The present invention relates to an image heating apparatus such as a fixing unit that is mounted on an image forming apparatus utilizing an electrophotographic system or an electrostatic recording system, such as a copying machine or a printer, or a gloss-imparting device for reheating a toner image fixed on a recording material, thereby increasing the gloss level of the toner image. The present invention also relates to an image forming apparatus including the image heating apparatus.
As an image heating apparatus, there is an apparatus including an endless belt (also called an endless film), a heater in contact with the inner surface of the endless belt, a roller forming a nip portion together with the heater through the endless belt. This image heating apparatus has a feature of having a small heat capacity and thus being excellent in quick start property and power efficiency. In recent years, however, higher power efficiency has been demanded more than ever, and to meet the demand, there has been proposed a method for selectively heating an image portion formed on a recording material (Embodiment 11 of Japanese Patent Application Laid-open No. H06-95540). In this method, a plurality of heating regions, which are obtained through division, are set in a direction orthogonal to the conveyance direction of a recording material (hereinafter referred to as “longitudinal direction”), and a plurality of heat generating elements for heating the respective heating regions are provided in the longitudinal direction. On the basis of image information on an image to be formed in each heating region, the image portion is selectively heated by the corresponding heat generating element. Further, there has also been proposed a method for adjusting heating conditions depending on image information, thereby achieving high power efficiency (Japanese Patent Application Laid-open No. 2007-271870).
When optimal heating control is performed on an image in each heating region with the use of the method described in Japanese Patent Application Laid-open No. H06-95540 or Japanese Patent Application Laid-open No. 2007-271870, a high power efficiency effect can be obtained. In an image forming apparatus, however, toner adheres to a non-image region on a sheet in some cases due to the malfunction of the apparatus, the deterioration of consumable items, or other factors. When toner adheres to a non-image region in the image heating apparatus in which the non-image region is not heated or is heated at a low heating temperature as described above, the toner adhering to the non-image region remains on a sheet without being melted even after fixing treatment. The toner that has not been completely melted and remained on the sheet soils inside and outside the apparatus.
It is an object of the present invention to provide an image forming apparatus capable of performing heating control that prevents the generation of toner that is not sufficiently fixed to a recording material.
In order to achieve the above-mentioned object, according to the present invention, there is provided an image forming apparatus including: an image heating portion that includes a heater including a substrate and a plurality of heat generating elements provided on the substrate and aligned in a longitudinal direction of the substrate, and heats an image formed on a recording material using heat of the heater; an energization controlling portion for controlling electric power to be supplied to the plurality of heat generating elements, the energization controlling portion selectively controlling the electric power to be supplied to the plurality of heat generating elements so that electric power to be supplied to the heat generating elements to heat a non-image heating region, through which the image does not pass, among a plurality of heating regions that are heated by the plurality of heat generating elements, is smaller than electric power to be supplied to the heat generating elements to heat an image heating region, through which the image passes, among the plurality of heating regions; and an abnormality detecting portion for detecting an abnormality in the image forming apparatus, wherein when the abnormality detecting portion detects the abnormality, the energization controlling portion increases the electric power to be supplied to the heat generating elements to heat the non-image heating region.
In order to achieve the above-mentioned object, according to the present invention, there is provided an image forming apparatus, including: an image heating portion that includes a heater including a substrate and a plurality of heat generating elements provided on the substrate and aligned in a longitudinal direction of the substrate, and heats an image formed on a recording material using heat of the heater; an energization controlling portion for controlling electric power to be supplied to the plurality of heat generating elements, the energization controlling portion selectively controlling energization of the plurality of heat generating elements so that electric power to be supplied to the heat generating elements to heat a non-image heating region, through which the image does not pass, among a plurality of heating regions that are heated by the plurality of heat generating elements, is smaller than electric power to be supplied to the heat generating elements to heat an image heating region, through which the image passes, among the plurality of heating regions; and a consumption detecting portion for detecting a consumption degree of a consumable item provided in the image forming apparatus, wherein when the consumption degree detected by the consumption detecting portion exceeds a predetermined consumption degree, the energization controlling portion increases the electric power to be supplied to the heat generating elements to heat the non-image heating region.
