JP2008170725A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus capable of appropriately supplying toner by estimating, as correctly as possible, toner quantity consumed by a developing device for printing operation. <P>SOLUTION: The color printer 1 includes a developing device 5, a supply device 7, an estimating section 21a and a supply control section 21b. The developing device 5 has: a container main body 5a containing developer composed of toner and carrier, and divided into at least two sections in the direction of developer conveyance; and conveying rollers 5e and 5f that convey developer in the two or more sections in a circle in the direction of conveyance. The supply device 7 supplies toner to the developing device 5. Based on the print proportion d of image data, the estimating section 21a estimates a quantity of toner consumed in a printing operation for each section. The supply control section 21b controls the supply device 7 so that toner is supplied to one of the two or more sections in the container main body 5a. In this one, a difference between a quantity of toner before the printing operation and a quantity of toner estimated by the estimating section 21b is smaller than a predetermined value. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an image forming apparatus, and more particularly to an image forming apparatus that performs a printing operation based on image data.

  As a color image forming apparatus such as a color printer, a toner image is formed on the surface of a photosensitive drum corresponding to four colors of black, yellow, cyan, and magenta, and these toner images are multiplexed and transferred onto a transfer belt. There is a so-called tandem type color image forming apparatus that transfers and fixes on a recording sheet. Such a tandem color image forming apparatus is excellent in high speed, but on the other hand, the photosensitive drums and developing devices for the respective colors have to be arranged side by side, so that the image forming apparatus itself is increased in size. End up.

Therefore, in recent years, in order to reduce the size of the tandem color image forming apparatus, for example, the arrangement of the photosensitive drums and the developing devices is devised by narrowing the interval between the photosensitive drums for each color, for example, in Patent Document 1 As shown, a technique for reducing the size of the image forming apparatus by reducing the size of the developing device is often used.
JP 2003-295589 A

  By the way, when the size of the developing device is reduced, the amount of developer accommodated in the developing device is also reduced. In such a case, the image forming apparatus always secures the amount of toner in the developer consumed by the developing device by the printing operation as accurately as possible in order to ensure in the developing device a toner amount that can perform the printing operation without any problem. Therefore, it is necessary to appropriately supply the toner to the developing device. On the other hand, if the replenishment of the toner to the developing device is not performed at an appropriate amount and timing, for example, the toner amount in the developer tends to be uneven in the developing device. When unevenness occurs in the toner amount, unevenness also occurs in an image printed on paper or the like. In particular, if the amount of toner replenished in the developing device is too large, the image may be fogged. On the other hand, if the amount of toner replenished in the developing device is too small, there is a risk that the toner will run out during the printing operation. When the toner is insufficient, the image forming apparatus must perform the replenishment operation by interrupting the printing operation.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus that can estimate the amount of toner consumed by a developing device by a printing operation as accurately as possible and replenish toner appropriately.

  An image forming apparatus according to a first aspect of the present invention is an image forming apparatus that performs a printing operation based on image data, and includes a developing unit, a supply unit, an estimation unit, and a supply control unit. The developing means includes a container body and a conveying means. The container body has a developer composed of toner and a carrier, and the inside is divided into at least two or more sections in the developer transport direction. The conveying means circulates the developer in two or more sections and conveys it in the conveying direction. The replenishing unit replenishes the developing unit with toner. The estimation means estimates the amount of toner consumed in the printing operation for each section based on the printing rate of the image data. The replenishment control means supplies toner to a section where the difference between the toner amount before the printing operation and the toner amount estimated by the estimating means is lower than a predetermined value among the two or more sections in the container body. Control the replenishment means to be performed.

  According to this image forming apparatus, the amount of toner consumed in the printing operation is estimated for each divided section in the container body based on the printing rate of the image data. Then, the image forming apparatus subtracts the estimated toner amount from the toner amount before the printing operation is performed, and determines whether or not replenishment is necessary. Thereby, the toner replenishment operation is executed only when replenishment is necessary.

  An image forming apparatus according to a second aspect is the image forming apparatus according to the first aspect, wherein the estimating means is a printing operation based on a conveying speed at which the conveying means conveys the developer and a printing speed at which the printing operation is performed. Estimate the amount of toner consumed.

  In this image forming apparatus, the printing operation corresponding to the printing rate of the printed image data according to the printing speed and the conveyance speed is performed using the toner in one section. presume. This operation is performed for each partition. Thereby, the amount of toner consumed by the printing operation is estimated more accurately.

  An image forming apparatus according to a third aspect is the image forming apparatus according to the second aspect, wherein the replenishment control means further controls the timing at which the replenishment means replenishes toner based on the conveyance speed.

  As a result, the replenishing means can replenish the section where toner is consumed by the printing operation and the toner needs to be replenished at an appropriate timing.

