JP2009150980A - Image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming device capable of forming and processing images continuously without stopping its operation as much as possible in toner bottle replacement irrespective of its impossibility of simultaneous toner conveyance among colors with respect to the toner conveyance from a toner bottle to a sub-hopper. <P>SOLUTION: This two-component electrophotographic type image forming device has a toner supply device provided with the sub-hopper 3 for supplying toner into a developing device 5, a toner conveying means for supplying toner into the sub-hopper, and the toner bottle 1 for storing the toner to be supplied into the sub-hopper for at least two colors and is constituted to convey the toner by providing a time lag among colors concerning the supply of the toner from the toner bottle to the sub-hopper. When replacing the toner bottle while amount of the toner in the sub-hopper is reduced after it is determined that it is in a condition of toner near end, priority in operation is given to the supply of toner for the color until the sub-hopper is filled with predetermined amount of toner. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a two-component electrophotographic image forming apparatus such as a copying machine, a printer, a facsimile machine, and a multifunction machine having these functions.

  2. Description of the Related Art Conventionally, in an electrophotographic image forming apparatus, an electrostatic latent image corresponding to image information is formed on a latent image carrier such as a photosensitive drum or a photosensitive belt, and is performed by a developing device having a developer carrier. A visible image is obtained by the developing operation. In such development, a two-component development method using a two-component developer having a toner and a carrier is widely used from the viewpoints of transferability, halftone reproducibility, temperature / humidity stability, and the like.

  In two-component development, development is performed by a developing machine having a two-component developer, but it is necessary to supply toner to the developing machine according to toner consumption. Therefore, toner bottles and toner cartridges (hereinafter referred to as toner bottles) are used as replaceable toner storage containers, and many of them supply toner to the developing device by free fall due to screws or gravity. However, in some image forming apparatuses, as shown in Patent Document 1, a temporary toner storage unit (hereinafter referred to as a sub hopper) is provided inside the machine, and the toner is conveyed from the toner bottle 1 to the sub hopper 3 as shown in FIG. A system for supplying toner from the sub hopper 3 to the developing device 5 has been put into practical use.

  By having the sub hopper in the machine in this way, even if the toner bottle which is replaced by the user himself runs out of toner, printing can be performed with the toner in the sub hopper for a while. For this reason, the toner bottle runs out of toner, and even if it is necessary to replace the toner bottle, it can be replaced at an empty time, which has a great effect on reducing machine downtime.

  In addition, when there is no sub hopper, the relative arrangement of the toner bottle and the developing machine is restricted, and it is difficult to reduce the size of the machine for layout reasons. However, the presence of the sub hopper alleviates such difficulty. Further, the sub hopper installed inside the machine can supply the toner to the developing device with higher accuracy than supplying the developing device directly from the toner bottle.

  For the reasons described above, machines having a sub hopper have been put into practical use. For toner detection in the sub hopper, a piezoelectric sensor that determines the presence or absence of toner by contact of toner, or the presence or absence of toner by light transmission is determined. An optical sensor or the like is used. In this case, as shown in FIG. 2, the presence / absence of toner is determined by the sensor 4 installed on the side surface of the sub hopper, and when it is determined that there is no toner, the toner is supplied from above the sub hopper 3.

  Many of the machines having sub hoppers in practical use judge that the toner bottle has run out of toner (for example, when the sub hopper sensor detects the absence of toner for a certain period of time or more), and set the toner near end. Thereafter, the sub hopper The toner is supplied to the developing machine by the toner inside. Then, after a certain amount of printing, the toner runs out, and printing is stopped as a toner end.

  In a normal case, the toner bottle is replaced after the near-end determination and before the toner end. When the bottle is replaced, the printing operation is stopped and the sub hopper is filled with toner. However, the fact that printing cannot be performed when the toner bottle is replaced leads to downtime, and in particular, a reduction in productivity in a high-speed machine.

  Therefore, it is conceivable to continue the printing using the toner in the sub hopper even while the toner bottle is replaced. In this case, unlike the case where there is sufficient toner in the toner bottle as shown in FIG. 4, as shown in FIG. In addition, the toner in the sub hopper is reduced due to toner consumption after the near-end determination (for the sake of simplifying the depiction, in FIG. 4 and FIG. 5, the transport mechanism such as the transport pump 2 and the transport mechanism and the developing machine from the toner bottle are omitted). . Therefore, if this state is not promptly restored to the “state in which the sub hopper is filled with toner” shown in FIG. This is because it is determined that the near end or the end is normal when there is no toner in the sub hopper for a certain period of time.