According to the present invention, it is possible to perform the heating control that prevents the generation of toner that is not sufficiently fixed to a recording material.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
Hereinafter, a description will be given, with reference to the drawings, of embodiments (examples) of the present invention. However, the sizes, materials, shapes, their relative arrangements, or the like of constituents described in the embodiments may be appropriately changed according to the configurations, various conditions, or the like of apparatuses to which the invention is applied. Therefore, the sizes, materials, shapes, their relative arrangements, or the like of the constituents described in the embodiments do not intend to limit the scope of the invention to the following embodiments.
1. Configuration of Image Forming Apparatus
An image forming apparatus 100 feeds a recording material P by a feed roller 102, thereby conveying the recording material P toward an intermediate transfer belt 103. A process cartridge 101 integrally includes a photosensitive drum 104, a developing device 107, and a primary charging device 105, which are described later, and is removably mounted to an image forming apparatus main body by a user. The photosensitive drum 104 is driven to rotate with the power of a drive motor, which is not shown, at predetermined speed in the counterclockwise direction, and is uniformly charged by the primary charging device 105 during the rotation. A laser beam scanner 106 outputs laser light modulated depending on an image signal to selectively perform scanning exposure on the photosensitive drum 104, thereby forming an electrostatic latent image. The developing device 107 causes toner powder, which is a developing substance, to adhere to the electrostatic latent image to form a toner image (developing substance image) that is a visible image. The toner image formed on the photosensitive drum 104 is primarily transferred onto the intermediate transfer belt 103 that rotates in contact with the photosensitive drum 104.
Here, the photosensitive drum 104, the primary charging device 105, the laser beam scanner 106, and the developing device 107 respectively include photosensitive drums, primary charging devices, laser beam scanners, and developing devices that correspond to the four colors of cyan (C), magenta (M), yellow (Y), and black (K). That is, the above-mentioned process cartridge includes four process cartridges that correspond to toner colors different from each other and are arranged in the rotation direction of the intermediate transfer belt 103. Toner images of the four colors are sequentially transferred onto the intermediate transfer belt 103 through the same procedure in a superimposed manner. The toner image transferred onto the intermediate transfer belt 103 is, in a secondary transfer portion formed by the intermediate transfer belt 103 and a transfer roller 108, secondarily transferred onto a recording material P with transfer bias applied to the transfer roller 108. Toner that has not been secondarily transferred onto the recording material P and remained on the intermediate transfer belt 103 is collected by a cleaning blade 118. After that, a fixing apparatus (image heating apparatus) 200, which serves as an image heating portion, heats and pressurizes the recording material P using heat of the heater to fix the toner image. Consequently, the resultant is discharged out of the apparatus as an object having the image formed thereon.
The control portion 113 manages the conveyance status of the recording material P with a conveyance sensor 114, a registration sensor 115, a pre-fixing sensor 116, and an image-fixed sheet discharge sensor 117 that are provided on the conveyance path for the recording material P. In addition, the control portion 113 includes a storage portion configured to store a temperature control program and a temperature control table for the fixing apparatus 200. Heater driving means 400, which serves as heat generating element driving means, is connected to a commercial alternating current power supply 401, and supplies electric power to the fixing apparatus 200.
2. Configuration of Fixing Apparatus (Image Heating Apparatus)
3. Configuration of Heater
Through energization through the conductors 301a and 301b and conductors 303-1 to 303-7, first heat generating elements (heat generating resistors) 302a-1 to 302a-7 on the upstream side, and second heat generating elements 302b-1 to 302b-7 on the downstream side each generate heat. Though selection of the heat generating elements to be energized, the seven heating regions, which are obtained through division in the longitudinal direction, are selectively allowed to generate heat. Different combinations of the heating regions allowed to generate heat form various heat generation ranges based on the size of recording materials.
