This Nonprovisional application claims priority under 35 U.S.C. §119(a) on Patent Application No. 2009-203934 filed in Japan on 3 Sep. 2009, the entire contents of which are hereby incorporated by reference.
(1) Field of the Invention
The present invention relates to a toner cartridge for use in image forming apparatuses such as laser beam printers, multifunctional machines and the like and an image forming apparatus using this cartridge, in particular relating to a replaceable toner cartridge for storing toner as well as relating to an image forming apparatus using the cartridge.
(2) Description of the Prior Art
Conventionally, image forming apparatuses using static electrophotography usually include the processing steps of charging, exposure, development, transfer, separation, cleaning, charge erasing, fixing and the like.
In the image forming apparatus thus configured, the process for image forming is achieved as follows. That is, the surface of a photoreceptor that is rotationally driven is uniformly electrified by a charging device (charging step). Then, the photoreceptor surface thus electrified is illuminated with a laser beam from an exposure device to form an electrostatic latent image (exposure step). Subsequently, the electrostatic latent image on the photoreceptor is developed by a developing device to form a toner image on the photoreceptor surface (developing step). The toner image on the photoreceptor is transferred to a transfer medium by a transfer device (transfer step), the toner image is then heated by a fixing device and fixed to the transfer medium (fixing and separation steps). On the other hand, the residual toner remaining on the photoreceptor drum surface after the transfer step is removed by a cleaning device and collected into a predetermined collecting portion (cleaning step). The photoreceptor surface after cleaning is cleared of residual charge by a charge erasing device to prepare for a next image forming operation (charge erasing step).
In the image forming apparatus of this kind, a mono-component developer consisting of a toner only or a dual-component developer consisting of a toner and a carrier is usually used.
Since a mono-component developer does not use any carrier, there is no need to have an agitating mechanism for mixing toner and carrier uniformly. Hence the developing device has the advantage of a simple structure. However, there is a drawback that the amount of static charge on the toner is unlikely to be stable.
On the other hand, since a dual-component developer needs to have an agitating mechanism for mixing the toner and carrier uniformly, there is a drawback that the developing device is complex. However, since the developer presents stable toner charging performance and suitability to high-speed machines, it is often used for high-speed image forming apparatuses and color image forming apparatuses.
When the dual-component toner is used, the toner in the developer is consumed every time a developing operation is performed. To deal with this, a toner cartridge that supplies toner to the developing device in accordance with consumption of the toner is provided.
The toner cartridge stores toner therein and discharges the toner from a toner discharge port. There are a number of known mechanisms including a system that supplies toner to the developer by discharging toner by means of a screw auger (screw-like toner conveying member), a sponge roller or the like, a system that supplies toner to the developing device as the toner container itself rotates to discharge the toner, and other systems.
Of these mechanisms, the system using an auger screw is ready to control the amount of supplied toner, hence has the advantage that toner can be directly supplied to the developer without use of an intermediate hopper. On the other hand, the toner is prone to be compressed while being conveyed by rotation of the auger screw, and the compressed toner impedes rotation of the auger screw, posing a problem of the auger screw being stuck.
To deal with this problem, as one of the prior art there is a disclosure (see Patent Document 1: Japanese Patent Application Laid-open 2000-214667) in which the conveying spiral (helical blade) of a conveyor auger (screw-formed toner conveying member) is partly cut away so as to reduce the pressure of the toner being conveyed.
However, in the toner cartridge disclosed in Patent Document 1, when the toner conveying member is started to rotate with the toner that is low in fluidity after the toner cartridge has been left for long time, the toner cannot be smoothly discharged from the toner discharge port, but becomes compressed so that the clumping toner builds up around the toner discharge port, causing the problem that the toner conveying member becomes stuck (or referred to as ‘locked’ hereinbelow).
The present invention has been devised in view of the above conventional problems, it is therefore an object of the present invention to provide a toner cartridge that can prevent the toner conveying member from being locked by compressed clumping toner inside the toner cartridge so as to achieve stable toner supply, as well as to provide an image forming apparatus using the same toner cartridge.