  An image forming apparatus according to a fourth aspect is the image forming apparatus according to the third aspect, wherein the replenishment control means is based on a replenishment speed at which the replenishment means replenishes the toner before the replenishing means performs the printing operation. The replenishment time for replenishing toner to a section where the difference between the amount and the toner amount estimated by the estimating means is lower than a predetermined value is adjusted.

  According to this image forming apparatus, the replenishing unit replenishes the toner for the replenishment time adjusted by the replenishment control unit. As a result, an appropriate amount of toner is supplied to the section in which the toner is to be supplied.

  An image forming apparatus according to a fifth aspect of the present invention is the image forming apparatus according to the fourth aspect, wherein the replenishment control means determines the difference between the toner amount before the printing operation is performed and the toner amount estimated by the estimating means by the replenishing means. Add the replenished toner amount. Then, the replenishment control means adjusts the replenishment speed based on the toner amount after the addition, and further adjusts the replenishment time according to the adjusted replenishment speed.

  This image forming apparatus adjusts the replenishment speed for determining the replenishment time based on the toner amount of each section after replenishment. In other words, the replenishment speed used to determine the replenishment time is feedback adjusted. Then, the replenishment time when the replenishment means performs the next replenishment is determined based on the adjusted replenishment speed. Thereby, the replenishing means can perform the replenishing operation more accurately.

  An image forming apparatus according to a sixth aspect of the present invention is the image forming apparatus according to the fifth aspect of the present invention, further comprising detecting means for detecting the toner amount after the toner is replenished. The replenishment control means adjusts the replenishment speed so as to decrease the first predetermined speed when the added toner amount is less than the toner amount detected by the detection means. Further, the replenishment control means adjusts the replenishment speed to be increased by a second predetermined speed when the toner amount after addition is equal to or greater than the toner amount detected by the detection means.

  This image forming apparatus determines that the actual replenishment speed is slower than the replenishment speed used to determine the replenishment time when the toner amount obtained by the calculation is less than the actual measurement value, and lowers the replenishment speed used to determine the replenishment time. . Conversely, when the toner amount obtained by the calculation is equal to or greater than the actual measurement value, the image forming apparatus determines that the actual replenishment speed is faster than the replenishment speed used for determining the replenishment time, and the replenishment speed used for determining the replenishment time. Raise. Thereby, the replenishment speed used for determination of the replenishment time becomes closer to the actual speed. Accordingly, the replenishment time is determined as a more accurate time.

  An image forming apparatus according to a seventh aspect of the present invention is the image forming apparatus according to the sixth aspect of the present invention, wherein the detection means is disposed in any of the sections.

  Since the conveying unit according to the present invention circulates and conveys the developer, the detecting unit arranges the toner amount after the toner is replenished by disposing the detecting unit in any of the compartments in the container body. In addition to the detection, the toner amount before the printing operation is further detected. Therefore, there is no need to provide a plurality of units, such as one for detecting the amount of toner before the printing operation is performed and one for detecting the amount of toner after replenishment.

  An image forming apparatus according to an eighth aspect is the image forming apparatus according to any one of the first to seventh aspects, wherein the toner is a non-magnetic toner and the carrier is a magnetic carrier. The developing means is a hybrid developing means including a magnetic brush roller, a developing roller, and a potential difference generating means. The magnetic brush roller has a magnetic brush formed of a nonmagnetic toner and a magnetic carrier on the surface. The surface of the developing roller is rubbed by a magnetic brush roller to form a thin toner layer. The potential difference generating means generates a potential difference between the magnetic brush roller and the developing roller.

  An image forming apparatus according to a ninth aspect is the image forming apparatus according to any one of the first to eighth aspects, further comprising a plurality of image carriers arranged in parallel with each other. A plurality of developing means are provided so as to correspond to the plurality of image carriers.

  This image forming apparatus is a so-called tandem image forming apparatus. As described above, the image forming apparatus according to the present invention can be applied to a tandem image forming apparatus. According to the image forming apparatus of the present invention, since the toner is accurately supplied into the developing unit, when the tandem type image forming apparatus is downsized, the developing unit is reduced in size. Even if the developer capacity itself is reduced, toner replenishment unevenness is less likely to occur.

  According to the image forming apparatus of the present invention, the toner amount consumed by the developing device by the printing operation can be estimated as accurately as possible, and the toner can be appropriately supplied.

(1) Configuration FIG. 1 is a schematic cross-sectional view of a color printer 1 employing an image forming apparatus according to a first embodiment of the present invention. The color printer 1 is a tandem image forming apparatus, and performs a printing operation based on image data acquired from an external device such as a PC via a communication unit 16 (described later). As shown in FIGS. 1 and 5, the color printer 1 includes an image forming unit 2, a replenishing device 7, a toner sensor 8, a transfer device 9, a communication unit 16, and a control unit 21.