  However, in a multicolor image forming apparatus, there is an image forming apparatus that cannot simultaneously carry toner between colors for toner transfer from a toner bottle to a sub hopper due to a control problem and a mechanical load problem. Not a few. In such a multicolor image forming apparatus, the downtime is not sufficiently suppressed.

JP 2003-131485 A

  Accordingly, the present invention relates to a toner bottle in a state in which the toner in the sub hopper is reduced after the toner near-end determination, even in an image forming apparatus that cannot simultaneously perform such toner conveyance between the respective colors regarding toner conveyance from the toner bottle to the sub hopper. It is an object of the present invention to enable continuous operation without stopping the image forming process as much as possible.

  In accordance with the present invention, the above-described problems include a toner temporary storage unit that supplies toner to the developing device, a toner transport unit that supplies toner to the toner temporary storage unit, and a toner for supply to the toner temporary storage unit. A toner replenishing device configured with a replaceable toner container is provided for at least two colors, and the toner replenishment from the toner container to the toner temporary storage unit is configured to convey toner with a time difference between the colors. In the two-component electrophotographic image forming apparatus, when the toner container is replaced in a state where the toner in the toner temporary storage unit is low after the toner near-end determination that no toner is in the toner container is issued, This can be solved by executing control that preferentially replenishes the toner of the corresponding color until a predetermined amount of toner is filled.

  After the toner container replacement, the toner near-end of the corresponding color or the toner end as a reference for prohibiting the image forming process is not determined until it is determined that a predetermined amount of toner is filled in the toner temporary storage unit at least once. It is preferable to do so. When the toner near-end determination is received in a plurality of colors and the corresponding toner container is replaced at the same time, control is performed so that toner is charged into the temporary toner storage unit one color at a time in accordance with the order of toner consumption after the toner near-end determination. It is convenient. More preferably, the toner conveying means for replenishing the toner to the temporary toner storage portion is a pump utilizing a pressure difference, for example, a uniaxial eccentric screw pump.

  According to the first aspect of the present invention, when the toner container is replaced in a state where the toner in the toner temporary storage unit is reduced after the determination of the toner near end where there is no toner in the toner container is made, A configuration in which toner transportation between the colors cannot be performed simultaneously with respect to toner transportation from the toner container to the toner temporary storage unit by executing control that preferentially supplies toner of the corresponding color until a predetermined amount of toner is filled. Even so, it is possible to operate continuously without stopping printing as much as possible.

  After the toner container replacement, the toner near-end of the corresponding color or the toner end as a reference for prohibiting the image forming process is not determined until it is determined that a predetermined amount of toner is filled in the toner temporary storage unit at least once. By controlling in this way, erroneous detection of toner near-end / toner-end determination can be prevented.

  When the toner near-end determination is received in a plurality of colors and the corresponding toner container is replaced at the same time, control is performed so that toner is charged into the temporary toner storage unit one color at a time in accordance with the order of toner consumption after the toner near-end determination. As a result, it is possible to operate continuously without stopping printing as much as possible.

  If the toner transport means that replenishes toner to the temporary toner reservoir is a pump that uses a pressure difference, the transport path can be configured with a thin and flexible silicon tube, reducing layout constraints and saving space. In addition to this, it is possible to reduce stress on the toner due to conveyance at the same time.

  FIG. 1 is a schematic diagram showing an example of an image forming apparatus to which the present invention is applied. The developing system is a dry two-component developing system, and the system is a four-tandem type intermediate transfer type color copying machine. In this color copying machine, a copying machine main body 100 as a main body of the apparatus is disposed at the center, and a sheet feeding unit 200 configured in a table shape is disposed below the copying machine main body. A scanner 300 is provided above the copying machine main body, and an original is automatically supplied above the scanner 300. A device 400 is arranged.

  In the copying machine main body, an intermediate transfer belt 10 constituted by a flexible endless belt wound around a plurality of rollers 14, 15, 16 is provided. In the intermediate transfer belt 10, one of a plurality of rollers 14, 15, and 16 is rotationally driven by a driving device (not shown), thereby driving the intermediate transfer belt 10 to run in the clockwise direction indicated by an arrow. The roller is driven to rotate. Black, cyan, magenta, and yellow image forming units 18 (color order may vary depending on the system) are arranged side by side on the upper traveling side of the intermediate transfer belt 10 that travels in this way. That is, the tandem image forming unit 20 is configured by arranging four image forming units 18 on the running side between the rollers 14 and 15.