The toner cartridge according to the present invention for solving the above problem and the image forming apparatus using this toner cartridge are configured as follows:
The first aspect of the present invention resides in a toner cartridge comprising: a toner reservoir for storing toner; and, a toner conveyor portion including a toner discharge port for discharging the toner from the toner reservoir to the outside and a toner conveying member for conveying the toner to the toner discharge port, and is characterized in that the toner conveyor portion includes: in the vicinity of the toner discharge port, an enclosing member that encloses the upper part of the toner conveying member located over the toner discharge port; a communication opening connecting between the toner conveyor portion and the toner reservoir; and, a pressure relieving portion (e.g., pressure relieve valve) for opening and closing the communication opening in accordance with the pressure of the toner enclosed by the enclosing member.
The enclosing member may be configured so as to enclose the upper part of the toner conveying member with a tunnel-like structure, for example.
The pressure relieving portion may be given as a structure that moves in such a direction as to open the communication opening as the pressure of toner rises and moves in such a direction as to close the communication opening as the pressure of toner falls.
The second aspect of the present invention is characterized in that the toner conveying member includes: a rotary shaft; and a helical blade provided around the rotary shaft, and the end of the helical blade on the downstream side with respect to the toner conveying direction is formed up to the vicinity of the peripheral edge of the communication opening.
The third aspect of the present invention is characterized in that the toner conveying member includes a plate-like discharge rotor provided on a plane that passes through the axis of the rotary shaft, and the discharge rotor is arranged so as to oppose the toner discharge port.
The fourth aspect of the present invention is characterized in that the pressure relieving portion is formed of an elastically deformable sheet member, and the sheet member is arranged so as to be able to close the communication opening and so that the end on the upper side of the communication opening is fixed while the end on the lower side of the communication opening is set free.
The fifth aspect of the present invention resides in an image forming apparatus for forming an image with toner based on electrophotography, comprising: a photoreceptor drum for forming an electrostatic latent image on the surface thereof; a developing device for forming a toner image by supplying toner to the electrostatic latent image on the photoreceptor drum surface; a toner cartridge for supplying toner to the developing device by means of a toner supply assembly; a transfer device for transferring the toner image on the photoreceptor drum surface to a recording medium; and a fixing device for fixing the toner image on the recording medium, and is characterized in that the toner cartridge employs a toner cartridge that has any one of the above first to fourth aspects.
According to the first aspect of the present invention, when the toner in the toner conveyor portion lowers in fluidity and is about to be compressed, the pressure relieving portion is released so as to permit the toner to escape from the toner conveyor portion to the toner reservoir, whereby it is possible to prevent the toner conveying member from being locked, which would occur as a result of toner compression and clumping.
According to the second aspect of the present invention, the helical blade will not compress the toner around the communication opening, hence it is possible to avoid excessive increase of the toner pressure acting on pressure relieving portion as a result of the helical blade.
According to the third aspect of the present invention, since it is possible to move the toner around the rotary shaft by means of the discharge rotor, the toner pressure can be readily transferred to the pressure relieving portion provided for the communication opening. As a result, it is possible to smoothly open the communication opening when the pressure of toner increases.
According to the fourth aspect of the present invention, the lower side of the communication opening is opened greater than the upper side as the flexible sheet is flexed. As a result, the toner becomes ready to move from the toner conveyor portion to the toner reservoir through the communication opening.
According to the fifth aspect of the present invention, since it is possible to eliminate the risk of the toner around the toner discharge port through which toner inside the toner cartridge is discharged, being compressed by the pressure of the toner conveying member that conveys the toner, and hence prevent the toner conveying member from being locked due to toner solidification, it is possible to achieve a reliable toner supply operation and obtain stable image density over a long period of time.
The embodiment of the present invention will hereinafter be described in detail with reference to the accompanying drawings.
An image forming apparatus 30 according to the present embodiment forms images with toner based on electrophotography, including: as shown in
As shown in
To begin with the overall configuration of image forming apparatus 30 will be described.
As shown in
This image forming apparatus 30 forms monochrome or mono-color images on the recording mediums, in accordance with input image information.
Charger 25, developing device 20, transfer device 24 and cleaning device 26 are arranged around photoreceptor drum 17 along the rotational direction in the order mentioned.
Charger 25 is arranged above developing device 20 and cleaning device 26 with respect to the vertical direction.
Photoreceptor drum 17 is a roller-shaped member, which is axially supported and rotationally driven by a driver (not shown). This photoreceptor drum 17 includes, for example, a conductive base (not shown) and a photosensitive layer (not shown) formed on the conductive base surface.
Formed on the photosensitive layer surface is an electrostatic latent image and hence a toner image.
