged in line in the vertical direction. Since the three developer conveyance paths (P, Q, R) are arranged in the vertical direction as described above, the width of the developing device in the horizontal direction can be small.
The example of the arrangement of the conveyance paths illustrated in
The first developer conveyance path P, the second developer conveyance path Q and the third developer conveyance path R are provided with the first conveyance member 112, the second conveyance member 113 and the third conveyance member 114, respectively, in a freely rotatable manner.
As illustrated in
As illustrated in
As illustrated in
In addition, as illustrated in
In order to facilitate smooth conveyance of the two-component developer toward the opening c1, as illustrated in
In addition, as illustrated in
When the first conveyance member 112, the second conveyance member 113 and the third conveyance member 114 are driven in directions of an arrow J, an arrow K and an arrow L (see
As illustrated in
In
The opening b2 is disposed at an upper part of the second communicating conveyance path W in the vertical direction. Through the opening b2, the developer is sent from the second communicating conveyance path W toward the first developer conveyance path P.
The opening b1 is disposed at a lower part of the second communicating conveyance path W in the vertical direction. Through the opening b1, the developer in the second developer conveyance path Q is taken to the second communicating conveyance path W.
As illustrated in
It should be noted that the openings b1 and b2 are in the line D-D in
The second communicating conveyance member 132 comprises an auger screw including a second communicating rotation axis 132a and a second helical communicating conveyance blade 132b fixed to the second communicating rotation axis 132a to integrally rotate. The second communicating conveyance member 132 includes a second communicating gear 132c at one end of the second communicating rotation axis 132a that penetrates the bottom of the second communicating conveyance path W.
When the second communicating conveyance member 132 is driven by drive means (for example, motor), not shown, via the second communicating gear 132c, the two-component developer in the second communicating conveyance path W is conveyed in a direction of an arrow H (upward) as illustrated in
As described above, in the second communicating path b, the two-component developer is taken to the second communicating conveyance path through the lower opening b1, conveyed upward in the vertical direction by the second communicating conveyance member 132, and sent to the first developer conveyance path through the upper opening b2 to allow reduction of stress on the two-component developer.
As illustrated in
The developing roller 115 is a magnet roller to be driven by drive means, not shown, to rotate about its axis for bearing and supplying the two-component developer in the first developer conveyance path P to the photoconductor drum 3. A development bias voltage is applied from a power supply, not shown, to cause toner to adhere to an electrostatic latent image on the surface of the photoconductor drum 3 to develop the image.
<<Doctor blade>>
As illustrated in
<<Developer Collection Path>>
Inside the developer tank 111, as illustrated in
As illustrated in
According to this configuration, the scraper 115a can prevent the two-component developer having a toner concentration lowered due to toner consumption from being left on the surface of the developing roller and conveyed to the first developer conveyance path to prevent the two-component developer having the locally lowered toner concentration from being supplied again to the photoconductor drum.
<<Developer Drawing and Conveyance Path>>
As illustrated in
A lower end and an upper end of the developer drawing and conveyance path V have the opening c1 and an opening c2 communicated with the third developer conveyance path R and the second developer conveyance path Q, respectively. The bottom of the developer drawing and conveyance path V is lower than the bottom of the third developer conveyance path R in the vertical direction. It should be noted that the openings c1 and c2 are in the line C-C in
The developer drawing member 131 comprises an auger screw including a developer drawing rotation axis 131a and a helical developer drawing conveyance blade 131b fixed to the developer drawing rotation axis 131a to integrally rotate. The developer drawing member 131 includes a developer drawing gear 131c at one end of the developer drawing rotation axis 131a that penetrates the bottom of the developer drawing and conveyance path V.
According to this configuration, the developer drawing member 131 comprising the auger screw prevents stress on the two-component developer being conveyed from increasing excessively and enhances the miscibility between the supplementary toner and the two-component developer to enhance the toner charging ability.
When the developer drawing member 131 is driven by drive means (for example, motor), not shown, via the developer drawing gear 131c, the two-component developer in the developer drawing and conveyance path V is conveyed in a direction of an arrow G (upward) to be conveyed to the second developer conveyance path Q through the opening c2 as illustrated in
Thus, the two-component developer to which the new toner has been supplied and which has been taken from the third developer conveyance path R through the opening c1 is conveyed upward in the vertical direction by the developer drawing member to prevent the two-component developer from being conveyed while having the supplementary toner floating thereon and reduce stress on the developer.
As illustrated in
The toner concentration detection sensor 119 is electrically connected to a toner concentration control unit, not shown.
The toner concentration control unit exerts control according to a toner concentration measurement value detected by the toner concentration detection sensor 119 so that a toner discharge member 122 of the toner supplying device 22 illustrated in
When the toner concentration control unit determines that the toner concentration measurement value detected by the toner concentration detection sensor 119 is lower than a predetermined value, a control signal is transmitted to drive means that rotationally drives the toner discharge member 122 to rotate the toner discharge member 122.
Examples of the toner concentration detection sensor 119 usable here include general toner concentration detection sensors such as a transmitted light detection sensor, a reflected light detection sensor and a magnetic permeability detection sensor. In particular, the magnetic permeability detection sensor is preferable in terms of sensitivity.
