WO2007123075A1 - 画像形成装置、画像形成方法、画像形成プログラムおよびそれを記録したコンピュータ読み取り可能な記録媒体 - Google Patents
画像形成装置、画像形成方法、画像形成プログラムおよびそれを記録したコンピュータ読み取り可能な記録媒体 Download PDFInfo
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- WO2007123075A1 WO2007123075A1 PCT/JP2007/058247 JP2007058247W WO2007123075A1 WO 2007123075 A1 WO2007123075 A1 WO 2007123075A1 JP 2007058247 W JP2007058247 W JP 2007058247W WO 2007123075 A1 WO2007123075 A1 WO 2007123075A1
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- Prior art keywords
- developer
- unit
- carrier
- image forming
- replacement
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Classifications
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/06—Apparatus for electrographic processes using a charge pattern for developing
- G03G15/08—Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
- G03G15/0822—Arrangements for preparing, mixing, supplying or dispensing developer
- G03G15/0848—Arrangements for testing or measuring developer properties or quality, e.g. charge, size, flowability
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/06—Apparatus for electrographic processes using a charge pattern for developing
- G03G15/08—Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
- G03G15/09—Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer using magnetic brush
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G9/00—Developers
- G03G9/08—Developers with toner particles
- G03G9/0821—Developers with toner particles characterised by physical parameters
- G03G9/0823—Electric parameters
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G2215/00—Apparatus for electrophotographic processes
- G03G2215/06—Developing structures, details
- G03G2215/0602—Developer
- G03G2215/0604—Developer solid type
- G03G2215/0607—Developer solid type two-component
Definitions
- Image forming apparatus image forming method, image forming program, and computer-readable recording medium recording the same
- the present invention uses an electrophotographic technique in which an electrostatic latent image formed on an image carrier is developed and visualized with toner of a two-component developer held on the developer carrier.
- the present invention relates to an image forming apparatus.
- a developer for developing an electrostatic latent image formed on an image carrier and forming a visible image with respect to an image output device using electrophotographic technology such as a laser printer or a copying machine.
- a two-component developer composed of a toner and a carrier and a one-component developer composed of a single toner have been used.
- the magnetic brush development method using a two-component developer is superior in terms of image quality compared to other development methods, can be colored, and is relatively inexpensive. Has been used.
- a cylindrical metal sleeve and permanent magnets as magnetic field generating means provided therein are alternately arranged in N and S poles.
- a developer carrier comprising a magnet roller.
- the two-component developer is carried on the surface of the metal sleeve of the developer carrier, and only the metal sleeve is rotated while the magnet roller is fixed.
- the two-component developer can be conveyed to the area. Then, by the developing electric field applied between the developer carrier and the image carrier, only the charged toner can be electrostatically attached to the image carrier to form a visible image.
- the so-called carrier adhesion in which even a carrier that is not only toner adheres to the image carrier, is caused by the developing electric field. Arise.
- This carrier adhesion causes image defects. Specifically, image defects due to white spots are caused in the image area.
- the toner adhered to the carrier on the developer carrier Since it adheres together, it causes image capri.
- the toner particle size has been reduced, and the carrier tends to have a smaller particle size.
- the magnetic binding force of the carrier on the developer carrying member is reduced, and therefore, countermeasures against the carrier adhesion are increasingly required.
- This carrier adhesion is governed by various control factors such as the magnetic characteristics of the carrier, the magnetic flux density of the magnet roller, the carrier particle diameter, and the electric resistance of the developer. It is relatively high in design freedom.
- the carrier is obtained by coating the surface of the semiconductive particles (core) with an insulating resin layer, and the resistance decreases as the resin layer peels with time due to external stress. As a result, the inflow of charges into the carrier due to the external electric field and the so-called induction charging phenomenon are likely to occur, and there is a risk of inducing carrier adhesion.
- the carrier adhesion may increase due to the time-dependent change of the resin coating layer of the carrier. Therefore, not only the initial setting but also a measure against the time change is necessary.
- a two-component developer 11 comprising a carrier (magnetic carrier) 160 and a toner 161 is formed on the surface of the metal sleeve of the developer carrier 12 having a magnet roller (not shown) in the developing region.
- a magnetic brush is formed in contact with the image carrier 21. The magnetic brush comes into contact with the image carrier 21, and a region where the toner 161 is conveyed from the developer carrier 12 to the electrostatic latent image formed on the image carrier 21 is defined as a development-up unit. Call.
- the negatively charged charge on the surface of the image carrier 21 remains, and when the surface potential is ⁇ 600 V, the development-up portion Due to the electric field formed in step (b), positive induced charges are also injected into the metal sleeve side force into the carrier 160 at the tip of the magnetic brush. Due to this induced charge, like the image portion, a Coulomb force acts on the carrier 160 at the tip of the magnetic brush in the direction of moving to the image carrier 21, and this Coulomb force overcomes the magnetic restraint force on the developer carrier 12. In this case, the carrier adheres to the image carrier 21 and the toner 161 is also taken in, so that the image capri is generated.
- Patent Document 1 the presence / absence of carrier adhesion and the amount of adhesion are measured based on the current value flowing through the developer, and the bias voltage between the image carrier and the developing device is determined according to the measured value.
- An image forming apparatus to be adjusted is disclosed.
- the volume resistivity of the developer is small, carrier adhesion occurs, and when the bias voltage during development is further increased, carrier adhesion increases.
- the image forming apparatus by decreasing the bias voltage, an increase in carrier adhesion due to a decrease in the volume resistivity of the developer can be offset, so that carrier adhesion can be suppressed. .
- Patent Document 2 discloses an image forming apparatus that suppresses an increase in carrier adhesion by changing the AC duty ratio of the developing bias.
- the image forming apparatus includes a power source in which a DC power source and an AC power source are connected in series, measures a current value flowing from the power source to the developing agent, and develops the developer based on the measured current value. Calculate the volume resistance of. Then, the toner mixing ratio is predicted from the relationship between the calculated volume resistance value, the predetermined volume resistance value, and the toner mixing ratio, and the predicted toner mixing ratio satisfies the preset allowable lower limit value! / In this case, reduce the AC bias ratio of the development bias. As a result, the potential difference between the carrier and the latent image area of the image carrier is reduced, so that it becomes difficult for charges to be injected into the carrier, and the adhesion of the carrier to the image carrier is suppressed.
- Patent Document 3 the degree of deterioration of the developer is measured based on the current value flowing in the developer!