The conductive base may be formed of a conductive material such as aluminum, stainless steel or the like and given as a pipe-like, cylindrical or sheet-like configuration. Of these, a cylindrical configuration is preferable. As the photosensitive layer, for example, an organic photosensitive layer, an inorganic photosensitive layer or the like may be used. A photoreceptor drum including an organic photosensitive layer is called an organic photoreceptor drum, whereas a photoreceptor drum including an inorganic photosensitive layer is called an inorganic photoreceptor drum.
The organic photosensitive layer may be given as, for example, a lamination-type photosensitive layer in which a charge generating layer of a resin containing a charge generating substance and a charge transport layer of a resin containing a charge transport substance are laminated, or may be given as a mono-layered photosensitive layer including both a charge generating substance and a charge transport substance in a single resin layer.
The inorganic photoreceptor layer may be given as a mono-layered film containing one or two or more kinds of substances selected from, for example zinc oxide, selenium, amorphous silicon and the like. It is preferred that a primer coating is interposed between the conductive base and the photosensitive layer in order to overcoat the scratches and unevenness on the conductive base surface and smoothen the photosensitive layer surface. Also, a surface coating (protective coating) may be preferably formed on the photosensitive layer surface in order to protect the photosensitive layer and improve durability.
Charger 25 is connected to a power supply (not shown) and supplied with voltage from this power supply to electrify the photoreceptor drum 17 surface at a predetermined potential of a predetermined polarity. The charger 25 in the present embodiment uses a saw-toothed charger that implements corona discharge over photoreceptor drum 17. This saw-toothed charger is a non-contact type charger that is located facing photoreceptor drum 17 and spaced from the photoreceptor drum 17 surface.
Though in the present embodiment, the aforementioned saw-toothed charger is used as charger 25, the present invention is not limited to this. For example, non-contact type chargers including corona-discharge type chargers, and contact type chargers including roller-shaped chargers, charging brush type chargers and magnetic brush type chargers, and others may be used.
Exposure device 22 radiates light of signals in accordance with image information of a document scanned by scanner unit 31 or image information input from an external device, over the photoreceptor drum 17 surface that has been uniformly electrified at a certain potential by charger 25 so as to form an electrostatic latent image corresponding to the aforementioned image information on the photoreceptor surface. The exposure device 22 is arranged such that the emitted light of signals passes through and between charger 25 and developing device 20 to reach the photoreceptor drum 17 surface. As the exposure device 22, a laser scanning system including a light source may be used.
Examples of the laser scanning system include a system that uses a light source, a polygon mirror, an f−θ lens, reflection mirrors and others in combination, or a system that uses a liquid crystal shutter, a light source and others in combination. As the light source, a semiconductor laser, LED array, electroluminescence (EL) device and the like can be used.
Developing device 20 supplies toner to the electrostatic latent image formed on the photoreceptor drum 17 surface by means of exposure device 22 to forma toner image. Attached on top of developing device 20 is a removable toner cartridge 10 for supplying toner into developing device 20.
Cleaning device 26 removes toner, paper and other particles remaining on the surface of photoreceptor drum 17 after the toner image has been transferred to the recording medium to clean the photoreceptor drum 17 surface.
Cleaning device 26 includes an unillustrated cleaning blade and an unillustrated toner storing receptacle.
The cleaning blade is a plate-like member that extends parallel to the axial direction of photoreceptor drum 17 and is arranged so as to abut its longitudinal edge against the photoreceptor drum 17 surface. This cleaning blade abuts the surface of rotating photoreceptor drum 17 so as to remove toner, paper and other particles that remain on the photoreceptor drum 17 surface after transfer of the toner image to the recording medium, from the photoreceptor drum 17 surface.
The toner storing receptacle is a container-like member having a hollow space therein and temporarily holds the toner removed off by the cleaning blade and collects the toner.
The photoreceptor drum 17 surface uniformly electrified by charger 25 is illuminated with light of signals corresponding to image information by means of exposure unit 22 so as to form an electrostatic latent image. Then this electrostatic latent image is supplied with toner from developing device 20 to form a toner image. This toner image is transferred to the recording medium by the transfer device 24 described later while the toner remaining on the photoreceptor drum 17 surface after transfer of the toner image is removed by cleaning device 26.
Transfer device 24 is a roller-shaped member that is rotatably supported by an unillustrated supporting structure about its axis and arranged in press-contact with photoreceptor drum 17 so as to be rotationally driven by an unillustrated driver.