  The image forming unit 2 can form a color image, and includes a photosensitive drum 3, a charger 4, a developing device 5, and a cleaning roller 6, as shown in FIG. Each of these members is provided corresponding to each toner of four colors of cyan, magenta, yellow, and black. Therefore, for example, the four photosensitive drums 3 are arranged in parallel, and four developing devices 5 are arranged corresponding to the respective photosensitive drums 3.

  The photosensitive drum 3 has a photosensitive layer made of amorphous silicon or the like, and an electrostatic latent image is formed on the surface based on image data. The photosensitive drum 3 is connected to a drum voltage application unit (not shown) so that a voltage can be applied.

  The charger 4 uniformly charges the surface of the photosensitive drum 3.

  The developing device 5 is a developing device employing a hybrid developing method, and as shown in FIGS. 2 and 3, the container body 5a, the magnetic brush roller 5b, the developing roller 5c, the doctor blade 5d, and the stirring rollers 5e, 5f. Is provided.

  The container body 5a has a two-component developer (hereinafter, simply referred to as “developer”) composed of a nonmagnetic toner and a magnetic carrier. As shown in FIG. 4, the inside of the container body 5a is in the developer transport direction (arrows A and B in FIG. 4; hereinafter, the arrows are referred to as “transport direction A” and “transport direction B”). It is divided into 10 sections. Here, in order to simplify the description, numbers 1 to 10 are assigned to the sections in FIG. Specifically, the compartments arranged in the direction of conveyance A from the replenishment position on the right side of the container body 5a are numbered 1, 2,... Numbers such as 6, 7,..., 10 are assigned in order to the sections arranged in the transport direction B from the sections located on the downstream side. The supply position is a position for the supply device 7 to supply toner. Further, the toner in the developer that has moved to the sections 7, 8, and 9 is used when a printing operation is performed.

  The magnetic brush roller 5b has a magnetic brush made of non-magnetic toner (hereinafter simply referred to as “toner”) and a magnetic carrier (hereinafter simply referred to as “carrier”) formed on the surface. The magnetic brush roller 5b is connected to a magnetic brush roller voltage application unit 5h (corresponding to a potential difference generating unit), and can be applied with a voltage.

  The developing roller 5c is disposed so as to face the photosensitive drum 3 and the magnetic brush roller 5b, and a thin toner layer is formed on the surface by the surface being rubbed by the magnetic brush roller 5b. The developing roller 5c supplies toner to the photosensitive drum 3 and develops the electrostatic latent image as a toner image. Similarly to the magnetic brush roller 5b, the developing roller 5c is connected to a developing roller voltage application unit 5i (corresponding to a potential difference generating unit), and is applied with a voltage different from the voltage applied to the magnetic brush roller 5b. It is possible to As described above, when the magnetic brush roller voltage application unit 5h and the development roller voltage application unit 5i apply different voltages to the magnetic brush roller 5b and the development roller 5c, respectively, a potential difference is generated between the magnetic brush roller 5b and the development roller 5c. A thin layer of toner only is formed on the surface of the developing roller 5c. Here, the range of the potential difference between the rollers 5b and 5c is preferably about 100V to about 350V, for example.

  The doctor blade 5d cuts off the developer adhering to the surface of the magnetic brush roller 5b.

  As shown in FIG. 3, the transport rollers 5e and 5f have a spiral shape and are arranged so as to face each other via a partition wall 5g. The conveyance rollers 5e and 5f circulate and convey the developer in the container body 5a. More specifically, as shown in FIG. 4, the transport roller 5e transports the developer on the sections 1 to 4 in the container body 5a at the transport speed ve in the transport direction A in FIG. Transports the developer on the compartments 6 to 9 in the container body 5a in the transport direction B of FIG. 4 at the transport speed vf. As shown in FIG. 4, the partition wall 5g partitions between the sections 2 to 4 and the sections 7 to 9, so that the developer on the section 5 is pushed out by the developer on the section 4 and partitioned. Go to 6. Further, the developer on the section 10 is pushed by the developer on the section 9 and moves to the section 1.

  The cleaning roller 6 is for removing toner remaining on the surface of the photosensitive drum 3, and is provided so as to be in contact with the surface of the photosensitive drum 3.

  The replenishing device 7 replenishes toner into the container main body 5a of the developing device 5 from the replenishing position shown in FIGS. The toner replenished by the replenishing device 7 moves from the replenishment position toward the compartment 1 and mixes with the developer that is circulated and transported to the compartment 1 in the container body 5a.