- an image forming apparatus that executes a process for extending the life of a developer, such as replacing the developer when the measured degree of deterioration exceeds a preset reference value. According to the image forming apparatus, since the life of the developer is extended, a good image can be formed. In addition, the charging ability of the carrier is reduced due to the toner vent on the carrier, etc., so that the toner is not sufficiently charged and the image density is lowered, and the toner is scattered to cause in-machine contamination. Can be solved.
- Patent Document 1 Japanese Patent Publication “Japanese Patent Laid-Open No. 4-34573 (Publication Date: February 5, 1992)”
- Patent Document 2 Japanese Published Patent Publication “JP 2000-98730 (Publication Date: April 7, 2000)”
- Patent Document 3 Japanese Patent Publication “Japanese Patent Laid-Open No. 4-80777 (Publication Date: March 13, 1992)”
- the carrier adhesion is known to become more prominent as the potential difference between the developer bearing member and the image bearing member is larger. Therefore, in the noisy area applied to the image forming apparatus, it is necessary to set the volume resistivity of the developer in order to suppress carrier adhesion below a specified amount.
- Figure 17 shows the experimental results of measuring the number of carriers deposited on one A4 sheet when a development bias voltage is applied to a two-component developer using two types of carriers with different volume resistivity. It is a graph.
- the coating carrier is a coating obtained by applying a resin coating to the core carrier, and has a larger volume resistivity than the core carrier. Therefore, the volume resistivity is higher when the coating carrier is used as the developer.
- the developing bias means that the surface potential of the image carrier is V and the voltage applied to the developing sleeve of the developer carrier is Vde.
- the positive bias area indicates the image area (black solid image area).
- the negative bias area indicates the non-image area (background area).
- carrier adhesion is observed in both the image area and the non-image area. Therefore, as described above, it was found that the carrier was induction-charged with both positive and negative polarities. Further, as described above, it has become a component that the number of carriers attached increases as the developing bias increases. This is because the amount of dielectric charge increases as the amount of current flowing through the developer increases due to an increase in the developing bias. In addition, since the developer adhesion using the coating carrier is reduced compared to the developer using the core carrier, it is effective to increase the volume resistivity of the developer to prevent carrier adhesion.
- the volume resistivity of the developer i.e., the amount of current flowing into the developer, is controlled to change over time. As a result, it was necessary to take measures according to the situation.
- Patent Document 1 Based on the above phenomenon, the technique of Patent Document 1 can reduce carrier adhesion by reducing the development bias voltage, but the potential difference S between the developer carrier and the image portion on the image carrier S As a result, the amount of toner adhering to the image area decreases, and the density of the output image decreases.
- the deterioration level of the developer is determined by detecting a decrease in the current value flowing through the developer. That is, the degree of deterioration is determined based on the increase in the resistance value of the developer, and does not detect a decrease in the resistance value of the developer. For this reason, the occurrence of carrier adhesion due to a decrease in the resistance value of the developer cannot be reduced.
- the present invention has been made in view of the above-described problems, and an object of the present invention is to provide an image bearing member that is generated when the volume resistivity of a carrier is reduced due to deterioration due to long-term use of a developer.
- An object of the present invention is to provide an image forming apparatus, an image forming method, an image forming program, and a recording medium thereof capable of forming a high-quality image by preventing carrier adhesion. Disclosure of the invention
- the image forming apparatus of the present invention has a magnetic non-magnetic and conductive sleeve having a magnetic field generating unit disposed therein, and has a carrier and a toner on the surface. And a developer carrying member that holds a developer containing a developer and a developer regulating member that regulates the amount of the developer held on the developer carrying member to the image carrier.
- the developing agent supplied from the developing unit to the image carrier is used in an image forming apparatus that visualizes an electrostatic latent image formed on the surface of the image carrier, and A resistance detection means for detecting the volume resistivity of the developer held on the surface of the body, a resistance storage section for storing a preset volume resistivity, and the development detected by the resistance detection means.
- the volume resistivity of the developer and the resistance comparison means for comparing the set volume resistivity stored in the resistance storage unit, and the volume resistivity of the developer is lower than the set volume resistivity. In this case, replace the developer or carrier.
- a control means for executing a process for conversion.
- the image forming method of the present invention has a surface of a developer carrying member provided with a magnetic non-magnetic and conductive sleeve having a magnetic field generating means disposed therein.
- the developer containing the carrier and the toner is held, the supply amount of the developer to the image carrier is regulated by the developer regulating member, and the electrostatic latent image formed on the surface of the image carrier by the developer is regulated.
- a resistance detection step for detecting the volume resistivity of the developer held on the surface of the developer carrying member, and a preset volume resistivity are stored over an image forming method for visualizing an image.
- a resistance storage unit that compares the volume resistivity of the developer detected by the resistance detection step with the set volume resistivity stored in the resistance storage unit; and The volume resistivity of the developer is the above If it falls below the exhibited a volume resistivity is characterized in that it comprises a control step for executing processing of order to replace the developer or the carrier.
- the resistance detection unit detects the volume resistivity of the developer held on the surface of the developer carrier, and the resistance comparison unit is preset in the volume resistivity and the resistance storage unit. The volume resistivity is compared. Then, when the volume resistivity of the developer falls below the set volume resistivity, a process for exchanging the developer or the carrier is executed.
- the developer consumes only the toner in image formation, and the carrier remains in the developing unit for a long time. Therefore, especially the carrier In the toner cartridge, mechanical stress due to friction between the developer regulating member and the image carrier, collision between the carriers and rubbing, etc. is repeatedly received, and the volume resistivity is lowered with time. As the volume resistivity decreases, an induction charging phenomenon of the carrier occurs in the development region where the image bearing member and the developer bearing member face each other, and the carrier adheres to the image bearing member. Generate image capri.
- processing for exchanging the developer or carrier includes, for example, processing for informing the user of the above-mentioned developer or carrier replacement instruction, processing for supplying a new developer or carrier, and the like. Can be mentioned.
- the image forming apparatus may be realized by a computer.
- And computer-readable recording media on which it is recorded also fall within the scope of the present invention.
- FIG. 1 is a schematic configuration diagram showing an example of a configuration for determining deterioration of a two-component developer and prompting replacement of the two-component developer at the time of deterioration in the image forming apparatus according to the present invention.
- FIG. 2 is a schematic diagram showing an outline of a main configuration of an image forming apparatus according to the present invention.