Transfer device 24 is formed of a metal core and an elastic conductive layer formed on the surface of the metal core (none of these are shown). The metal core is a pipe-like or cylindrical member, made of stainless steel, aluminum or other metal and having a diameter of 8 to 10 mm. The elastic conductive layer is formed of rubber material, such as ethylene-propylene rubber (which will be referred to hereinbelow as “EPDM”), foamed EPDM, foamed urethane, etc., in which conductive substances such as carbon black etc. are blended.
Transfer device 24 is connected to a power supply (not shown) and supplied from this power supply with voltage (which will be referred to hereinbelow as “transfer bias”) of a polarity that is opposite to the polarity of the static charge on the toner forming the toner image on the photoreceptor drum 17 surface to thereby transfer the toner image from the photoreceptor drum 17 surface to the recording medium.
With this arrangement of transfer device 24, when the recording medium fed from aftermentioned paper feed cassette 21 passes through the pressure-contact portion (which will be referred to hereinbelow as “transfer nip portion”) between photoreceptor drum 17 and transfer device 24, the toner image carried on the photoreceptor drum 17 surface is transferred to the recording medium under the application of the aforementioned transfer bias. The recording medium with the toner image transferred thereon is conveyed to fixing unit 23.
Fixing unit 23 is arranged downstream of transfer device 24 with respect to the direction in which recording mediums are conveyed, and includes a fixing roller 32 and a pressing roller 33. Fixing roller 32 is a roller-shaped member that is rotatably supported by a supporting structure (not shown) and can be axially rotated by a driver (not shown).
This fixing roller 32 is comprised of a metal core and an elastic layer (none of these are shown). The metal core is a cylindrical member made of metal such as iron, stainless steel, aluminum or the like. The elastic layer is formed of a mono-layered film of an elastic material such as silicone rubber, fluoro-rubber or the like and coated on the surface of the metal core.
Further, fixing roller 23 has a heating element (not shown) therein. This heating element is connected to a power supply (not shown) and supplied with voltage from this power supply so as to heat fixing roller 32 and keep the surface of the fixing roller 23 at a predetermined temperature. As the heating element, a halogen lamp, infrared lamp or the like can be used, for example. The fixing roller 32 heats and fuses the toner of the toner image on the recording medium that is delivered from the transfer nip portion, and fixes the toner image to the recording medium.
Pressing roller 33 is a roller-shaped member that is rotatably supported by a supporting structure (not shown) and pressed against fixing roller 32 by a pressing member (not shown). This pressing roller 33 is driven to rotate following the rotation of fixing roller 32. The pressing roller 33 may use the same configuration with that of fixing roller 32. It is also preferred that pressing roller 33 has a heating element (not shown) therein. This heating element may use the same configuration as that incorporated in fixing roller 32.
Pressing roller 33 assists the fixing of the toner image to the recording medium by pressing the fused toner to the recording medium when the toner is heated and fused to be fixed to the recording medium by fixing roller 32. The press-contact portion between fixing roller 32 and pressing roller 33 will be called “fixing nip portion” hereinbelow.
With this arrangement of fixing device 23, when the recording medium with a toner image transferred thereon by transfer device 24 passes through the fixing nip portion, the toner that forms the toner image is heated and fused, and pressed against the recording medium, whereby the toner image is fixed to the recording medium to complete an image.
Paper feed cassette 21 is a container member that is arranged at the bottom of image forming apparatus 30 with respect to the vertical direction to hold recording mediums. As the recording mediums, plain paper, coated paper, color copy paper, over head projector (OHP) sheets and the like may be used.
A pair of roller elements are arranged as pickup rollers so as to press each other. The pickup rollers pick up recording mediums one sheet at a time from the stack of sheets on paper feed cassettes 21 and delivers the sheet toward first conveying rollers 28, in synchronization with conveyance of the toner image on the photoreceptor drum 17 surface to the transfer nip portion as photoreceptor drum 17 rotates.
The first conveying rollers 28 are a pair of roller elements pressing each other, and conveys the recording medium fed from pickup roller 27 to the transfer nip portion. The second conveying rollers 34 are a pair of roller elements pressing each other, and arranged downstream of the fixing nip portion with respect to the recording medium conveying direction P to convey the recording medium with an image formed thereon by fixing unit 23, toward paper discharge rollers 35.
