JP4301795B2 - Development device design method and development device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a developing device design method and a developing device used in a developing process in an electrophotographic image forming apparatus.
[0002]
[Prior art]
With respect to image output devices using electrophotographic technology such as copiers and printers, the demand for higher image quality is increasing year by year for the output images. In order to meet this demand, not only high-resolution exposure optics, improved exposure control technology, and development of new photoconductor materials, but also efforts to increase resolution, image density caused by developer characteristics The uniformity and the reproducibility of the same image are improved.
[0003]
However, even when higher resolution and improved image reproducibility are achieved, on the developer carrying member responsible for supplying developer to the electrostatic latent image carrying member formed on the image carrying member, When the developer layer formed on the surface layer cannot be kept uniform, it is not possible to achieve high image quality in the image forming process. For this reason, it is important to keep the developer layer formed uniformly on the surface of the developer carrier, and even when the influence of aging and environmental fluctuations occurs, the developer layer can be made uniform. It is desirable.
[0004]
Therefore, in the past, many attempts have been made to deal with the above-mentioned problems with respect to the toner supply process for transporting a certain amount of toner on the developer carrier and the toner layer regulation process for forming a uniform toner thin layer used for development. Technology has been developed.
[0005]
Some of these conventional techniques pay attention to the toner layer regulation process. For example, as the developing operation proceeds, the rotation peripheral speed ratio of the toner thinning regulation roller to the developer carrier and the toner thin layer are increased. Technology for obtaining a good image by constantly maintaining an appropriate amount of toner on the developer carrying member by controlling fluctuation of at least one of the bias voltage values for regulating the toner layer applied to the regulating roller. (For example, refer to Patent Document 1).
[0006]
According to the above-described technique, an appropriate amount of toner to be attached to the surface of the developer carrier is calculated according to the progress of toner consumption in the toner hopper, and the peripheral speed ratio or the bias voltage is calculated according to the calculation result. Among them, by controlling at least one of the easy controls, the toner adhesion amount on the developer carrier can always be maintained at a constant level regardless of the remaining amount of toner in the toner hopper, and uniform image quality can be maintained. Has been.
[0007]
In addition, as a conventional technique, the toner adhesion amount on the developer carrier is controlled within a certain range depending on the surface roughness of the developer carrier, thereby reducing toner adhesion unevenness, transportability deterioration, and charging unevenness. There is a technique for obtaining a high-quality image (see, for example, Patent Document 2).
[0008]
According to this technique, the surface roughness is extremely small, that is, the occurrence of sleeve ghost due to the density unevenness due to the extremely small amount of toner adhesion and the rise of the toner adhesion becoming dull, and the surface roughness is extremely small. In other words, it is possible to avoid reversal fog caused by uneven charging caused by an extremely large toner adhesion amount, and to obtain a good developed image.
[0009]
Furthermore, as another conventional technique, a technique for controlling the surface roughness of the developing roller is disclosed as a toner layer thickness acquisition means for obtaining a high-quality image (see, for example, Patent Documents 3 and 4).
[0010]
[Patent Document 1]
JP-A-1-230063
[Patent Document 2]
JP-A-7-181806
[Patent Document 3]
Japanese Patent Laid-Open No. 10-232552
[Patent Document 4]
JP2002-23487
[Problems to be solved by the invention]
However, when the layer thickness of the toner layer is adjusted only by the arithmetic average roughness of each surface of the developer carrier and the toner thinning regulating roller as in the above-described conventional technology, the surface roughness is the surface of the developer carrier. There is an inconvenience that it becomes dominant as a parameter for determining the toner adhesion amount carried on the toner.
[0011]
Also, the toner adhesion amount on the developer carrier is corrected by the rotation peripheral speed ratio of the toner thinning regulation roller to the developer carrier and the bias voltage value for regulating the toner layer applied to the toner thinning regulation roller. There are cases where it is not possible. When adjusting the toner adhesion amount carried on the surface of the developer carrying member, it is necessary to control two variable elements as the layer thickness regulation parameter, which complicates the circuit involved in the control and increases the cost of the apparatus. There is an inconvenience of inviting.
[0012]
Further, in the above-described prior art, the parameter relating to the control of the amount of toner carried on the developer carrying member is only the surface roughness of the developer carrying member, so that the degree of freedom in design is narrow. In addition, since the blade is used as the layer regulating member, when the surface roughness is large and the toner adhesion amount is increased, the scraping effect by the blade is reduced, and the developer carrier and the blade are excessive. Therefore, toner filming may occur on the surface of the developer carrying member or the blade surface.
[0013]
The object of the present invention is to realize parameter design for controlling the layer thickness of the developer layer formed on the surface of the developer supply roller in a short time, and to adjust the layer thickness of the developer layer according to the occurrence of deterioration with time and environmental fluctuations. It is an object of the present invention to provide a developing device and a developing device design method capable of performing correction and always maintaining a constant image quality.