- FIG. 3 is a graph showing an example of a decreasing tendency of volume resistivity of a magnetic carrier used in the image forming apparatus according to the present invention.
- IV 4 It is a supplementary diagram for explaining the process of deriving the volume resistivity of the magnetic carrier.
- FIG. 5 is a schematic diagram showing an outline of a configuration when a counter electrode for measuring the resistance of the two-component developer of the image forming apparatus according to the present invention is a rotatable conductive metal sleeve.
- This is a graph showing an example of the correlation between the toner concentration of the two-component developer and the dynamic resistance.
- FIG. 7 Results of measurement of the developer bias dependence of the number of carriers deposited per A4 sheet on the image carrier surface for a two-component developer using a different carrier coated on the same core It is a graph which shows.
- FIG. 8 For a two-component developer using a magnetic carrier with different coatings on the same core, the volume resistivity and carrier adhesion number of the two-component developer when the development bias is 400V FIG.
- FIG. 9 is a diagram showing an example of the correlation between the interelectrode potential difference and the volume resistivity when different members are used as the counter electrode during volume resistivity measurement.
- FIG. 10 is a schematic configuration diagram showing a configuration of an apparatus for discriminating deterioration of a two-component developer and displaying a message or a warning lamp for prompting replacement of the developing unit at the time of deterioration in the image forming apparatus according to the present invention.
- the image forming apparatus it is a schematic configuration diagram showing a configuration of an apparatus for determining deterioration of a two-component developer and transmitting a signal for prompting replacement of a developing unit to the service center at the time of deterioration.
- FIG. 12 is a schematic configuration diagram showing the configuration of an apparatus having developer replacement means for discriminating deterioration of a two-component developer and replacing the developer at the time of deterioration in the image forming apparatus according to the present invention.
- the image forming apparatus is a configuration diagram showing a configuration of an apparatus for displaying a message or a warning lamp for prompting replacement of the recovery unit and the supply unit after the developer replacement means has been executed a predetermined number of times.
- the image forming apparatus it is a schematic configuration diagram showing a configuration of an apparatus for transmitting a signal for urging replacement of a collection unit and a supply unit to a service center after a developer replacement unit has been executed a predetermined number of times.
- FIG. 3 is a schematic configuration diagram showing a configuration of an apparatus having a function of resetting the number of times of changing the developer after the operation is performed.
- Control unit (control means)
- Unit replacement detection unit (unit replacement detection means)
- FIG. 2 is a schematic diagram showing an outline of the main configuration of the image forming apparatus 1 of the present embodiment.
- a two-component developer (developer) 11 composed of a magnetic carrier and a non-magnetic toner previously put in the developing unit 10 is stirred and charged by a stirring screw 20. Is done.
- the two-component developer 11 is held on the surface of the developer carrier 12 by a magnetic restraint force by being conveyed to the developer carrier 12 in which a magnet roller as a magnetic field generating means is disposed.
- the two-component image agent 11 held on the surface of the developer carrier 12 is regulated to a constant layer thickness by the developer regulating member 13, and a magnetic brush is applied to the opposite portion between the developer carrier 12 and the image carrier 21. Visible (Fig. 16 (a) and Fig.
- the image forming apparatus 1 is provided with a toner density detector (toner density detector) 22, and the toner density in the two-component developer 11 inside the developing unit 10 is kept substantially constant.
- the toner concentration detector 22 detects the toner concentration represented by the ratio of the toner weight to the developer weight. When the detected toner density falls below a predetermined toner density set in advance, new toner is supplied from the toner hopper 23 until the toner density reaches the predetermined toner density. Thereby, even if the toner is consumed in the visible image formation, the toner concentration in the two-component developer 11 inside the developing unit 10 can be kept substantially constant.
- the bias voltage applied to the developer carrier 12 is set to one 400V.
- the potential difference V ⁇ V between the image carrier 21 and the developer carrier 12 during visible image formation is 100
- the image forming apparatus 1 has a total of five magnetic poles arranged inside the developer carrier 12 and includes the developer carrier 12 and the image carrier. It is assumed that the magnetic flux density in the normal direction of the magnetic pole located in the development region facing 21 is 110 [mT]. These numbers are merely examples and are not limited in any way. Further, the gap between the developer carrier 12 and the developer regulating member 13 and the gap between the developer carrier 12 and the image carrier 21 in the development region are set to 0.45 [mm] in this experimental example. Has been. Of course, this is also a mere example and is not limited to this value.
- the two-component developer 11 includes a magnetic carrier having a volume average particle diameter ⁇ 50 m coated with silicone resin on the surface, and a volume average particle diameter ⁇ refined by a pulverization method. 6.5 / zm non-magnetic toner was used. The density of the magnetic carrier was 4.7 [g / cm 3 ], the density of the non-magnetic toner was 1.0 [g / cm 3 ], and the toner concentration of the two-component developer 11 was constant at 5 wt%.
- the magnetic carrier Since the two-component developer 11 basically consumes only non-magnetic toner, the magnetic carrier remains in the developing unit 10 for a long period of time. As a result, mechanical stress due to friction with the agitating screw 20, developer regulating member 13 and image carrier 21 in the developing unit 10, collision between carriers, rubbing, etc. is repeatedly received, and the core surface is coated over time. As a result, the resin layer is scraped and peeled, and the volume resistivity of the carrier is lowered.
- Fig. 3 shows that a voltage of 400 V is applied between the developer carrier 12 and the image carrier 21 when only the carrier is put into the developing unit 10 and the image carrier 21 is made of a conductive aluminum sleeve.
- 6 is a graph showing the dependence of the dynamic resistance value of the carrier obtained from the flowing current on the elapsed time.
- the peripheral speed of developer carrier 12 is set to 450 mmZsec, the peripheral speed of image carrier 21 is set to 225 mm Zsec, and the peripheral speed ratio of developer carrier 12 to image carrier 21 is set to 2. is doing. Under these conditions, the developer carrier 12 and the image carrier 21 were idled, and the dynamic resistance value was sampled at an arbitrary elapsed time.As a result, as shown in FIG. As time progressed, it was powerful to show a decreasing trend.
- the volume resistivity of the two-component developer 11 must satisfy the predetermined volume resistivity determined in advance based on the generation limit value of carrier adhesion. I understand that there is. For this purpose, it is necessary to manage the decrease in volume resistivity of the two-component developer 11 and maintain a value above a certain level.