In the present embodiment, the electrodes E8-1 and E8-2 are provided at the ends in the longitudinal direction, but, for example, only the electrode E8-1 may be provided on one side or different electrodes may be provided in the upstream and downstream of the recording material conveyance direction. Further, electric power to be supplied to at least one heat generating block of the heat generating blocks, and electric power to be supplied to the remaining heat generating blocks can be independently controlled.
On a sliding surface (a surface in contact with the fixing film 202) of the heater 300, thermistors T1-1 to T1-4 and T2-5 to T2-7, which serve as temperature detecting elements, are provided to detect temperatures of the heat generating blocks HB1 to HB7 of the heater 300. The thermistors T1-1 to T1-4 and T2-5 to T2-7 in the present embodiment are each formed by thinly forming, on the substrate, a material having a positive temperature coefficient or a negative temperature coefficient (a material having the negative temperature coefficient in the present embodiment). The heat generating blocks HB1 to HB7 all include the thermistors, and hence temperatures of all the heat generating blocks can be detected by detecting the resistance values of the thermistors.
In order to energize the thermistors T1-1 to T1-4, the conductors ET1-1 to ET1-4 for thermistor resistance value detection and a common conductor EG1 for the thermistors are formed. Further, in order to energize the thermistors T2-5 to T2-7, conductors ET2-5 to ET2-7 for thermistor resistance value detection and a common conductor EG2 for the thermistors are formed. The thermistors T1-1 to T1-4 and the conductors ET1-1 to ET1-4 are covered with a surface protective layer 308 (glass in the present embodiment) having slidability. The surface protective layer 308 is at least provided in a region that slides on the fixing film 202, except for the end portions of the heater 300 so that the electrical contacts are provided to the conductors ET1-1 to ET1-4 and ET2-5 to ET2-7 and the common conductors EG1 and EG2.
As illustrated in
4. Configuration of Heater Controlling Circuit
Next, a method for detecting the temperature of the heater 300 is described. With respect to temperatures that are detected by the thermistors T1-1 to T1-4, pressures divided by the thermistors T1-1 to T1-4 and resistors 451 to 454 are detected by the control portion 113 as signals Th1-1 to Th1-4. In a similar manner, with respect to temperatures that are detected by the thermistors T2-5 to T2-7, pressures divided by the thermistors T2-5 to T2-7 and resistors 465 to 467 are detected by the control portion 113 as signals Th2-5 to Th2-7. The processing inside the control portion 113 is as follows. Electric power to be supplied is calculated through PI control, for example, on the basis of a set temperature (control target temperature) of each heat generating block and a temperature detected by each thermistor. In addition, the resultant is converted to the control level of a phase angle (phase control) or a wavenumber (wavenumber control) corresponding to the electric power to be supplied. The triacs 411 to 417 are controlled under this control conditions.
5. Heater Control Method Based on Image Information
In the image forming apparatus of the present embodiment, electric power supply to the seven heat generating blocks HB1 to HB7 of the heater 300 is controlled on the basis of image information from the external device (not shown), such as the host computer, and a heating mode used in printing of the recording material P.
Heater control in the present embodiment is described with reference to the flowchart of
In Step S705, the control portion 113, which serves as an abnormality detecting portion, detects, by the pre-fixing sensor 116 configured to detect whether or not a recording material is present on the conveyance path, the conveyance status of the recording material P that indicates whether the recording material P arrives at the pre-fixing sensor 116 within a specified time from the feed start in Step S703. When determining that the recording material P arrives in the specified time (no abnormality), the control portion 113 performs, in Step S706, heater control based on the range of the image heating portion PR calculated in Step S701. After that, the control portion 113 determines whether image forming processing has been complete for all pages in Step S707. When determining that the image forming processing has not been complete, the control portion 113 calculates the range of the image heating portion PR on a next page in Step S710, and then continuously executes the image forming processing from Step S703.