  As shown in FIGS. 3 and 4, the toner sensor 8 is provided on the conveyance path of the conveyance roller 5 e of the developing device 5 and corresponding to the section 3. The toner sensor 8 detects the amount of toner in the developer located on the section 3. That is, in this embodiment, since the developer in the container body 5a is circulated and conveyed, the toner sensor 8 detects the amount of toner before the printing operation is performed in the sections 7 to 9 and also supplies the replenishing device 7. Thus, it is possible to detect the amount of toner in the developer after containing the replenished toner.

  As shown in FIG. 1, the transfer device 9 transfers the toner image developed by the developing roller 5 b of the developing device 5 to the recording paper conveyed from the paper feed cassette 11 via the paper conveyance path 10. Then, the transfer device 9 conveys the recording paper after transfer to a fixing device (not shown). The recording sheet after transfer is fixed to the toner image by a fixing device (not shown) and then discharged to the outside of the color printer 1 through the discharge unit 12.

  The communication unit 16 communicates with an external device such as a PC.

  The control unit 21 includes a microcomputer including a CPU and a memory. As illustrated in FIG. 5, the control unit 21 includes an image forming unit 2 including a communication unit 16, a photosensitive drum 3, and a developing device 5, a replenishing device 7, and a toner sensor. 8 and other input / output sections. The other entrance / exit portions include the cleaning roller 7 and the like. The control unit 21 controls the operation of the input / output unit of each connected functional unit and image processing. In particular, the control unit 21 according to the present embodiment estimates the toner amount consumed by the printing operation on the recording paper for each developer on the section, and performs the replenishment operation of the replenishing device 7 based on the estimated toner amount. Control. In order to perform such an operation, the control unit 21 functions as an estimation unit 21a and a supply control unit 21b. Each function will be described below.

[Estimation part]
The estimation unit 21a uses the toner amount consumed in the printing operation as a printing rate d% (hereinafter, “%” is omitted) of the image data received by the communication unit 16, the conveyance speeds ve and vf of the conveyance rollers 5e and 5f, and Based on the printing speed vi at which the printing operation is performed, estimation is performed for each section.

  Hereinafter, how the estimation unit 21a estimates the consumed toner amount will be specifically described. Each value calculated in each of the following processes in which the estimation unit 21a estimates toner is stored in the memory.

  First, the estimation unit 21a calculates the print rate d of image data for each recording sheet on which a toner image is fixed by a fixing device (not shown). Then, the estimation unit 21a calculates a printing time td during which image data with a printing rate d is printed using the printing speed vi. For example, when image data is printed on A4 recording paper, since the length of the A4 horizontal recording paper is about 210 mm, the estimation unit 21a calculates the printing time td when printing one A4 horizontal paper. Calculated as 210 / vi (sec). Therefore, when the printing speed vi is 150 (mm / sec), for example, the printing time td for printing one sheet of A4 paper is calculated as 1.4 seconds.

  Next, the estimation unit 21a calculates the amount of toner consumed in each of the sections 7 to 9 from the print rate d of the image data, the print time td, and the transport speeds ve and vf of the transport rollers 5e and 5f. It is assumed that the conveyance speeds ve and vf of the conveyance rollers 5e and 5f, that is, the time for which the conveyance rollers 5e and 5f convey the developer to the adjacent section are both about 3 seconds, and the printing time for printing one sheet of A4 horizontal paper. When td is 1.4 sec, the estimation unit 21a assumes that the printing operation is performed using the developer on the section 7 because the printing time td “1.4 sec” is shorter than the conveyance speeds ve and vf “3 sec”. to decide. In this case, assuming that the print rate d of the image data is 50%, the estimation unit 21a sets the amount of toner consumed in the developer on the section 7 to all the print rate of 50% of the image data. Judge that it is equivalent. Here, when the amount of toner consumed when printing image data with a printing rate of 100% is, for example, 360 mg, the estimation unit 21a determines that the amount of toner consumed on the section 7 is half that amount, 180 mg. Calculate that there is.

[Supply control unit]
The supply control unit 21 b controls the supply operation of the supply device 7.

  First, the replenishment control unit 21b determines the developer on the section where the toner is to be replenished, and controls the replenishment device 7 so that the toner on the section is replenished with toner. Specifically, the replenishment control unit 21b calculates the toner amount estimated by the estimation unit 21a from the toner amount before the printing operation is performed in the sections 7 to 9, that is, the toner amount detected by the toner sensor 8. Subtract every time. Then, the replenishment control unit 21b controls the replenishment device 7 so that toner is replenished to the developer on the section whose subtraction result is lower than a predetermined value. Thus, the replenishment operation is performed on the developer on the section where the toner is consumed by a predetermined amount or more by the printing operation. Here, it is assumed that the predetermined value is a value accurately determined by an experiment or the like.