- the image forming apparatus 1 manages the decrease in volume resistivity of the two-component developer 11 to prevent carrier adhesion to the image carrier 21 and form a good image. Is realized.
- a specific configuration of the image forming apparatus 1 will be described.
- the image forming apparatus 1 has a two-component developer 11, a developer carrier 12, a counter electrode (developer regulating member) 13, a resistance detector (resistance detector) 14, and a resistance comparison.
- a unit (resistance comparison unit) 15, a resistance storage unit 16, and a control unit (control unit) 17 are provided.
- the counter electrode 13 also functions as a developer regulating member that regulates the supply amount of the two-component developer 11 held on the developer carrier 12 to the image carrier 21.
- a processing flow in the image forming apparatus 1 will be described with reference to FIG.
- the current flowing through the two-component developer 11 interposed between the developer carrier 12 and the counter electrode 13 from the potential difference applied between the developer carrier 12 and the counter electrode 13 by the resistance detection unit 14. of The current value is measured, and the volume resistivity of the two-component developer 11 is calculated from the current value.
- the method for calculating the volume resistivity of the two-component developer 11 by the resistance detector 14 will be described later.
- the resistance comparison unit 15 compares the volume resistivity with a prescribed volume resistivity stored in advance in the resistance storage unit 16.
- the control unit 17 executes processing for exchanging the two-component imaging agent 11 or the carrier. The specific processing contents executed by the control unit 17 will be described later.
- a potential difference V
- Vd—Vo I between the potential Vd of the developer carrier 12 and the potential Vo of the counter electrode 13 is given, and the two components interposed between the developer carrier 12 and the counter electrode 13
- the current value I of the current flowing through the developer 11 is measured by a current measurement unit (current measurement unit) 18 provided in advance in the resistance detection unit 14.
- S [cm 2 ] a [cm] X b [cm]
- the gap between the developer carrying member 12 and the counter electrode is d [cm]
- the counter electrode 13 is a conductive developer regulating member, but is not limited to this.
- the counter electrode 13 is rotatable.
- Conductive metal sleeve 50 may be used. Note that a small amount of carrier or toner may adhere to the conductive metal sleeve 50 due to mechanical rubbing or the like at the portion facing the developer carrier 12, and the volume resistivity may not be measured accurately. For this reason, it is preferable that the conductive metal sleeve 50 is provided with a cleaning blade 51 for scraping the carrier and toner. As a result, the surface of the counter electrode can be kept clean at all times, so that stable and highly reliable measurement can be performed in measuring the volume resistivity of the developer.
- the conductive metal sleeve 50 is a developer in which the amount of the two-component developer 11 held on the surface of the developer carrier 12 is more stable with respect to the rotation direction of the developer carrier 12. It is preferable that the restriction member 13 is disposed on the downstream side. This provides a stable volume resistivity measurement. Can be determined.
- the conductive metal sleeve 50 is preferably disposed on the upstream side of the facing portion between the developer carrier 12 and the image carrier 21. This is because if the conductive metal sleeve 50 is installed on the downstream side of the facing portion between the developer carrier 12 and the image carrier 21, an arbitrary amount of toner is consumed and the toner weight mixing ratio fluctuates. This is because the volume resistivity is different even in the same state.
- the potential Vd of the developer carrier 12 and the potential Vo of the conductive metal sleeve 50 as the counter electrode are Vo> It is preferable that the relationship of V d satisfies the relationship of Vo ⁇ Vd when the charging polarity of the toner is negative. Accordingly, toner transfer from the developer carrier 12 to the conductive metal sleeve 50 does not occur, and stable toner supply to the image carrier 21 can be performed.
- the resistance detection unit 14 detects the volume resistivity of the two-component developer 11 when the toner concentration detected by the toner concentration detection unit 22 satisfies a predetermined toner concentration set in advance. It is preferable to do. Specifically, the toner concentration detection unit 22 detects the toner concentration, and calculates the toner concentration represented by the ratio of the toner weight to the developer weight based on a signal output from the toner concentration sensor. A toner concentration calculation unit for calculating, a toner concentration storage unit for storing a prescribed toner concentration, and a toner concentration comparison unit for comparing the toner concentration calculated by the toner concentration calculation unit and the prescribed toner concentration. . When the toner density satisfies the prescribed toner density, the resistance detection unit 14 detects the volume resistivity of the two-component developer 11. The processing of the toner concentration calculation unit and the toner concentration comparison unit may be executed in the resistance detection unit 14.
- FIG. 6 is a graph showing an example of the correlation between the toner density and the dynamic resistance value.
- the dynamic resistance value shown in FIG. 6 indicates that the two-component developer is obtained when the image carrier 21 is a conductive aluminum sleeve and a voltage of 400 V is applied between the developer carrier 12 and the image carrier 21.
- the dynamic resistance value of the two-component developer 11 obtained from the current value flowing through 11 is shown.
- the dynamic resistance value greatly changes with the change in toner density. Therefore, if the toner concentration does not reach the specified value, that is, it falls below the specified value of 5 wt%. If the resistance detector 14 measures the volume resistivity of the two-component developer 11, a value smaller than the volume resistivity to be measured is detected. As a result, it is judged that the two-component imaging agent 11 is deteriorated. In this case, the controller 17 executes processing for exchanging the two-component developer 11 or the carrier. In other words, it may cause malfunction. Therefore, the resistance detection unit 14 needs to operate only when the toner density reaches the specified value.
- the prescribed volume resistivity is determined based on the following experiment.
- FIG. 7 is a graph plotting the number of carriers attached to the image carrier 21 per A4 sheet with respect to the development bias in the developer using four types of carriers having different volume resistivity. .
- the toner concentration is constant at 5 wt%.
- one of the four types used in the experiment was a ferrite carrier core containing Mg with a volume average particle size of 50 [/ zm] and a saturated magnetic layer of 65 [emu / g] without a coating layer.
- the remaining three types are the same core with a coating of coat coat 2 and coat 3, respectively.
- the volume resistivity relationship of each carrier is as follows: core coat 1, coat 2, coat 3.
- the materials of coats 1 to 3 are all silicone-based resin.
- the thickness of the coat layer is 0.5 m for coat 1 and 1 ⁇ m for coat 2 and coat 3.
- the coating method uses a dipping method. Of course, it may be coated by other methods.
- volume resistivity is different between coat 1 to coat 3 even though the same coating resin is used.