  The four image forming units 18 have the same configuration except for the toner color, and include a photosensitive drum 40 that is in contact with the intermediate transfer belt 10. Around the photosensitive drum 40, a charging unit, a developing machine, a cleaning unit, a discharging unit, and the like are arranged. Further, on the inner peripheral side of the intermediate transfer belt 10 at a position where the photosensitive drum 40 is in contact with the intermediate transfer belt 10. Transfer means 57 is provided. Further, an exposure device 21 for irradiating the surface of each photosensitive drum with light-modulated laser light is arranged above each image forming unit 18, and this laser light is irradiated to the photosensitive drum between the charging means and the developing device. To do.

  On the other hand, a secondary transfer unit 22 is provided on the opposite side of the intermediate transfer belt 10 from the tandem image forming unit 20. The secondary transfer unit 22 wraps a secondary transfer belt 24 between two rollers 23, and the belt is pressed against the roller 16 via the intermediate transfer belt 10. In FIG. 1, a fixing device 25 for fixing the transfer image carried on the sheet is provided on the left side of the secondary transfer unit 22 (downstream in the sheet conveying direction).

  The secondary transfer means 22 described above also has a sheet replenishing function for replenishing the sheet after image transfer to the fixing device 25. Of course, a non-contact charger may be arranged as the secondary transfer unit 22, and in such a case, it is necessary to separately provide a sheet conveying device for conveying the transferred sheet to the fixing device 25. In the illustrated example, a sheet reversing device for reversing a sheet so as to record an image on the back surface of the sheet is provided below the secondary transfer unit 22 and the fixing device 25 in parallel with the tandem image forming unit 20 described above. 28 is provided.

  When making a copy using the color copying machine configured as described above, a document is set on the document table 30 of the automatic document feeder 400. Alternatively, the automatic document supply device 400 is opened, a document is set on the contact glass 32 of the scanner 300, and the automatic document supply device 400 is closed to hold the document. When a start switch (not shown) is pressed, the copying operation is started. When the original is set on the automatic document feeder 400, the original is transported and moved onto the contact glass 32, and then the original is placed on the other contact glass 32. Immediately after setting, the scanner 300 is driven and the first traveling body 33 and the second traveling body 34 travel. Then, the first traveling body 33 emits light from the light source and further reflects the reflected light from the document surface toward the second traveling body 34 and is reflected by the mirror of the second traveling body 34 and passes through the imaging lens 35. The document is placed in the reading sensor 36 and the original content is read.

  When the copying operation is started, the intermediate transfer belt 10 rotates, and at the same time, the photoconductors 40 are rotated by the individual image forming units 18 in accordance with the image information, and black, A monochrome image of yellow, magenta, and cyan is formed. As the intermediate transfer belt 10 travels, the single color images are sequentially transferred to form a composite color image on the intermediate transfer belt 10.

  Further, one of the paper feed rollers 42 of the paper feed unit 200 is selectively rotated by starting the copying operation, and the sheet is fed out from one of the paper feed cassettes 44 provided in the paper bank 43 in multiple stages. Each sheet is separated and put into the paper feed path 46, supplied by the replenishment roller 47, guided to the paper feed path 48 in the copying machine main body 100, and abutted against the registration roller 49. If manual feed is selected instead, the paper feed roller 50 of the manual feed unit is rotated to feed out the sheets on the manual feed tray 51 and separated one by one by the separation roller 52 into the manual feed path 53. Similarly, it abuts against the registration roller 49 and stops.

  Then, the registration roller 49 is rotated in synchronization with the composite color image on the intermediate transfer belt 10, the sheet is fed between the intermediate transfer belt 10 and the secondary transfer unit 22, and transferred by the secondary transfer unit 22. Full color images are recorded on the sheet at once. The image-transferred sheet is conveyed to the secondary transfer belt 24 and sent to the fixing device 25, where the transfer image is fixed by applying heat and pressure by the fixing device 25, and is discharged to the outside through the discharge roller 26. Are stacked on the paper discharge tray 27. Alternatively, the conveying path is switched by the switching claw 55 and put into the sheet reversing device 28, where it is reversed and guided again to the transfer position, and the image is also recorded on the back surface, and then discharged onto the paper discharge tray 27 by the discharge roller 26. The After the image transfer, the intermediate transfer belt 10 is prepared for the next image formation by the tandem image forming unit 20 after the residual toner remaining on the belt is removed by the intermediate transfer member cleaning unit 17.