When the recording material P does not arrive at the pre-fixing sensor 116 in the specified time in Step S705, the control portion 113 determines that during conveyance of the recording material P, a conveyance failure such as a skew or a slip may occur, and a secondary transfer position on the recording material P may be deviated from a normal position (abnormality). In such a case, the control portion 113 performs, in Step S708, heating control using all the heating regions A1 to A7 of the heater 300 as the image heating portion PR to completely fix the toner image formed on the recording material P, and then discharges the resultant from the image forming apparatus. In addition, in Step S709, after discharging the recording material P out of the image forming apparatus 100, as misprint processing, the control portion 113 interrupts image formation, and executes stop processing of the image forming apparatus 100.
As in the description of the present embodiment above, when a time taken for the recording material P to arrive at the sensor placed on the conveyance path is deviated from a specified timing, the control portion 113 determines that there is an abnormality in the conveyance of the recording material P, and a secondary transfer position on the recording material P is thus deviated from a specified position. In such a case, the control portion 113 can control the temperate of the entire surface of the heater 300 to an image heating temperature to completely fix a toner image formed on the recording material P, and then discharge the resultant out of the image forming apparatus 100.
The present embodiment includes the control for controlling the control target temperature of the non-image heating portion PP for a case where an abnormality occurs to the same temperature as the control target temperature of the image heating portion PR. However, the control target temperatures are not necessarily set to the same temperature. Specifically, an increase in amount of electric power supply that is necessary for heating a non-image region when an abnormality occurs may be controlled to a value allowing toner adhering to the non-image region to be fixed.
In Embodiment 2, there is described an example in which, even when an abnormality occurs in the laser beam scanner 106, a toner image formed in a non-image region can be completely fixed, and then the resultant can be discharged out of the image forming apparatus 100. The remaining configuration is the same as that in Embodiment 1, and hence detailed description thereof is omitted.
6. Configuration of Laser Beam Scanner 106
Heater control in the present embodiment is described with reference to the flowchart of
In Step S806, the control portion 113 monitors whether the BD period is within a specified range with respect to the target period (the number of rotations of the rotating polygon mirror is within a specified range of rotation number) in a period in which an electrostatic latent image (electrostatic image) is formed on the photosensitive drum (photosensitive member) 104. When determining that the BD period is within the specified range in Step S806, the control portion 113 performs, in Step S807, heater control based on the range of the image heating portion PR calculated in Step S801. After that, the control portion 113 determines whether image forming processing has been complete for all pages in Step S808. When determining that the image forming processing has not been complete, the control portion 113 calculates the range of the image heating portion PR on a next page in Step S811, and then continuously executes the image forming processing from Step S805.
When detecting that the BD period is out of the specified range in Step S806, the control portion 113 determines that there may be an abnormality in the rotation control of the polygon mirror 502, and an electrostatic latent image forming position on the photosensitive drum 104 may be deviated from a normal position in the main scanning direction. In such a case, the control portion 113 performs, in Step S809, heating control using all the heating regions A1 to A7 of the heater 300 as the image heating portion PR to completely fix the toner image formed on the recording material P, and then discharges the resultant from the image forming apparatus. In addition, in Step S810, after discharging the recording material P out of the image forming apparatus 100, as misprint processing, the control portion 113 interrupts image formation, and executes stop processing of the image forming apparatus 100.
As in the description of the present embodiment above, when a BD period is deviated from a specified timing, the control portion 113 determines that there is an abnormality in the rotation control of the polygon mirror, and an image forming position on the recording material P is deviated from a specified position. In such a case, the control portion 113 can control the temperate of the entire surface of the heater 300 to an image heating temperature to completely fix a toner image formed on the recording material P, and then discharge the resultant out of the image forming apparatus 100.
In Embodiment 3, there is described an example in which, even when an abnormality occurs in a charge generating circuit (not shown) connected to the primary charging device 105, a toner image formed in a non-image region can be completely fixed, and then the resultant can be discharged out of the image forming apparatus 100. The remaining configuration is the same as that in Embodiment 1, and hence detailed description thereof is omitted.