- the volume resistivity is smaller because the coat layer is thinner than the coat layer.
- the coat resistivity is higher in the coat 3 than in the coat 2 because the coat layer is more uniform in the coat 3. This is considered to be because of this.
- carrier adhesion can be suppressed by using a carrier having a high volume resistivity.
- carrier adhesion can be drastically reduced by using the carrier of coat 2 and coat 3. It can be a problem.
- the carrier adhesion to the image carrier 21 is caused by the image carrier 21 and the developer carrier.
- opc dev As the potential difference V -V from the holder 12 increases, opc dev in this embodiment
- FIG. 8 shows the number of carriers attached per A4 sheet when a voltage of 400 V is applied to the developer carrier 12 when each carrier 1 to 3 is used, and the volume resistivity is plotted on the horizontal axis. This is a graph taken and plotted.
- the core carrier is not plotted because an overcurrent occurs when 400V is applied and the volume resistivity cannot be measured.
- the volume resistivity means that in the contact area between the two-component developer 11 and the image carrier 21 held on the developer carrier 12, the image carrier 21 is a conductive sleeve, and the developer.
- carrier adhesion can be reduced by using the carrier of coat 2 or coat 3, so that the volume resistivity of the two-component developer 11 is 5.8 X 10 10 [Q -cm] or more is found to be effective in reducing carrier adhesion. Furthermore, based on the measurement results for the coat 3 carrier, it is more preferable that the volume resistivity of the two-component developer 11 is 6.4 X 10 1G [Q ' C m] or higher!
- the peripheral speed of the developer carrier 12 is 450 mmZsec
- the peripheral speed of the image carrier 21 is 225 mmZsec
- the peripheral speed ratio of the developer carrier 12 to the peripheral speed of the image carrier 21 is 2
- the peripheral speed of the image carrier 21 is 150 mmZsec and 360 mmZsec
- the volume resistivity based on the above experiment is a volume resistivity p measured between the developer carrier 12 and the conductive sleeve when the image carrier 21 is a conductive sleeve.
- the prescribed volume resistivity p stored in advance in the resistance storage unit 16 is obtained using p as a reference value.
- FIG. 9 shows the measured potential difference between the developer carrying member 12 and the counter electrode when the developer regulating member 13 and the conductive sleeve are used as the counter electrode at the time of measuring the volume resistivity.
- 3 is a graph showing an example of the correlation with the volume resistivity of the two-component developer 11.
- the volume resistivity varies depending on the position facing the developer carrier 12, and the volume resistivity is smaller when the developer regulating member 13 is used as the counter electrode. I understand. This is because the magnetic flux distribution on the surface of the developer carrying member 12 varies depending on the position of the counter electrode, and the density of the magnetic spikes of the two-component developer 11 varies. For this reason as well, as described above, the prescribed body stored in advance in the resistance storage unit 16 with the volume resistivity p as the reference value.
- the volume resistivity at a potential difference of 400 V is 3.2 X 10 8 [ ⁇ 'cm] when the developer regulating member 13 is used, and a conductive metal sleeve is used.
- 4.8 X 10 1 (> [ ⁇ 'cm]. Therefore, when the counter electrode used for measuring the volume resistivity in the image forming apparatus 1 is the developer regulating member 13, the volume resistance specified above is used.
- the rate p is 3.2 10 8 [0 ' «11], the standard volume resistivity / 0 is 4.
- FIG. 10 is a schematic diagram showing an outline of the main configuration of the image forming apparatus 1, and is a diagram for explaining a processing flow by the control unit 17 using the first method.
- a message prompting replacement of the developing unit 10 is displayed on the display unit 100 of the image forming apparatus 1 or a warning lamp is turned on.
- the resistance detection unit 14 uses a potential difference applied between the developer carrier 12 and the counter electrode 13 to determine whether the resistance detector 14 is interposed between the developer carrier 12 and the counter electrode 13. Ingredient The current value of the current flowing through the image agent 11 is measured, and the volume resistivity of the two-component developer 11 is calculated from the current value.
- the control unit 17 displays a message prompting the display unit 100 to replace the developing unit 10 or gives a command to turn on the warning lamp, and the display unit 100 turns on the message or warning lamp. .
- deterioration of the two-component developer can be recognized, so that high-quality image formation can be maintained.
- control unit 17 since the processing contents of the resistance detection unit 14 and the resistance comparison unit 15 are the same as those in the first method, the description thereof is omitted.
- FIG. 11 is a schematic diagram showing an outline of the main configuration of the image forming apparatus 1 and is a diagram for explaining a processing flow by the second method in the control unit 17.
- the image forming apparatus 1 includes a signal transmission unit (signal transmission unit) 110 that transmits a signal to the service center 111 that supports maintenance of the image forming apparatus 1.
- a signal transmission unit 110 that transmits a signal to the service center 111 that supports maintenance of the image forming apparatus 1.
- the control unit 17 when the volume resistivity of the two-component developer 11 calculated by the resistance detection unit 14 is lower than the prescribed volume resistivity stored in the resistance storage unit 16, the control unit 17 Then, a command is given to the signal transmission unit 110 to transmit a warning signal for urging the service center 111 to replace the developing unit 10. Then, the signal transmission unit 110 transmits the warning signal to the service center 111 using the network and automatically requests replacement of the developing unit 10.
- FIG. 12 is a schematic diagram showing an outline of the main configuration of the image forming apparatus 1, and is a diagram for explaining a replacement flow by the third method in the control unit 17.
- the image forming apparatus 1 stores the two-component developer 11 from the developing unit 10 and the unused two-component developer that is unused in the developing unit 10.
- Supply unit 122 for supplying a two-component developer and a developer replacement section (developer replacement means) ) 120 and more.
- the control unit 17 givess a developer replacement instruction to the developer replacement unit 120.
- the developer replacement unit 120 Upon receiving the developer replacement instruction, the developer replacement unit 120 first collects a predetermined amount of the two-component developer 11 from the development unit 10 to the recovery unit 121, and then collects the recovered two-component developer 11 and The same amount of unused developer is supplied from the supply unit 122 to the development unit 10.
- the supply unit 122 preferably contains a developer that is an integral multiple of a predetermined amount of the developer that is collected and supplied when the developer is replaced. This is because, when the predetermined number of replacements is completed, the remaining amount of unused developer accommodated in the supply unit 122 can be reduced to almost zero. This is because it can be reduced.