Paper discharge rollers 35 are a pair of roller elements pressing each other and discharges the recording medium conveyed from second conveying rollers 34 to paper output tray 29 arranged in the vertically upper part of image forming apparatus 30. Paper discharge tray 29 receives the recording medium with an image formed thereon by fixing unit 23, conveyed by second conveying rollers 34 and paper discharge rollers 35 and stacks the medium thereon.
Scanner unit 31 includes a document set tray, a reversing automatic document feeder (which will be referred to hereinbelow as “RADF”) and an image reading device (none of these are shown).
The RADF feeds documents set on the document set tray to the document set table of the document reading device described hereinbelow. The document reading device includes the document set table, a document scanner, reflecting components and a line sensor of a photoelectric transducer (charge coupled device, which will be referred to hereinbelow as ‘CCD’) (none of these are shown).
The document set table is formed of a glass plate having a document set surface on which an original is placed to read image information therefrom. Mounted on the document set table is an airtight cover that is supported in an openable and closable manner relative to the document set table and includes the document set tray and the RADF. Documents to be set on the document set tray may be manually set by the user or set by means of RADF.
The document scanner is arranged so as to move in a reciprocating manner at a constant scanning speed V, parallel to, keeping a fixed distance from, the underside of the document set table. The document scanner includes a light source and a first reflecting mirror (none of these are illustrated).
The light source emits light over the image surface of a document placed on the document set table.
The first reflecting mirror reflects the reflected light image from the document to a reflecting assembly.
The document scanner moves parallel to the underside of the document set table at a constant scanning speed V in a reciprocating manner, and receives irradiation of light reflected from the image surface of the document placed on the document set table and emits the reflected light image toward the reflecting assembly.
The reflecting assembly is arranged so as to move in a reciprocating manner, parallel to the document scanner, keeping a fixed speed relationship with the document scanner, specifically at half the speed (V/2) of the speed of the document scanner. This reflecting assembly includes a second reflecting mirror, a third reflecting mirror and optical lenses (none of these are shown).
The second and third reflecting mirrors further reflect the reflected light image from the document and reflected off the first reflecting mirror of the document scanner, toward the optical lens. The optical lens reduces the reflected light image reflected off the second and third reflecting mirrors in size and focuses the reduced reflected light image onto the predetermined position on the CCD line sensor. The reflecting assembly reciprocates at a speed of V/2 following the reciprocating movement of the document scanner so as to focus the reflected light image reflected by the document scanner onto the predetermined position on the CCD line sensor.
The CCD line sensor includes a CCD circuit that photoelectrically converts the reflected light image focused by the optical lens into electric signals. The CCD line sensor picks up the image of the document and photoelectrically converts the picked up image information sequentially into electric signals and outputs the electric signals to the controller of image forming apparatus 30.
The scanner unit 31 having the above configuration reads the image information from the document set on the document set table, every multiple lines, for example, every ten lines, and converts the scanned image information into electric signals and outputs the signals to the controller of image forming apparatus 30.
The controller is disposed in the top part of image forming apparatus 30, and includes a processing circuit realized by a microcomputer or microprocessor including a CPU (Central Processing Unit), storage including ROM (Read Only Memory), RAM (Random Access memory) and HDD (Hard Disk Drive) and main power supply (none of these are shown).
The storage stores various kinds of set values input through a control panel (not shown) provided on the top of image forming apparatus 30, detected results from various sensors (not shown) arranged at different sites inside image forming apparatus 30, image information input from external devices, image information input from scanner unit 31 and various programs for executing various tasks such as printing jobs etc., and other necessary information.
As the external devices, electric and electronic devices that can form or acquire image information and can be electrically connected to image forming apparatus 30, can be used. Examples include a personal computer, digital camera, television receiver set, video recorder, DVD (Digital Versatile Disc) recorder, HDDVD (trade name: High Definition Digital Versatile Disc), blue-ray disk recorder, facsimile machine, mobile terminal and the like.
The processing circuit reads out various kinds of data such as detected results, image information, etc. and various kinds of programs, from the storage and performs various decisions and transmits control signals to the associated functional components inside the image forming apparatus 30 in accordance with the decision results, to thereby perform operation control of individual functional components.