  FIG. 2 shows a configuration example for explaining toner replenishment to a developing machine having a sub hopper for a certain color in the tandem image forming unit of the color copying machine of FIG. The color is arbitrary. In such a configuration, the replenishment toner corresponding to the toner consumed by the printing operation is replenished from the sub hopper 3 to the developing device 5, and as a result, the decrease in the sub hopper 3 is supplied from the toner bottle 1. Here, as the determination of the presence / absence of toner in the sub hopper, it is determined whether or not the toner is present up to the position of the sensor 4 attached to the side surface of the housing. As the sensor 4, a piezoelectric sensor that detects contact of toner is functionally suitable, and the possibility of erroneous detection is low. As shown in FIG. 2, by attaching such a piezoelectric sensor to the sub hopper 3, the image forming apparatus can determine whether toner is present up to the sensor position. When the sensor 4 detects “with toner”, the conveyance to the sub hopper 3 is not performed.

  A conveyance pump 2 is used as means for conveying toner from the toner bottle 1 to the sub hopper 3. The toner is conveyed using the pressure difference by the pump 2. As shown in FIG. 3, for example, the suction pump used as the transport pump 2 includes a stator 8 having two spiral grooves in a cylindrical case 7 and one spiral convex disposed inside thereof. This is a so-called MONO pump, which is a uniaxial eccentric screw pump formed by arranging a rotor 9 having a portion. The MONO pump has a high replenishment resolution, a short minimum replenishment time and is functionally suitable. With such a pump, it is possible to increase the resolution of the toner conveyance amount and to supply toner with little variation in the conveyance amount (highly accurate toner conveyance). Moreover, a silicon tube etc. can be used as a conveyance path | route, and compared with the case where a screw is used for conveyance, the scooping inside an apparatus is easy. As a result, the degree of freedom in layout increases and it becomes easy to realize downsizing of the apparatus. Further, the screw causes stress on the toner and deteriorates the quality when the conveying path becomes long. On the other hand, in the case of conveying by a pump, the adverse effect of the long conveying path is hardly seen.

  The transport from the toner bottle 1 to the sub hopper 3 is not affected by variations up to about 10 g. On the other hand, the toner replenished to the developing device 5 is used to keep the toner density in the developing device appropriate. High resolution is required. Therefore, for replenishment from the sub hopper 3 to the developing device 5, conveyance is performed by the screw 6 (FIG. 2), and toner is replenished with high resolution.

  In this color copying machine, due to control problems, toner replenishment from the sub hopper 3 to the developing machine 5 can be performed for a plurality of colors simultaneously, while toner transport from the toner bottle 1 to the sub hopper 3 is possible. Is not designed to perform multiple colors simultaneously. In addition to the control reasons, an image forming apparatus having a configuration in which toner conveyance from the toner bottle to the sub hopper cannot be performed simultaneously between different colors is not suitable for control reasons. There may not be.

  FIG. 4 is a diagram in a normal state where toner is present in the toner bottle 1 (in the state where the toner bottle is not near-end or end, and hereinafter referred to as “toner full”) (from the toner bottle to the sub hopper for the sake of simplicity of depiction). The transport mechanism and developing machine are omitted.) At this time, the toner level is lowered in the sub hopper 3 by supplying toner to a developing machine (not shown), and the toner is conveyed from the toner bottle 1 to the sub hopper 3 as soon as the sensor 4 detects “no toner”. The toner in 3 is kept almost constant.

  On the other hand, FIG. 5 is a diagram showing a state in which the toner in the toner bottle 1 runs out and the sub hopper sensor detects “no toner” for a certain period or more and is “toner near end” (simplification of depiction). Therefore, the transport mechanism and the developing machine from the toner bottle to the sub hopper are omitted). At this time, the toner level surface of the sub hopper 3 to be replenished with toner in a developing machine (not shown) is lowered, so the output of the sensor 4 is always “no toner”. When the replacement of the toner bottle 1 is not executed, after a predetermined amount of printing is performed after the near end determination, the operation of the machine is stopped as “toner end”.

  FIG. 6 shows a simplified toner supply operation flow when the toner is full, and FIG. 7 shows a simplified determination flow from “toner full” to “near end” and “end”. Normally, after the “near end” determination, the toner bottle is replaced while the machine is operational until the “end” determination. However, as described above, the bottle replacement is performed for a while after the “near end” determination. If you continue printing without replenishing the toner (only the toner in the sub hopper is replenished with toner), the toner level of the sub hopper will be low immediately after replacing the bottle. If you continue printing, toner will be replenished from the toner bottle to the sub hopper. Until the output becomes sufficient, the sensor output is “no toner”, so there is a concern that the “near-end” false detection or the toner in the sub hopper is depleted. Therefore, in the conventional control, after replacing the bottle, toner is supplied to the sub hopper in a state where printing is stopped, and the printing operation is resumed after the sub hopper is filled with toner and the output of the sensor becomes “toner present”. It is like that.