- the recovery unit 121 preferably has a capacity capable of storing at least the developer stored in the supply unit 122. This is because the recovery unit 121 does not need to be larger than necessary as long as the minimum capacity necessary for recovering the deteriorated image agent can be secured. Thereby, the material cost of the unit can be reduced and the image forming apparatus 1 can be downsized. Furthermore, since the supply unit 122 and the replacement timing are the same, the number of operations can be reduced.
- the developer replacement section 120 stores a count section (number-of-times measuring means) 130 that counts and stores the number of replacement work, and stores a preset number of possible replacements. It is preferable to include a number storage unit 131 and a number comparison unit (number comparison unit) 132 that compares the number of replacement operations counted in the count unit 130 with the number of exchangeable times stored in the number storage unit 131. Then, the control unit 17 may display a message on the display unit 100 of the image forming apparatus 1 that the collection unit 121 and the supply unit 122 need to be replaced when the number of replacement operations reaches the number of replacements. Favored ,.
- the image forming apparatus 1 includes a signal transmission unit 110 that transmits a signal to a service center 111 that supports maintenance of the image forming apparatus 1 using a network.
- the agent replacement unit 120 is stored in the counting unit 130 that counts the number of replacement operations, the number storage unit 131 that stores the number of possible replacements, and the number of replacement operations and the number storage unit 131 that is counted by the counting unit 130.
- a number comparison unit 132 for comparing the number of exchangeable times, and when the number of exchange operations reaches the number of exchangeable times, the signal transmission unit 110 sends a message that the collection unit 121 and the supply unit 122 need to be exchanged. More preferably, it is transmitted to the service center 111.
- the service center 111 immediately recognizes that it is necessary to replace the collection unit 121 and the supply unit 122, and a quick replacement operation by the service person can be realized.
- the developer replacement unit 120 includes a unit replacement detection unit (unit replacement detection means) 150 that detects replacement of the recovery unit 121 and the supply unit 122, and includes a unit replacement detection unit.
- unit replacement detection unit 150 detects replacement of the recovery unit 121 and the supply unit 122
- the number of replacement operations is automatically reset, enabling more reliable reset processing compared to manual reset after replacement, preventing reset errors, and always in a normal state. Can keep.
- the image forming apparatus 1 includes the display unit 100, and displays a message prompting the replacement of the image unit 10, the recovery unit 121, and the supply unit 122 on the display unit 100, or development.
- Power that is configured to display the warning lamp that prompts replacement of the unit 10 The present invention is not limited to this.
- the display unit 100 may be provided in an external device, or an external display device may be used. Also good.
- the image forming apparatus includes a developing agent that includes a magnetic non-magnetic and conductive sleeve having a magnetic field generating unit disposed therein, and includes a carrier and toner on the surface.
- a developer carrier to be held, and the developer to be held on the developer carrier.
- An image forming apparatus that includes a developing unit including a developer regulating member that regulates the amount, supplies only the toner of the developer from the developing unit to the image carrier, and forms a visible image; A resistance detection unit that detects a volume resistance value of the developer accommodated in the developing unit, a predetermined volume resistance value that is determined in advance, and a volume of the developer that is detected by the resistance detection unit A replacement determination unit that determines whether or not the developer needs to be replaced by comparison with a resistance value.
- the volume resistance value of the developer detected by the resistance detection unit is the specified value. It may be configured to include a control unit that executes a predetermined developing unit replacement flow or developer replacement flow when it is determined that the volume resistance value is lower than the predetermined value.
- Vd ⁇ Vo I and the current I, a resistance value R is calculated by R VZl, and the resistance value held on the developer carrier is further calculated.
- the contact area between the developer and the counter electrode is S and the gap between the developer carrier and the counter electrode is d
- the counter electrode may be the conductive developer regulating member.
- the counter electrode may be a rotatable conductive metal sleeve, and may be provided with a cleaning blade for scraping off the carrier or toner adhering to the surface of the conductive metal sleeve.
- the conductive metal sleeve is provided on the downstream side of the developer regulating member with respect to the rotation direction of the developer carrier, and on the opposed portion of the developer carrier and the image carrier. It is also arranged on the upstream side.
- the potential Vd of the developer carrying member and the potential Vo of the counter electrode are in a relationship of Vo> Vd when the charging polarity of the toner is positive, and when the charging polarity of the toner is negative. It may be configured to satisfy the relationship of Vo ⁇ Vd!
- the developing unit further includes a toner concentration sensor used to keep a toner concentration represented by a toner weight ratio with respect to a weight of the developer constant, and the resistance detecting unit includes Toner density sensor power output signal is received, from the output signal It may be configured to operate only when the derived toner density reaches a specified value.
- the image carrier is a conductive sleeve, and the developer carrier and the conductive sleeve are used.
- P is the volume resistance measured when a potential difference of 400 [V] is applied between
- a configuration may be adopted in which a message prompting replacement of the developing unit or a warning lamp is displayed on the display unit of the image forming apparatus during the developing unit replacement flow.
- the image forming apparatus further includes a signal transmission function for transmitting a signal to a service center that supports maintenance of the apparatus using a network.
- the developing unit replacement flow the developing unit replacement The warning signal for prompting the user may be transmitted to the service center by the signal transmission function.
- the image forming apparatus may further include a developer replacement unit, and the developer replacement unit may replace the developer in the developer replacement flow.
- the image forming apparatus further includes a collection unit for collecting the developer from the development unit, an unused developer, and a supply for supplying the unused developer to the development unit.
- the developer replacement means first collects a predetermined amount of the developer from the development unit to the recovery unit in the developer replacement flow, and then recovers the same developer as the recovered developer. It may be configured to supply an amount of the developer from the supply unit to the development unit.
- the supply unit contains the developer that is an integral multiple of the predetermined amount of the developer collected and supplied when the developer is replaced, and the collection unit includes: It may have a capacity that can accommodate at least the developer contained in the supply unit. Further, the developer replacement means counts and stores the number of replacement operations, a storage unit that stores the number of replacements, and the number of replacement operations counted and stored in the counting unit. A comparison unit that compares the exchangeable number stored in the storage unit, and when the exchange operation number reaches the exchangeable number, the recovery unit and the supply unit must be exchanged. It may be configured to display the fact on the display unit of the image forming apparatus.
- the image forming apparatus has a signal transmission function of transmitting a signal to a service center that supports maintenance of the apparatus using a network.