For example, the processing circuit converts the image information input from scanner unit 31 or an external device into control signals and outputs the signals to exposure device 22. Alternatively, the processing circuit determines whether toner needs to be supplied, based on the detected result from an aftermentioned toner concentration detecting sensor 15, and transmits control signals to the drivers for rotationally driving toner conveying member 3 and toner agitator 8 of toner cartridges 10 if toner supply is determined to be necessary, to thereby rotationally drive toner conveying member 3 and toner agitator 8. The main power supply not only supplies power to the controller but also supplies power to each functional component inside image forming apparatus 30.
Next, developing device 20 according to the present embodiment will be described with reference to the drawings.
As shown in
Developing vessel 11 is a container-like member that has an approximately prism-like configuration having a hollow space therein and is arranged opposing the photoreceptor drum 17 surface. An opening 16 is formed on one side of developer vessel 11 that opposes photoreceptor drum 17. Developing roller 12 is placed at the position opposing photoreceptor drum 17 through this opening 16.
Developing vessel 11 stores a dual-component developer made of a toner and a carrier (which will be hereinbelow referred to simply as “developer”) and incorporates and rotatably supports agitating roller 13 and a developing roller 12.
Formed in the upper part of developing vessel 11 with respect to the vertical direction is a toner input port 18 to be connected with toner discharge port 2 of toner cartridge 10. Toner is supplied from toner cartridge 10 to developing vessel 11 through this toner input port 18, in accordance with the state of toner consumption in developing vessel 11.
Agitating roller 13 is a roller-shaped member that is axially supported and rotationally driven by a driver (not shown) and arranged so as to oppose developing roller 12. Agitating roller 13 agitates the developer stored in developing vessel 11 and supplies the developer toward and around developing roller 12.
Developing roller 12 is a roller-shaped member that is rotationally driven about its axis by a driver (not shown) and arranged opposing photoreceptor drum 17 through opening 16 of developing vessel 11 with a predetermined gap apart from the photoreceptor drum.
Developing roller 12 is connected to a power supply (not shown) so that the developing roller 12 surface is applied with a potential that is opposite to the polarity of the static potential on the toner, as a developing bias voltage (which will be referred to hereinbelow as “developing bias”). With this application of the developing bias, the toner on the developing roller 12 surface is smoothly supplied to the electrostatic latent image on the photoreceptor drum 17 surface.
The developer conveyed by rotation of developing roller 12 comes into contact with photoreceptor drum 17 in the area where the roller surface and the drum surface become closest (which will be referred to hereinbelow as “developing nip portion”). In the developing nip portion, toner is supplied from the developer on the developing roller 12 surface to the electrostatic latent image on the photoreceptor drum 17 surface under application of the developing bias. As the level of the developing bias is varied, the amount of toner supplied to the electrostatic latent image (the amount of toner adherence) can be controlled.
Regulating member 14 is a plate-like member that is arranged vertically above developing roller 12 and extends parallel to the axial direction of developing roller 12. One long side of regulating member 14 is supported by developing vessel 11 while the other long side of the regulating member 14 is positioned opposing, a gap apart from, the developing roller 12 surface. Regulating member 14 may be formed of stainless steel, aluminum, synthetic resin or the like. Regulating member 14 regulates the layer thickness of the developer carried and conveyed by the surface of developing roller 12.
Toner concentration detecting sensor 15 is attached to the developer vessel wall vertically under agitating roller 13, or at the bottom surface of developing vessel 11 so that its sensor face is exposed to the interior space of developing vessel 11. Toner concentration detecting sensor 15 is electrically connected to a controller that is equipped in image forming apparatus 30.
Toner concentration detecting sensor 15 may use a general detection sensor. Examples include transmitted light detecting sensors, reflected light detecting sensors, magnetic permeability detecting sensors, etc. Of these, magnetic permeability detecting sensors are preferable because a sensor of this type receives application of control voltage and outputs the detection result of toner concentration as an output voltage value. Magnetic permeability detecting sensors of this kind are found on the market, examples including TS-L, TS-A and TS-K (all of these are trade names of products of TDK Corporation).
Toner concentration detecting sensor 15 is connected to a power supply (not shown). This poser supply applies to toner concentration detecting sensor 15 a drive voltage for driving toner concentration detecting sensor 15 and a control voltage for outputting the detected result of toner concentration to the controller of image forming apparatus 30. Application of voltage from the power supply to toner concentration detecting sensor 15 is controlled by the controller of image forming apparatus 30. In this connection, when a magnetic permeability sensor is used for toner concentration detecting sensor 15, because basically the sensor of this kind is highly sensitive in the middle range of an output voltage, it is preferable that the applied control voltage is adjusted so as to produce the output voltage around the mid point of the output voltage range.