[0014]
[Means for Solving the Problems]
The present invention has the following configuration.
[0015]
(1) an accommodating portion for accommodating a developer;
  A developer supply roller for supplying the developer in the container to the surface of the image carrier;
  And a layer thickness regulating roller that regulates the layer thickness of the developer attached to the surface of the developer supply roller, wherein the developer supply roller and the layer thickness regulation roller are driven independently of each other. A design method,
  The product of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is the product. Of the developer supply roller and the layer thickness regulating roller so that the value of the layer thickness of the developer having a negative correlation with the value of the developer becomes a value appropriate for the development processing on the image carrier. Set conveyance force and peripheral speedAnd
  When the product of the ratio of the conveying force and the peripheral speed ratio is X, the conveying force and the peripheral speed of the developer supply roller and the layer thickness regulating roller are set so that 0 <X ≦ 10. It is characterized by that.
[0016]
In this configuration, the product of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is Paying attention to the fact that the value has a negative correlation with the layer thickness of the developer adhering to the developer supply roller, and is an important factor for determining the layer thickness of the developer. In order to realize the product value so that the value becomes an appropriate value, the conveying force and the peripheral speed of the developer roller and the layer thickness regulating roller are set.
[0017]
Therefore, based on the product of the ratio of the peripheral speed of the layer regulating roller to the circumferential speed of the developer carrying member and the ratio of the conveying force of the layer regulating roller to the carrying force of the developer carrying member, By adjusting to the desired layer thickness, more accurate and stable than the method of adjusting the layer thickness of the developer layer by focusing only on the peripheral speed ratio or the surface roughness of the developer carrier, etc. Adjustment of the layer thickness of the developer layer is realized.
[0018]
Further, under the condition that the product of the peripheral speed ratio and the conveyance force ratio is a desired value, the peripheral speed or the conveyance force of the developer carrier or the layer thickness regulating roller is set to an arbitrary value. However, since a desired developer layer thickness can be obtained, the time required for designing the developing device including the setting of the peripheral speed and the conveying force is greatly reduced.
[0019]
Further, since a plurality of combinations of the peripheral speed ratio and the conveyance force ratio satisfying the above conditions are obtained, the material used for the developer carrier or the layer thickness regulating roller is limited in terms of cost, or the development Even if there is a limit to the peripheral speed that can be set by the performance of the agent carrier or the drive system of the layer thickness regulating roller, the product of the ratio of the peripheral speed ratio and the conveyance force is easily set to a desired value, Increases design freedom.
[0021]
  AlsoIn the case where the product value of the conveyance force ratio and the peripheral speed ratio is larger than 10, considering that the thickness of the developer layer hardly changes even if the product value is increased or decreased. The product of the ratio of the conveying force and the peripheral speed ratio is set to a value of 10 or less.
[0022]
Therefore, the thickness of the developer layer is adjusted to a desired value by increasing or decreasing the value of the product of the ratio of the conveying force and the peripheral speed ratio, and the conditions for obtaining the desired layer thickness are efficiently Derived.
[0023]
(2)An accommodating portion for accommodating the developer;
  A developer supply roller for supplying the developer in the container to the surface of the image carrier;
  A layer thickness regulating roller for regulating the layer thickness of the developer adhering to the surface of the developer supply roller;
  Control means for separately adjusting the peripheral speeds of the developer supply roller and the layer thickness regulating roller, and
  The developer supply roller and the layer thickness regulating roller are driven independently from each other,
  The control means is a product of a ratio of a conveyance force of the layer thickness regulating roller to a conveyance force of the developer supply roller and a ratio of a circumferential speed of the layer thickness regulation roller to a circumferential speed of the developer supply roller. The developer supply roller and the developer so that the value of the layer thickness of the developer having a negative correlation with the value of the product becomes a value appropriate for development processing on the image carrier Adjust the peripheral speed of each layer thickness regulating rollerAnd
  Arithmetic average roughness of the developer supply roller and the layer thickness regulating roller so that 1 ≦ Y ≦ 50, where Y is the ratio of the conveyance force of the layer thickness regulating roller to the conveyance force of the developer supply roller. Is set,
  The control means calculates a product of a ratio of the conveyance force of the layer thickness regulating roller to the conveyance force of the developer supply roller and a ratio of the circumferential speed of the layer thickness regulation roller to the circumferential speed of the developer supply roller. When X is set, the peripheral speeds of the developer supply roller and the layer thickness regulating roller are adjusted so that 0 <X ≦ 10.
[0024]
In this configuration, the product of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is Paying attention to the fact that the value has a negative correlation with the layer thickness of the developer adhering to the developer supply roller, and is an important factor for determining the layer thickness of the developer, the control means, The peripheral speeds of the developer supply roller and the layer thickness regulating roller are adjusted.