  Next, the replenishment control unit 21b controls the timing at which the replenishing device 7 replenishes toner based on the transport speeds ve and vf of the transport rollers 5e and 5f. Further, the replenishment control unit 21b adjusts the replenishment time for the replenishment device 7 to replenish toner to the developer on the section where the replenishment device 7 should replenish toner, based on the replenishment speed vh that the replenishment device 7 replenishes toner. In the following, a case where the developer currently on the section 7 is a developer to be replenished with toner will be described. For example, when the transport rollers 5e and 5f are transporting the developer to the adjacent section at regular time intervals T2 (sec), the replenishment control unit 21b moves the developer currently located in the section 7 to the section 1 It is calculated that it takes “4 × T2 (sec)” to complete. Then, if it takes time T1 (sec) for the toner replenished in the container main body 5a from the replenishment position to arrive at the compartment 1, the replenishment control unit 21b replenishes the developer currently on the compartment 7 It is calculated that the toner replenished from the position is mixed after “4 × T2−T1 (sec)”. Then, the replenishment control unit 21b adjusts the time during which the replenishing device 7 replenishes toner based on the replenishment speed vh at which the replenishing device 7 replenishes toner. For example, if the replenishment speed vh is 100 mg / sec and the amount of toner to be replenished to the developer currently on the section 7 is 180 mg, the replenishment control unit 21b determines that the driving time of the replenishment device 7 is 1.8 sec. To do. Next, the replenishment control unit 21b subtracts the drive time of the replenishing device 7 from the time “4 × T2−T1 (sec)” in which the toner is mixed with the developer currently on the section 7, so that the replenishing device 7 replenishes. The timing to perform is determined. In this case, the replenishment control unit 21b determines that the timing at which the replenishing device 7 performs replenishment is “4 × T2-T1-1.8 (sec)” after the present, and the replenishing device 7 performs the replenishing operation when that time comes The replenishing device 7 is controlled so as to perform.

  Further, the replenishment control unit 21b adjusts the replenishment speed vh of the replenishment device 7 used in the above calculation, and further adjusts the replenishment time according to the adjusted replenishment speed vh. Specifically, the replenishment control unit 21b determines the difference between the toner amount before the printing operation (that is, the toner amount detected by the toner sensor 8) and the toner amount estimated by the estimation unit 21a. The amount of toner replenished by is added. Here, the developer whose toner amount has been detected once by the toner sensor 8 in the section 3 moves to the sections 7 to 9 and is used for the printing operation, and then moves to the section 1. The developer moved to the section 1 is mixed with the toner when the toner is replenished, and then moves to the section 3. Thus, the toner amount of the developer moved to the section 3 is detected again by the toner sensor 8. Therefore, the replenishment control unit 21b compares the toner amount after adding the replenished toner amount with the toner amount detected again by the toner sensor 8, and the estimation unit 21a estimates when based on the comparison result. The replenishment speed vh is adjusted so that the replenishment speed vh to be used approaches the actual replenishment speed. Specifically, when the added toner amount is less than the detected toner amount, the replenishment control unit 21b determines that the replenishment speed vh used to estimate the toner amount consumed in the printing operation is the actual replenishment speed. Is determined to be faster, and the replenishment speed vh is decreased by the first predetermined speed. When the added toner amount is equal to or larger than the detected toner amount, the replenishment control unit 21b uses the replenishment speed vh used to estimate the toner amount consumed in the printing operation to be slower than the actual replenishment speed. And the supply speed vh is increased by a second predetermined speed. Then, the replenishment control unit 21b uses the replenishment speed vh ′ adjusted in this way for the subsequent replenishment time adjustment. Here, the first predetermined speed and the second predetermined speed are values obtained by experiments or the like, and are determined according to the difference between the added toner amount and the detected toner amount.

(2) Operation Next, the operation of the color printer 1 according to the present embodiment will be described with reference to FIG.

  Step S1-2: When the power of the color printer 1 is turned on (S1), the image forming unit 2 starts driving. In particular, in the developing device 5 in the image forming unit 2, the conveying rollers 5e and 5f start circulating the developer (S2).

  Steps S3-4: When the communication unit 16 receives a print operation start instruction and image data from an external device such as a PC (S3), the toner sensor 8 starts detecting the amount of toner in the developer that has moved to the section 3. (S4).

  Step S5: The image forming unit 2 performs a printing operation using the developer on the sections 7 to 9 in the container main body 5a of the developing device 5. As a result, the toner in the developer on the compartments 7 to 9 is consumed.