- a counting unit that counts, a storage unit that stores the number of exchangeable times, and a comparison unit that counts in the counting unit and compares the stored number of exchange operations and the exchangeable number of times stored in the storage unit
- the signal transmission function transmits to the service center that the collection unit and the supply unit need to be replaced when the number of replacement operations reaches the replaceable number of times. Good.
- the developer replacement unit includes a unit replacement detection unit that detects replacement of the recovery unit and the supply unit, and the unit replacement detection unit detects replacement of the recovery unit and the supply unit.
- the number of replacement operations stored in the count unit may be reset.
- each block of the image forming apparatus in particular, the resistance detection unit 14, the resistance comparison unit 15, the current measurement unit 18, the toner concentration detection unit 22, the signal transmission unit 110, and the developer exchange unit 120, the count unit 130, the number comparison unit 132, the unit replacement detection unit 150, and each block included therein may be configured by hardware logic, or may be realized by software using a CPU as follows. Moyo! /
- the image forming apparatus includes a CPU (central processing unit) that executes instructions of a control program that realizes each function, a ROM (read only memory) that stores the program, and an upper ti. It is equipped with RAM (random access memory) for expanding the program, storage devices (recording media) such as memory for storing the above programs and various data.
- An object of the present invention is an image which is software that realizes the above-described functions.
- a recording medium in which a program code (executable program, intermediate code program, source program) of an image forming apparatus control program is recorded so as to be readable by a computer is supplied to the image forming apparatus, and the computer (or CPU or MPU) This can also be achieved by reading and executing the program code recorded on the recording medium.
- Examples of the recording medium include magnetic tapes such as magnetic tapes and cassette tapes, magnetic disks such as floppy disk Z hard disks, and optical disks such as CD-ROMZMOZ MD / DVD / CD-R. Disk systems, IC cards (including memory cards) Z optical cards and other card systems, or mask ROMZEPROMZEEPROMZ flash ROM and other semiconductor memory systems can be used.
- the image forming apparatus may be configured to be connectable to a communication network, and the program code may be supplied via the communication network.
- the communication network is not particularly limited.
- the Internet intranet, extranet, LAN, ISDN, VAN, CATV communication network, virtual private network, telephone line network, mobile communication network, satellite communication A net or the like is available.
- the transmission medium constituting the communication network is not particularly limited.
- wired communication such as IEEE1394, USB, power line carrier, cable TV line, telephone line, ADSL line, infrared rays such as IrDA and remote control.
- Bluetooth registered trademark
- 802.11 radio high definition radio
- HDR mobile phone network
- satellite line terrestrial digital network, etc.
- the present invention can also be realized in the form of a computer data signal embedded in a carrier wave in which the program code is embodied by electronic transmission.
- the image forming apparatus is the image forming apparatus described above, wherein the resistance detection unit includes a current flowing in the developer between the developer carrier and the counter electrode.
- the counter electrode is the conductive developer regulating member.
- the image forming apparatus of the present invention is the image forming apparatus described above, wherein the counter electrode is a rotatable conductive metal sleeve, and the conductive metal sleeve includes the conductive metal sleeve. It is preferable that a cleaning blade for removing the carrier or the toner adhering to the surface of the toner is provided.
- the conductive metal sleeve functions as the counter electrode. Since the conductive metal sleeve is provided with a cleaning blade that scrapes off the carrier or the toner adhering to the surface of the conductive metal sleeve, the conductive metal sleeve is carried on the developer carrier. The contact surface of the conductive metal sleeve that comes into contact with the developer can be kept clean at all times. Therefore, stable and highly reliable measurement is possible in measuring the volume resistivity of the developer.
- the image forming apparatus of the present invention is the image forming apparatus described above, wherein the conductive metal sleeve is downstream of the developer regulating member with respect to the rotation direction of the developer carrier.
- the developer carrier and the image carrier are arranged upstream of the facing portion!
- the conductive metal sleeve is disposed downstream of the developer regulating member with respect to the rotation direction of the developer carrier, and is thus guided to the conductive metal sleeve.
- the developer to be released is regulated to a certain amount by the developer regulating member. Therefore, it is possible to stably measure the volume resistivity.
- the conductive metal sleeve is arranged on the upstream side of the facing portion between the developer carrier and the image carrier.
- the amount of developer guided to the conductive metal sleeve is as follows. Because the toner is consumed in the development process, the development process It fluctuates before and after. For this reason, the volume resistivity of the developer changes, and the accurate volume resistivity of the developer cannot be calculated. Therefore, by arranging the conductive metal sleeve on the upstream side of the facing portion between the developer carrier and the image carrier, it is possible to accurately calculate the volume resistivity of the image agent.
- the image forming apparatus of the present invention is the image forming apparatus described above, wherein the potential Vd of the developer carrier and the potential Vo of the counter electrode are Vo when the charge polarity of the toner is positive. It is preferable to satisfy the relationship of> Vd and the relationship of Vo ⁇ Vd when the toner charging polarity is negative.
- the developing unit includes a toner density detecting unit that detects a toner density expressed by a ratio of a toner weight to a weight of the developer.
- the resistance detection unit detects the volume resistivity of the developer when the toner concentration detected by the toner concentration detection unit satisfies a preset toner concentration.
- the resistance detecting means has a volume resistivity of the developer when the toner density detected by the toner density detecting means satisfies a preset toner density! Is detected.
- the dynamic resistance value of the developer varies depending on the toner concentration. Therefore, when the volume resistivity of the developer is measured in a state where the preset toner concentration is satisfied, a value smaller than the volume resistivity that should be originally measured is detected. When the detected volume resistivity falls below a preset volume resistivity, processing for exchanging the developer or the carrier is executed. As described above, the decrease in the toner concentration causes the apparent volume resistivity to decrease and causes a malfunction in which the developer or carrier replacement process is executed.
- the image forming apparatus of the present invention is the image forming apparatus described above, in a contact area between the image carrier and the developer held on the developer carrier! Then, the image carrier is a conductive sleeve, and the volume resistivity measured when a potential difference of 400 [V] is applied between the developer carrier and the conductive sleeve is p, For detection means
- volume resistivity it is preferable to set the volume resistivity to the above-described volume resistivity.
- control means outputs a signal indicating that the development unit needs to be replaced, or a warning lamp lighting command. Is preferred to output.
- a signal indicating that the development unit needs to be replaced is output, or a warning lamp lighting command is output.