  However, in such control, a time (down time) in which the machine cannot be operated to fill the sub hopper with toner after the bottle replacement is generated. As a result, productivity in high-speed machines decreases. Therefore, in the present invention, after the toner bottle is replaced, the color of the replaced bottle is preferentially conveyed instead of the toner conveyance corresponding to the toner consumption by printing.

  FIG. 8 shows a flow in the present invention. In normal printing operation, there is no difference in the priority of each color, and the toner is transported to the sub hopper from the color detected by the sensor as “no toner”. If a bottle replaced at “near end” is detected at this time, The color toner is preferentially conveyed. This priority state means that the toner of the corresponding color is transported longer than the other colors, and it is conceivable that the toner is transported only for the corresponding color, or the number of transports and the transport time are longer than usual. The control in this state is performed until a certain amount of toner is conveyed to the sub hopper, but it is appropriate to perform the control until the sensor detects “toner present” after the bottle replacement.

  As described above, the determination of “near end” is usually made when the sensor of the sub hopper detects “no toner” for a certain period. For this reason, if the bottle is replaced at the “near end” and the same determination is made in a state where the toner level is lowered, the “near end” and eventually the end determination will be erroneously detected. Therefore, when bottle replacement is performed and toner of the corresponding color is preferentially conveyed, control is performed so as not to perform near-end / end determination until the sensor detects “toner present” at least once.

  In addition, when the toner bottles for each color related to “near end” are replaced at the same time after “near end” determination is made for multiple colors, one color at a time in order of the amount of toner consumed from the sub hopper after the near end determination (the amount of printing is large) You may make it perform filling by the control mentioned above. The amount of toner consumption after the near-end determination is determined based on, for example, the number of printed sheets. By controlling in this way, it is possible to fill the toner with a large amount of toner that has been consumed after the near-end determination and the remaining amount in the sub hopper is small, and to prevent the toner in the sub hopper from being depleted.

  As described above, the image forming apparatus according to the present invention is not configured to operate a plurality of colors at the same time with respect to toner conveyance to the sub hopper 3, and therefore the drive source can be provided by one. Good. As a specific example, it is conceivable to include means for transmitting power to the image forming means for each color using one motor and determining whether or not the actual conveyance is performed by an electromagnetic clutch. In such a configuration, since only one motor is required, the cost of the entire machine can be reduced, and at the same time, space saving of the apparatus can be realized.

1 is a configuration diagram of a color copying machine according to the present invention. 3 is a conceptual diagram illustrating a connection relationship between a developing machine including a sub hopper and a toner bottle in an image forming unit. FIG. It is the schematic which shows the structure of a conveyance pump. FIG. 4 is a diagram illustrating a normal state where toner is present in a toner bottle. It is a figure which shows the state of a toner near end. FIG. 6 is a flowchart of a toner replenishment operation flow when toner is full. FIG. 7 is a diagram illustrating a determination flow of toner full, near end, and end. It is a figure which shows the control flow which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Toner bottle 2 Conveyance pump 3 Sub hopper 4 Sensor 5 Developer 6 Conveying screw

Claims (4)

  A toner provisional storage unit that supplies toner to the developing device, a toner transport unit that supplies toner to the toner temporary storage unit, and a replaceable toner container that stores toner for supply to the toner temporary storage unit -Component electrophotographic image forming apparatus having toner replenishing devices for at least two colors and configured to convey toner with a time difference between the colors with respect to toner replenishment from the toner container to the toner temporary storage unit In this case, when the toner container is replaced in a state where the toner in the toner temporary storage unit is reduced after the toner near-end determination that no toner is present in the toner container, a predetermined amount of toner is filled in the toner temporary storage unit. An image forming apparatus that executes control for preferentially replenishing toner of a corresponding color up to.   After the toner container replacement, the toner near-end of the corresponding color or the toner end as a reference for prohibiting the image forming process is not determined until it is determined that a predetermined amount of toner is filled in the toner temporary storage unit at least once. The image forming apparatus according to claim 1, wherein the control is performed as described above.   When the toner near-end determination is received in a plurality of colors and the corresponding toner container is replaced at the same time, control is performed so that toner is charged into the temporary toner storage unit one color at a time in accordance with the order of toner consumption after the toner near-end determination. The image forming apparatus according to claim 1, wherein the image forming apparatus is an image forming apparatus.   The image forming apparatus according to claim 1, wherein the toner conveying unit that replenishes toner to the temporary toner storage unit is a pump using a pressure difference.

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