Next, the features of toner cartridge 10 of the present embodiment will be described in detail with reference to the drawings.
As shown in
As shown in
Further, as shown in
Further, provided in the bottom of toner container 1 is a partitioning wall 4 which separates the interior space of toner container 1 into a toner reservoir 10a in which toner is stored and a toner conveyor portion 10b formed with toner discharge port 2.
Partitioning wall 4 is a plate-like part extended in the longitudinal direction of toner container 1 and is formed so as to leave a space between itself and top lid 1a. In other words, an opening between partitioning wall 4 and top lid 1a is formed so as to establish communication between toner reservoir 10a and toner conveyor portion 10b.
As shown in
Accommodated above toner discharge port 2 inside toner conveyor portion 10b is toner conveying member 3.
This toner conveying member 3 includes, as shown in
First rotary shaft 3a is a cylindrical element that is arranged with its axis extended in the longitudinal direction of toner container 1 and axially supported rotatably at both ends by the side walls of toner container 1.
Helical blade 3b is a blade that is helically formed around first rotary shaft 3a. This may be formed of, for example a screw auger, spiral coil or the like. As shown in
As shown in
Toner conveying member 3 is rotated, about first rotary shaft 3a by drive force from an unillustrated motor so as to convey the toner stored inside toner conveyor portion 10b of toner container 1 from one end (the right side in
Toner agitator 8 is accommodated inside toner reservoir 10a.
As shown in
As shown in
Toner agitating plate 8b is a plate-like member that extends from second rotary shaft 8a radially outwards (in the directions perpendicular to the direction in which the axis extends (which will be referred to hereinbelow as the axial direction)) so that one half from the rotary shaft forms a phase difference of 180° from the other half.
As shown in
As shown in
Toner scooping blade 8c preferably has a thickness of 0.5 mm to 2.0 mm, and is formed of a flexible member, preferably formed of polyethylene terephthalate (PET) resin or the like, though the material is not particularly limited.
The above-described configuration of toner scooping blade 8c makes toner scooping blade 8c ready to deform. As a result, toner scooping blade 8c moves sliding along the interior wall of toner container 1 as it is deforming (elastically deforming), so that it is possible to scoop up the toner more smoothly and convey the toner to toner conveyor portion 10b.
The toner held inside toner reservoir 10a of toner container 1 is agitated as toner agitator 8 rotates about second rotary shaft 8a, at the same time, the toner held inside toner reservoir 10a of toner container 1 is scooped up and conveyed to toner conveyor portion 10b as toner scooping blade 8c moves deforming and sliding along the interior wall of toner container 1.
As described above, since the interior space of toner container 1 is divided along the longitudinal direction by partitioning wall 4 into toner conveyor portion 10b and toner reservoir 10a, the weight of toner held in toner reservoir 10a will not act on the toner conveyed by toner conveying member 3. Accordingly, it is possible to alleviate stress acting on the toner being conveyed by toner conveying member 3, hence prevent degradation of the properties of the toner.
Further, in order to efficiently perform toner conveyance by toner agitator 8 and toner conveying member 3, the height of partitioning wall 4 provided between toner agitator 8 and toner conveying member 3 is preferably designed to be as high as the vertically highest point of toner conveying member 3 when toner cartridge 10 is mounted to image forming apparatus 30.
In this way, when the height of partitioning wall 4 is designed to be substantially equal to the vertical height point of toner conveying member 3, it is possible to prevent the toner that has been once conveyed, from returning from toner conveyor portion 10b to toner reservoir 10a. As a result, a suitable amount of toner can be kept around toner conveying member 3, hence it is possible to make toner conveying member 3 convey toner efficiently in a stable manner while reducing stress on the toner.
As shown in
Airtight cover 5 has an inner peripheral surface 5a that encloses the periphery of toner conveying member 3 in cooperation with toner container 1 and an aftermentioned pressure relieve valve 9. That is, a cylindrical tunnel-shaped space 10b1 (
Provision of tunnel-shaped space 10b1 makes air difficult to enter around toner discharge port 2 in toner conveyor portion 10b, it is possible to prevent occurrence of a toner-slide phenomenon (the phenomenon that toner around toner discharge port 2 becomes aerosol and abruptly flows down) triggered by vibrations etc. transferred to the cartridge.