- the user can immediately recognize that the developer has deteriorated and the development unit needs to be replaced, so that it is possible to quickly replace the development unit and maintain high-quality image formation. it can.
- running costs can be reduced.
- the current image unit The structure which outputs the signal which displays the message which urges replacement
- the image forming apparatus of the present invention transmits a signal to a service center that supports maintenance of the own apparatus over the network based on the control signal of the control means in the image forming apparatus described above. It is preferable that the apparatus further includes a signal transmission unit, and the signal transmission unit transmits a signal prompting replacement of the developing unit to the service center.
- the image forming apparatus further includes a developer replacement unit that executes a process for replacing the developer based on the control signal of the control unit. U, who prefers to be prepared.
- the developer is exchanged by the developer exchange means.
- the developer is automatically replaced by the image forming apparatus.
- the number of replacement operations can be reduced.
- maintenance costs can be reduced because only the developer can be replaced without replacing the development unit.
- the image forming apparatus of the present invention is the image forming apparatus described above, wherein a collecting unit that collects the developer from the developing unit and an unused developer are accommodated in the developing unit.
- a supply unit that supplies unused developer, and the developer replacement means collects a predetermined amount of developer from the developing unit to the collecting unit, and then the same as the collected developer.
- An amount of developer is preferably supplied from the supply unit to the development unit.
- the supply unit supplies the same amount of developer as the collected developer to the development unit. To do.
- the amount of the developer stored in the developing unit is always substantially constant, and the stirring stress inside the developing unit is constant. Therefore, the charge amount of the toner can be stabilized, and a uniform magnetic brush can be formed on the surface of the developer carrying member, so that the formation of a high-quality and stable image can be maintained.
- the image forming apparatus of the present invention is the image forming apparatus described above, wherein the supply unit is an integral multiple of the predetermined amount of developer collected and supplied when the developer is replaced. It is preferable that the developer is accommodated, and the recovery unit is accommodated in at least the supply unit and has a capacity capable of accommodating the developer.
- the recovery unit only needs to secure the minimum capacity required for developer recovery. Therefore, it is possible to reduce the material cost of the unit and to reduce the size of the image forming apparatus without having to increase the size more than necessary. Furthermore, since the recovery unit can store the same amount of developer as that stored in the supply unit, the replacement timing of the units can be made simultaneously, and the number of operations can be reduced.
- the developer replacing means may be a preset exchangeable means and a number measuring means for measuring the number of times of developer replacement work.
- a number storage unit that stores the number of times
- a number comparison unit that compares the number of exchange operations measured by the number measurement unit and the number of exchangeable times stored in the number storage unit, and the number of replacement operations is It is preferable to output a signal indicating that the recovery unit and the supply unit need to be replaced or to output a warning lamp lighting command when the number of possible replacements is reached.
- the developer changing means includes a number of times measuring means for measuring the number of times of replacing the developer and a preset number of times.
- a number storage unit that stores the number of exchangeable times
- a number comparison unit that compares the number of exchange operations measured by the number measurement unit and the number of exchanges stored in the number storage unit
- a network a network.
- a signal transmission means for transmitting a signal to a service center that supports maintenance of the device itself, the signal transmission means It is preferable to send a signal to the service center that the collection unit and the supply unit must be replaced when the number of times reaches the exchangeable number.
- the developer replacement means further includes a unit replacement detection means for detecting that the recovery unit and the supply unit are replaced.
- the unit replacement detection means transmits a signal for resetting the number of replacement operations to the number measurement means when detecting the replacement of the recovery unit and the supply unit.
- the unit replacement detection unit detects replacement of the recovery unit and the supply unit
- the number of replacement operations of the number measuring unit is reset.
- the number of replacement operations stored in the frequency counting means is automatically reset, so that reset processing can be performed more reliably compared to manual reset after manual replacement, eliminating reset errors. It can prevent and always keep the normal condition.
- the image forming apparatus of the present invention can be widely applied to, for example, a laser printer, a copier, a multifunction machine, and the like to which an electrophotographic image forming system using a two-component developer including a carrier is applied. .
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- Dry Development In Electrophotography (AREA)
- Developing Agents For Electrophotography (AREA)
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Abstract
Description
Claims
Priority Applications (2)
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CN2007800224941A CN101473279B (zh) | 2006-04-20 | 2007-04-16 | 图像形成装置及图像形成方法 |
US12/226,425 US7848665B2 (en) | 2006-04-20 | 2007-04-16 | Image forming apparatus, image forming method, image forming computer program, and computer readable storage medium containing the program |
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JP2006117170A JP4094642B2 (ja) | 2006-04-20 | 2006-04-20 | 画像形成装置、画像形成方法、画像形成プログラムおよびそれを記録したコンピュータ読み取り可能な記録媒体 |
JP2006-117170 | 2006-04-20 |
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PCT/JP2007/058247 WO2007123075A1 (ja) | 2006-04-20 | 2007-04-16 | 画像形成装置、画像形成方法、画像形成プログラムおよびそれを記録したコンピュータ読み取り可能な記録媒体 |
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US (1) | US7848665B2 (ja) |
JP (1) | JP4094642B2 (ja) |
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WO (1) | WO2007123075A1 (ja) |
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JP4494491B2 (ja) * | 2008-04-07 | 2010-06-30 | キヤノン株式会社 | 画像形成装置 |
JP2012032421A (ja) * | 2010-07-28 | 2012-02-16 | Ricoh Co Ltd | 画像形成装置 |
JP6265629B2 (ja) * | 2012-06-01 | 2018-01-24 | コニカミノルタ株式会社 | 画像形成装置 |
US20170277484A1 (en) * | 2016-03-28 | 2017-09-28 | Seiko Epson Corporation | Printer, and control method of a printer |
JP7505365B2 (ja) | 2020-10-23 | 2024-06-25 | 京セラドキュメントソリューションズ株式会社 | 画像形成装置 |
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- 2007-04-16 US US12/226,425 patent/US7848665B2/en not_active Expired - Fee Related
- 2007-04-16 CN CN2007800224941A patent/CN101473279B/zh not_active Expired - Fee Related
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Also Published As
Publication number | Publication date |
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US20090169229A1 (en) | 2009-07-02 |
CN101473279B (zh) | 2011-12-07 |
JP4094642B2 (ja) | 2008-06-04 |
US7848665B2 (en) | 2010-12-07 |
CN101473279A (zh) | 2009-07-01 |
JP2007292802A (ja) | 2007-11-08 |
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