7. Configuration of Charge Generating Circuit
Heater control in the present embodiment is described with reference to the flowchart of
In Step S906, the control portion 113 monitors whether the charging voltage is within a specified output range with respect to the target voltage in a period in which an electrostatic latent image is formed on the photosensitive drum 104. When determining that the charging voltage is within the specified range in Step S906, the control portion 113 performs, in Step S907, heater control based on the range of the image heating portion PR calculated in Step S901. After that, the control portion 113 determines whether image forming processing has been complete for all pages in Step S908. When determining that the image forming processing has not been complete, the control portion 113 calculates the range of the image heating portion PR on a next page in Step S911, and then continuously executes the image forming processing from Step S905.
When detecting that the charging voltage is out of the specified output range in Step S906, the control portion 113 determines that there may be an abnormality in the charge generating circuit, and a toner image unrelated to the image signal may be formed in a non-image region. In such a case, the control portion 113 performs, in Step S909, heating control using all the heating regions A1 to A7 of the heater 300 as the image heating portion PR to completely fix the toner image formed on the recording material P, and then discharges the resultant from the image forming apparatus. In addition, in Step S910, after discharging the recording material P out of the image forming apparatus 100, as misprint processing, the control portion 113 interrupts image formation, and executes stop processing of the image forming apparatus 100.
As in the description of the present embodiment above, when a charging voltage is out of a specified range, the control portion 113 determines that there may be an abnormality in the charge generating circuit, and a toner image may also be formed in a non-image region. In such a case, the control portion 113 can control the temperate of the entire surface of the heater 300 to an image heating temperature to completely fix the toner image formed on the recording material P, and then discharge the resultant out of the image forming apparatus 100.
In Embodiment 4, there is proposed an embodiment that can deal with a case where the end of life of the cleaning blade 118, which cleans toner that has not been secondarily transferred and remained on the intermediate transfer belt 103, is reached, and the cleaning performance of the intermediate transfer belt 103 is thus deteriorated. Also in the present embodiment, a toner image formed in a non-image region can be completely fixed, and then the resultant can be discharged out of the image forming apparatus 100. The remaining configuration is the same as that in Embodiment 1, and hence detailed description thereof is omitted.
The intermediate transfer belt 103 and the cleaning blade 118 are integrally constructed. Thus, in the present embodiment, the control portion 113 determines the life (consumption degree) of the cleaning blade 118, which serves as a consumable cleaning member, with the use of usage time of the intermediate transfer belt 103, which serves as a transfer member. The control portion 113, which serves as a consumption detecting portion, increases a counter in the control portion 113 per predetermined period of time during rotation of the intermediate transfer belt 103, to thereby detect the usage time of the intermediate transfer belt 103. Further, the intermediate transfer belt 103, which is a consumable item, can be replaced by a new one by the user. When detecting that the intermediate transfer belt 103 is replaced by a new one by the user, the control portion 113 clears the above-mentioned counter to zero. A method for determining that the intermediate transfer belt 103 is replaced by a new one by the user includes reading, by the control portion 113, a memory chip (not shown) mounted on the intermediate transfer belt 103.
Heater control in the present embodiment is described with reference to the flowchart of
In Step S1006, the control portion 113 determines whether the usage time count described above is a specified value or lower. When determining that the usage time count is the specified value or lower (does not exceed a predetermined consumption degree) in Step S1006, the control portion 113 performs, in Step S1007, heater control based on the range of the image heating portion PR calculated in Step S1001. After that, the control portion 113 determines whether image forming processing has been complete for all pages in Step S1008. When determining that the image forming processing has not been complete, the control portion 113 calculates the range of the image heating portion PR on a next page in Step S1011, and then continuously executes the image forming processing from Step S1005.