  Step S6: The estimation unit 21a of the control unit 21 estimates the consumed toner amount for each section based on the print rate d of the image data, the transport speeds ve and vf of the transport rollers 5e and 5f, and the print speed vi. . The replenishment control unit 21b performs calculation to subtract the toner amount estimated by the estimation unit 21a for each section from the toner amount detected by the toner sensor 8.

  Steps S7 to 8: The replenishment control unit 21b compares the value calculated in step S6 with a predetermined value. When it is determined that the value calculated in step S6 is lower than the predetermined value (S7), the replenishment control unit 21b determines that the developer having the toner amount determined to be lower (hereinafter referred to as a developer that should perform toner replenishment). The operation of the replenishing device 7 is controlled so that the toner is replenished (S8). This operation will be described later. If the value calculated in step S6 is higher than the predetermined value, the replenishment control unit 21b determines that it is not necessary to replenish the developer on the section.

  Step S9: The color printer 1 performs the operations after Step S3 until the power of the color printer 1 is turned off. Note that when the power of the color printer 1 is turned off, the color printer 1 ends a series of operations.

(2-1) Replenishment Operation Control Subroutine FIG. 7 is a diagram showing a subroutine for controlling the operation of the replenishment device 7 according to the present embodiment.

  Step S21: The replenishment control unit 21b is configured to replenish the toner when the replenishment device 7 moves the developer to be replenished toner to the section 1 so that the toner is replenished to the developer and the replenishment time. Is calculated.

  Step S22: The replenishing device 7 performs a toner replenishing operation based on the replenishment timing and replenishment time calculated by the replenishment control unit 21b in step S21. As a result, in the container main body 5a of the developing device 5, new toner is replenished from the replenishment position and is mixed with the developer to be replenished that has moved to the section 1.

  Step S23: The replenishment control unit 21b adds the toner amount replenished in step S22 to the value calculated in step S6.

  Step S24: The developer replenished with toner in the section 1 eventually moves to the section 3. The toner sensor 8 detects the amount of toner in the developer.

  Step S25: The replenishment control unit 21b compares the added toner amount calculated in step S23 with the actual toner amount detected by the toner sensor 8 in step S24.

  Step S26: When the added toner amount is smaller than the actual toner amount detected by the toner sensor 8 in step S25, the replenishment control unit 21b sets the replenishment speed vh used by the estimation unit 21a for the first predetermined speed. Just lower.

  Step S27: When the toner amount after addition is larger than the actual toner amount detected by the toner sensor 8 in step S25, the replenishment control unit 21b sets the replenishment speed vh used for the estimation by the estimating unit 21a to the second predetermined amount. Increase speed only.

(3) Effects In this color printer 1, the container body 5a of the developing device 5 is divided into a plurality of sections in the developer transport direction. The color printer 1 estimates the amount of toner consumed in the printing operation for each section based on the printing rate d of the image data. Then, the color printer 1 subtracts the estimated toner amount from the toner amount before the printing operation is performed, and determines whether or not replenishment is necessary. Thus, the toner replenishment operation is executed only when replenishment is necessary.

  Further, the color printer 1 performs a printing operation corresponding to a printing rate of what percentage of the printing rate d of the printed image data by the printing speed vi in the printing operation and the conveying speeds ve and vf of the conveying rollers 5e and 5f. Is done with toner in one compartment. This operation is performed for each partition. Thereby, the amount of toner consumed by the printing operation is estimated more accurately.

  Further, the replenishment control unit 21b in the color printer 1 sets the timing at which the replenishing device 7 replenishes toner based on the transport speeds ve and vf of the transport rollers 5e and 5f. Thereby, the replenishing device 7 can replenish the section where toner is consumed by the printing operation and needs replenishment at an appropriate timing.

  Further, the replenishment control unit 21b in the color printer 1 adjusts the replenishment time during which the replenishment device 7 replenishes the developer to which the toner should be replenished based on the replenishment speed vh at which the replenishment device 7 replenishes the toner. Thereby, the replenishing device 7 replenishes toner during this replenishment time. Accordingly, an appropriate amount of toner is replenished to the section where the toner is to be replenished.

  Further, the color printer 1 adds the toner amount replenished by the replenishing device 7 to the difference between the toner amount before the printing operation is performed and the toner amount estimated by the estimating unit 21a, and the toner amount after the addition. Based on the above, the replenishment speed vh for determining the replenishment time is adjusted. In other words, the replenishment speed vh used for determining the replenishment time is feedback adjusted. Then, the replenishment time when the replenishment device 7 performs the next replenishment is determined based on the adjusted replenishment speed vh. Thereby, the replenishing device 7 can perform the replenishing operation more accurately.