The magnetic permeability detection sensor (toner concentration detection sensor 119) is connected to a power supply, not shown.
The power supply applies a driving voltage to the magnetic permeability detection sensor to drive the magnetic permeability detection sensor. The power supply also applies a control voltage to the magnetic permeability detection sensor to output a toner concentration detection result to the toner concentration control section. The voltage application to the magnetic permeability detection sensor from the power supply is controlled by the toner concentration control unit.
The magnetic permeability detection sensor outputs the toner concentration detection result as an output voltage value in response to the application of the control voltage. Since the magnetic permeability detection sensor has basically good sensitivity near a median value of the output voltage, a control voltage that can provide an output voltage around such a value is applied.
This type of magnetic permeability detection sensor is commercially available, and examples thereof include product names TS-L, TS-A and TS-K by TDK Corporation.
<<Toner Supply Port>>
As illustrated in
As illustrated in
As illustrated in
As illustrated in
The toner agitation member 125 is rotatably disposed at a substantially central position in the semi-cylindrical part of the toner container 121, and the toner discharge member 122 is rotatably disposed above and near the toner discharge port 123.
The toner agitation member 125 is a plate-like member that rotates about a rotation axis 125a, and the toner agitation member 125 has sheet-like toner drawing members 125b made of flexible resin (for example, polyethylene terephthalate) at both leading ends away from the rotation axis 125a. The rotation axis 125a is rotatably supported on sidewalls on both sides in the longitudinal direction of the toner container 121, and one end of the rotation axis 125a penetrates the sidewall and has a gear fixed thereto and being in meshing engagement with a driving gear of drive means, not shown.
Upward rotation of the toner drawing members 125b with respect to the toner discharge port 123 allows the toner agitation member 125 to simultaneously agitate and draw the toner stored in the toner container 121 to convey the toner to the toner discharge member 122.
On this occasion, the toner drawing members 125b rotate to supply the toner to the side of the toner discharge member 122 while sliding along the inside wall of the toner container 121 and being deformed due to its flexibility.
The toner discharge member 122 and the toner agitation member 125 have a partition 124 therebetween. Thereby, an appropriate amount of toner drawn by the toner agitation member 125 can be held around the toner discharge member 122.
The toner discharge member 122 supplies the toner in the toner container 121 to the developer tank 111 through the toner discharge port 123. As illustrated in
The toner discharge port 123 of the toner container 121 is disposed at one end side of the helical blade 122a opposite to the side of the gear 122c.
Rotation of the toner discharge member 122 allows the toner supplied around the toner discharge member 122 to be conveyed by the helical blade 122a toward the toner discharge port 123 and to be supplied from the toner discharge port 123 into the developer tank 111 of the developing device 2 through the toner conveyance pipe 102.
In a developing step with the image forming apparatus, as illustrated in
As a result of the rotation of these members, the first conveyance blade 112b of the first conveyance member 112 conveys the developer present in the first developer conveyance path P in the direction of the arrow X in
During the conveyance, the developer conveyed to the downstream side of the first developer conveyance path P is sent to the second developer conveyance path Q through the first communicating path a shown in
Part of the developer moved in the first developer conveyance path P is supplied to the developing roller 115.
The developer supplied to the developing roller 115 is formed into a developer layer having a predetermined uniform thickness on the outer circumferential surface of the developing roller 115 and sent to the photoconductor drum 3 by the doctor blade 116. From the developer layer, part of the toner is supplied to the photoconductor drum 3.
After the electrostatic latent image on the photoconductor drum 3 is developed, the developer left on the surface of the developing roller 115 is scraped off the surface of the developing roller 115 by the scraper 115a to fall into the third developer conveyance path R through the developer collection path U.
The toner concentration of the developer is detected by the toner concentration detection sensor 119. When the toner concentration in the third developer conveyance path R falls to a predetermined value, therefore, unused and new toner is supplied from the toner supplying device 22 onto the developer in the third developer conveyance path R.
As described above, the two-component developer in which the toner concentration is lowered will be supplied with the new toner and, on the contrary, the two-component developer which has not been used in the development and in which the toner has not been consumed will not be supplied with the new toner. Thus, it is possible to prevent a locally increased toner concentration to prevent an uneven toner concentration.
According to the present invention, the two-component developer in the third developer conveyance path, which has been used in the development on the photoconductor drum and in which the toner concentration has been lowered, is supplied with the new toner to prevent a locally increased toner concentration to prevent an uneven toner concentration.
In addition, since the developer drawing member simultaneously agitates and conveys the two-component developer supplied with the new toner in one direction, it is possible to prevent the two-component developer from being conveyed while having the supplementary toner floating thereon to enhance the miscibility between the supplementary toner and the two-component developer, and stabilize the toner charging ability.
In addition, since the two-component developer is conveyed upward in the vertical direction by the second communicating conveyance member and conveyed upward in the vertical direction by the developer drawing member, it is possible to reduce stress on the two-component developer.
Number | Date | Country | Kind |
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2011-034851 | Feb 2011 | JP | national |