When detecting that the usage time count is larger than the specified value (exceeds the predetermined consumption degree) in Step S1006, the control portion 113 determines that an image may be formed in a non-image region with toner having remained on the intermediate transfer belt 103 after secondary transfer, due to the deterioration of the cleaning blade 118. In such a case, the control portion 113 performs, in Step S1009, heating control using all the heating regions A1 to A7 of the heater 300 as the image heating portion PR to completely fix the toner image formed on the recording material P, and then discharges the resultant from the image forming apparatus. In addition, in Step S1010, after discharging the recording material P out of the image forming apparatus 100, as misprint processing, the control portion 113 interrupts image formation, and executes stop processing of the image forming apparatus 100.
As in the description of the present embodiment above, when the end of life of the intermediate transfer belt 103 is reached, the control portion 113 determines that a toner image may also be formed in a non-image region due to the deterioration of the cleaning blade 118. In such a case, the control portion 113 can control the temperate of the entire surface of the heater 300 to an image heating temperature to completely fix the toner image formed on the recording material P, and then discharge the resultant out of the image forming apparatus 100.
In Embodiment 5, there is proposed an embodiment that can deal with a case where a horizontal streak image unrelated to image information is generated in a non-image region due to the deterioration of the photosensitive drum 104, which serves as an image bearing member, in the process cartridge 101. Also in the present embodiment, a toner image formed in the non-image region can be completely fixed, and then the resultant can be discharged out of the image forming apparatus 100. The remaining configuration is the same as that in Embodiment 1, and hence detailed description thereof is omitted.
In the present embodiment, the control portion 113 detects the life of the process cartridge 101 (photosensitive drum 104) from the number of printed sheets. Specifically, the control portion 113 detects the life by increasing the counter in the control portion 113 every time one sheet is printed. Further, the process cartridge 101 can be replaced by a new one by the user. When detecting that the process cartridge 101 is replaced by a new one by the user, the control portion 113 clears the above-mentioned counter to zero. A method for determining that the process cartridge 101 is replaced by a new one by the user includes reading, by the control portion 113, a memory chip (not shown) mounted on the process cartridge 101.
Heater control in the present embodiment is described with reference to the flowchart of
In Step S1105, the control portion 113 determines whether the printed sheet count (the number of times the photosensitive drum 104 is used) described above is a specified value or lower. When determining that the printed sheet count is the specified value or lower in Step S1105, the control portion 113 performs, in Step S1106, heater control based on the range of the image heating portion PR calculated in Step S1101. After that, the control portion 113 determines whether image forming processing has been complete for all pages in Step S1107. When determining that the image forming processing has not been complete, the control portion 113 calculates the range of the image heating portion PR on a next page in Step S1110, and then continuously executes the image forming processing from Step S1103.
When detecting that the printed sheet count is larger than the specified value in Step S1105, the control portion 113 determines that a horizontal streak image unrelated to the image information may be formed in the main scanning direction due to the deterioration of the photosensitive drum 104. In such a case, the control portion 113 performs, in Step S1108, heating control using all the heating regions A1 to A7 of the heater 300 as the image heating portion PR to completely fix the toner image formed on the recording material P, and then discharges the resultant from the image forming apparatus. In addition, in Step S1109, after discharging the recording material P out of the image forming apparatus 100, as misprint processing, the control portion 113 interrupts image formation, and executes stop processing of the image forming apparatus 100.
As in the description of the present embodiment above, when the end of life of the process cartridge 101 is reached, the control portion 113 determines that a horizontal streak image unrelated to image information may be formed in a non-image region due to the deterioration of the photosensitive drum 104. In such a case, the control portion 113 can control the temperate of the entire surface of the heater 300 to an image heating temperature to completely fix a toner image formed on the recording material P, and then discharge the resultant out of the image forming apparatus 100.
The configurations of the above-mentioned embodiments can be combined with each other as far as possible.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2018-000837, filed on Jan. 5, 2018, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2018-000837 | Jan 2018 | JP | national |
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Number | Date | Country |
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H06-95540 | Apr 1994 | JP |
2007-271870 | Oct 2007 | JP |
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Number | Date | Country | |
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20190212686 A1 | Jul 2019 | US |