  In particular, when the added toner amount is less than the actual value detected by the toner sensor 8, the color printer 1 determines that the actual replenishment speed is slower than the replenishment speed vh used for the calculation, and the replenishment used for the calculation. The speed vh is decreased by the first predetermined speed. On the contrary, when the added toner amount is equal to or larger than the actual value detected by the toner sensor 8, the color printer 1 determines that the actual replenishment speed is faster than the replenishment speed vh used for the calculation, and uses it for the calculation. The replenishment speed vh is increased by a second predetermined speed. Thereby, the replenishment speed vh used for calculation becomes a value closer to the actual speed. Accordingly, the replenishment time is determined as a more accurate time.

  Further, the color printer 1 according to the present embodiment uses transport rollers 5e and 5f that circulate and transport the developer. Therefore, the toner sensor 8 is arranged so as to correspond to the section 3 in the container body 5a of the developing device 5, thereby detecting the toner amount after the toner is replenished and before the printing operation is performed. The amount of toner is further detected. Therefore, it is not necessary to provide a plurality of sensors for detecting the toner amount, such as a sensor for detecting the toner amount before the printing operation and a sensor for detecting the toner amount after the replenishment. .

  The color printer 1 is a so-called tandem printer. As described above, when the image forming apparatus according to the present invention is employed as a tandem type image forming apparatus, toner is accurately supplied into the developing device 5, and therefore, when the tandem type image forming apparatus is downsized. In addition, even if the developer capacity in the developing device itself is reduced due to a reduction in the size of the developing device, uneven toner replenishment is less likely to occur.

  In the following, using a color printer that does not employ the present invention and the color printer 1 according to the above-described embodiment, respectively, a high-density (solid image with A4 horizontal and 30% print rate) documents of 32 sheets per minute. Printed continuously at speed. The results are shown in FIGS.

  FIG. 8 shows the result of the color printer not adopting the present invention, and FIG. 9 shows the result of the color printer 1 according to the embodiment. The vertical axis in FIGS. 8 and 9 shows the voltage value detected by the toner sensor converted to the toner weight (mg). For example, the difference “100” on the vertical axis indicates the weight ratio of the toner and the carrier (hereinafter referred to as “the toner weight”). , T / C), this corresponds to a difference of about “0.8%”. 8 and 9, the target value of the toner amount is “600 mg”.

  In FIG. 8, since the maximum value and the minimum value of the toner are “700 mg” and “450 mg”, respectively, the toner amount unevenness of about “2%” occurs when converted to T / C. On the other hand, in FIG. 9, since the difference between the maximum value and the minimum value of the toner is about “100 mg”, the unevenness of the toner amount is found to be about “0.8%” in terms of T / C. .

  That is, in a color printer that does not employ the present invention, the toner is replenished after the toner amount is detected by the toner sensor. The toner is replenished to the portion of the developer that does not consume the toner. That is, the timing of the replenishment operation is delayed. For this reason, the toner amount in the developer is uneven, and the toner sensor values vary greatly.

  On the other hand, in the color printer 1 according to the above embodiment, the variation in the value of the toner sensor is smaller than that in FIG. As a result, it can be seen that the toner is replenished to the portion of the developer where the toner is consumed at an appropriate timing.

  Further, regarding image unevenness, the reflected image density (left and right positions about 5 cm from the end of 100 continuous recording sheets printed by the color printer not employing the present invention and the color printer 1 according to the above-described embodiment) Macbeth RD912) differences were averaged and compared. Then, in the color printer that does not employ the present invention, the difference in the reflected image density was “0.33”, whereas in the color printer 1 according to the above embodiment, the difference was significantly improved to “0.08”.

<Other embodiments>
(A) In FIG. 6 according to the above embodiment, for convenience of explanation, after the printing operation is performed, a step of estimating the consumed toner amount and a step of calculating based on the estimated amount and the toner density sensor value (S6) Is described. However, the calculation in step S6 may be started when the communication unit 16 acquires a printing operation instruction. In this case, since there is no consumed toner amount for the developer that has not been used for the printing operation, the calculation result performed using the estimated toner amount does not fall below the predetermined value in step S7. Therefore, the process proceeds to a step where no replenishment operation is performed.

  (B) In FIG. 7 according to the above-described embodiment, the “toner amount detection” flow in step S24 is described for convenience of explanation of the operation. Therefore, the toner density sensor 8 always detects the toner amount of the developer that has moved to the section 3 after the printing instruction is given.

  (C) Although the case where the inside of the container main body 5a of the developing device 5 is divided into ten sections as shown in FIG. 4 is described in the above embodiment, the number of sections may be other than ten. That is, the inside of the container main body of the developing device according to the present invention can be divided into at least two compartments.