Further, a pressure relieve valve (pressure relieving portion) 9 is provided in toner conveyor portion 10b at a position opposing communication opening 4a so as to cover communication opening 4a, as shown in
Pressure relieve valve 9 is formed of a square sheet element made of an elastically deformable flexible sheet. This pressure relieve valve 9 is fixed at its upper end 9b as a fixed end to airtight cover 5 located over communication opening 4a with an attachment screw 9a while the lower end, designated at 9c is left as a free end.
As shown in
Next, the operation of supplying toner from toner cartridge 10 to developing device 20 in image forming apparatus 30 of the present embodiment will be described.
When toner is supplied from toner cartridge 10 to developing device 20, toner agitator 8 is rotated in the direction of arrow E as shown in
At this time, toner scooping blade 8c rotates as it is deforming and sliding over the inner wall of toner reservoir 10a due to the flexibility of the material that forms the blade, whereby the toner on the downstream side with respect to the rotational direction, or the toner residing on the right side (close to developing device 20 in
Then, the toner supplied to the toner conveyor portion 10b side is conveyed toward toner discharge port 2 as shown in
At normal toner conveyance of toner conveying member 3, the toner conveyed by toner conveying member 3 and residing inside tunnel-shaped space 10b1 is not exposed to a high-pressure condition, hence the toner is conveyed from toner conveyor portion 10b (tunnel-shaped space 10b1) to toner discharge port 2 without pressure relive valve 9 deformed.
In contrast, when the toner conveyed by toner conveying member 3 is not conveyed smoothly around toner discharge port 2, toner is compressed and the pressure of the toner becomes higher around toner discharge port 2 in toner conveyor portion 10b. In the present embodiment, since the periphery of toner conveying member 3 in toner conveyor portion 10b of toner discharge port 2 is enclosed by airtight cover 5, the toner inside tunnel-shaped space becomes high in pressure.
As the pressure of the toner inside tunnel-shaped space 10b1 becomes higher, the lower end 9c of pressure relieve valve 9 is flexed by the toner pressure as shown in
As described heretofore, since toner cartridge 10 according to the present embodiment includes: airtight cover 5 that encloses the top of toner conveying member 3 in the vicinity of toner discharge port 2 in toner conveyor portion 10b; communication opening 4a for connecting toner conveyor portion 10b with toner reservoir 10a; and pressure relieve valve 9 that opens and closes communication opening 4a in accordance with the pressure of the toner in the space enclosed by airtight cover 5, pressure relive valve 9 is released when the fluidity of the toner near toner discharge port 2 in toner conveyor portion 10b lowers and the toner is about to become higher in pressure and is going to be compressed, so that the toner escapes from the toner conveyor portion 10b side to the toner reservoir 10a side. Accordingly, it is possible to reduce the pressure of the toner around toner discharge port 2. As a result, it is possible to prevent toner from being compressed and clumping around toner discharge port 2 and prevent toner conveying member 3 from being locked.
In the above way, according to image forming apparatus 30 of the present embodiment, since it is possible with toner cartridge 10 to carry out stable toner supply to developing device 20, highly qualified images can be output in a stable manner.
Further, according to the present embodiment, since toner conveying member 3 includes discharge rotor 3c at the position opposing toner discharge port 2 so that discharge rotor 3c can be rotated about first rotary shaft 3a, the toner pressure can be readily transferred to pressure relieve valve 9. As a result, it is possible to smoothly open communication opening 4a when the pressure of toner has increased.
Further, since pressure relieve valve 9 is configured of a flexible sheet with its upper end 9b fixed to the top of communication opening 4a and its lower end 9c set free, the lower side of communication opening 4a is opened greater than the upper side as the flexible sheet is flexed. As a result, toner can readily move passing through communication opening 4a from toner conveyor portion 10b to toner reservoir 10a. Furthermore, this valve function can be realized with a simple structure.
Though the above embodiment was described taking an example in which the toner cartridge of the present invention is applied to image forming apparatus 30 shown in
Having described heretofore, the present invention is not limited to the above embodiment, various changes can be made within the scope of the appended claims. That is, any embodied mode obtained by combination of technical means modified as appropriate without departing from the spirit and scope of the present invention should be included in the technical art of the present invention.
Number | Date | Country | Kind |
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2009-203934 | Sep 2009 | JP | national |