  (D) In the above-described embodiment, the case where the toner sensor 8 is provided so as to correspond to the section 3 is described, but the position of the toner sensor 8 is not limited to this. The toner sensor 8 may be disposed anywhere other than the replenishment position, the section 1 where the replenished toner is mixed, and the sections 7 to 9 where the toner is consumed in the printing operation in FIG.

  (E) In the above-described embodiment, the case where one toner sensor 8 is provided is described, but two or more toner sensors 8 may be provided.

  (F) In the above embodiment, the case where the developing device 5 is hybrid development has been described as an example. However, the developing device may use another developing method.

  (G) In the above embodiment, the color printer adopting the tandem method has been described as an example. However, the image forming apparatus according to the present invention may be applied to a color printer adopting a method other than the tandem method, such as a rotary method. Is also applicable.

  The image forming apparatus of the present invention can be applied as a copying machine, a monochrome or color printer, a facsimile machine, or a multifunction machine having a scanner function in addition to these functions.

1 is a schematic sectional view of a color printer according to an embodiment. FIG. 3 is a longitudinal sectional view showing an internal structure of the developing device. FIG. 3 is a schematic diagram when the internal structure of the developing device is viewed from above. The figure which shows the state by which the container main body of the image development apparatus was divided into the some division. 1 is a block diagram schematically showing the configuration of a color printer according to an embodiment. 6 is a flowchart for explaining the operation of the color printer according to the embodiment. A replenishment operation control subroutine performed by the color printer according to the present embodiment. 6 is a graph showing a change in toner amount during printing time when a color printer not adopting the present invention performs continuous printing. 6 is a graph showing a change in toner amount during printing time when the color printer according to the present embodiment performs continuous printing.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Color printer 5 Developing device 5a Container main body 5b Magnetic brush roller 5c Developing roller 5d Doctor blade 5e, 5f Conveying roller 5g Partition wall 7 Replenishing device 8 Toner sensor 21 Control unit 21a Estimating unit 21b Replenishment control unit

Claims (9)

An image forming apparatus that performs a printing operation based on image data,
A container body having a developer composed of a toner and a carrier, the interior of which is divided into at least two or more sections in the transport direction of the developer, and circulating the developer in the two or more sections A developing means including a conveying means for conveying in the conveying direction;
Replenishing means for replenishing the toner to the developing means;
Estimating means for estimating the amount of toner consumed in the printing operation for each section based on a printing rate of the image data;
Of the two or more compartments in the container body, replenishing the toner into a compartment where the difference between the toner amount before the printing operation is performed and the toner amount estimated by the estimating means is lower than a predetermined value. Replenishment control means for controlling the replenishment means so that
An image forming apparatus.   2. The estimation unit according to claim 1, wherein the estimation unit estimates the amount of toner consumed in the printing operation based on a conveyance speed at which the conveyance unit conveys the developer and a printing speed at which the printing operation is performed. Image forming apparatus.   The image forming apparatus according to claim 2, wherein the replenishment control unit further controls a timing at which the replenishment unit replenishes the toner based on the transport speed.   The replenishment control unit is configured to determine, based on a replenishment speed at which the replenishment unit replenishes the toner, between the toner amount before the printing operation is performed and the toner amount estimated by the estimation unit. The image forming apparatus according to claim 3, wherein a replenishment time for replenishing the toner to a section where the difference is lower than a predetermined value is adjusted.   The replenishment control means adds the toner amount replenished by the replenishment means to the difference between the toner amount before the printing operation is performed and the toner amount estimated by the estimation means. The image forming apparatus according to claim 4, wherein the supply speed is adjusted based on the toner amount, and the supply time is further adjusted according to the adjusted supply speed. A detecting means for detecting the toner amount after the toner is replenished;
The replenishment control means adjusts the replenishment speed so as to lower the first predetermined speed when the toner amount after addition is less than the toner amount detected by the detection means, and the toner amount after addition is detected by the detection 6. The image forming apparatus according to claim 5, wherein when the toner amount is equal to or larger than the toner amount detected by the unit, the replenishment speed is adjusted to increase by a second predetermined speed.   The image forming apparatus according to claim 6, wherein the detection unit is disposed in any one of the sections. The toner is a non-magnetic toner,
The carrier is a magnetic carrier,
The developing means includes a magnetic brush roller having a surface formed with a magnetic brush made of the non-magnetic toner and the magnetic carrier, a developing roller having a surface rubbed by the magnetic brush roller to form a toner thin layer, The image forming apparatus according to claim 1, wherein the image forming apparatus is a hybrid developing unit that further includes a potential difference generating unit that generates a potential difference between the magnetic brush roller and the developing roller. A plurality of image carriers arranged in parallel with each other;
The image forming apparatus according to claim 1, wherein a plurality of the developing units are provided so as to correspond to the plurality of image carriers.

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