[0025]
Therefore, the peripheral speed of the layer regulating roller with respect to the circumferential speed of the developer carrying member is adjusted by the control means so that the developer carrying member and the layer regulating roller circumferential speed are adjusted to appropriate values. And the ratio of the transport force of the layer regulating roller to the transport force of the developer carrying member is set to a value that makes the developer layer a desired layer thickness.
[0027]
  AlsoIn view of the fact that one to two developer layers are stably formed when the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller is in the range of 1 to 50. And the ratio of the conveying force of the layer thickness regulating roller to the ratio of the conveying force of the developer supplying roller to the ratio of the conveying force of the layer thickness regulating roller in a state where the ratio of the conveying force of the layer thickness regulating roller is set in the range of 1-50. The circumferential speeds of the developer supply roller and the layer thickness regulating roller are adjusted so that the product of the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller does not exceed 10.
[0028]
Therefore, a stable developer layer is formed on the developer supply roller, and the thickness of the developer layer is adjusted efficiently by the control means.
[0029]
(3)Measuring a reflectance of the developer layer held on the developer carrier, and detecting means for detecting an adhesion amount of the toner held on the developer carrier from the measurement result of the reflectance;
  The control unit adjusts peripheral speeds of the developer supply roller and the layer thickness regulating roller based on a detection result of the detection unit.
[0030]
In this configuration, even when a developer layer having a layer thickness that should originally be formed is not formed due to deterioration with time in components of the developing device, the detection unit holds the developer on the developer carrier. The reflectance of the developed developer layer is measured, and the amount of toner adhered to the developer carrier is detected from the measurement result of the reflectance, and the detection result of the detection means is detected by the control means. The peripheral speeds of the developer supply roller and the layer thickness regulating roller based on the above are adjusted.
[0031]
Therefore, since the layer thickness of the developer layer is appropriately controlled by managing the layer thickness of the developer layer as needed, the layer thickness of the developer layer is always kept constant even if a change with time or environmental change occurs.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a developing device and a developing device design method of the present invention will be described below with reference to the drawings.
[0033]
FIG. 1 is a diagram illustrating an outline of a configuration of a developing device according to the first embodiment. An image forming apparatus 1 to which the developing device of the present invention is applied includes a photosensitive member 10 as an image carrier having a photoconductive film on the surface, a charging device that uniformly charges the surface of the photosensitive member 10, and a charging device. An exposure device that exposes the surface of the charged photoreceptor 10 to form an electrostatic latent image, and a developing device that visualizes the electrostatic latent image formed on the surface of the photoreceptor 10 by the exposure device with a developer (toner). 11, a transfer device that transfers the developer image formed on the surface of the photoreceptor 10 by the developing device 11 to a sheet, and a fixing device that fixes an unfixed developer image transferred onto the sheet by heat and pressure. It is equipped with.
[0034]
In the image forming apparatus 1, an image forming process including charging, exposure, development, transfer, and fixing processes is performed by a charging device, an exposure device, a developing device 11, a transfer device, and a fixing device. The status of the development process in the forming process is shown.
[0035]
As shown in the figure, the developing device 11 includes a toner hopper 12 as a container for containing toner 13 as a developer, an agitation screw 14 for agitating the toner in the toner hopper 12, and the toner in the toner hopper 12 as an image carrier. A developing roller 16 for supplying the photosensitive member 10, a supplying roller 15 for supplying toner to the developing roller 16, a doctor roller 17 for regulating the layer thickness of the toner adhered to the developing roller 16, and a cleaning blade for cleaning the surface of the doctor roller 17. 18 is provided. Further, the developing device 11 includes a control unit (not shown) that controls the operation of the developing device 11. Here, the developing roller 16 constitutes the developer supply roller of the present invention, and the doctor roller 17 constitutes the layer thickness regulating roller of the present invention.
[0036]
In the configuration of the developing device 11 described above, the toner 13 accumulated in the toner hopper 12 is conveyed to the vicinity of the developing roller 16 by the stirring screw 14 and the supply roller 15. The conveyed toner 13 accumulates on the surface of the developing roller 16 and is then regulated to a predetermined accumulation amount by a design parameter related to the developing roller 16 and the doctor roller 17 in a contact area with the doctor roller 17.
[0037]
Here, the developing roller 16 and the doctor roller 17 are independently driven, and the drive system of each roller is controlled by the control unit. Therefore, when the peripheral speed of the developing roller 16 is V1 and the peripheral speed of the doctor roller 17 is V2, the peripheral speed ratio V2 / V1 of the doctor roller with respect to the developing roller 16 can be freely adjusted. The toner adhering to the doctor roller 17 is scraped off by the cleaning blade 18 and returned to the toner hopper 12. As for the material of the roller, the developing roller 16 is aluminum and the doctor roller 17 is urethane rubber.
[0038]
Next, the developing roller 16 that maintains a predetermined toner accumulation amount supplies the toner 13 to the electrostatic latent image formed on the surface of the photoreceptor 10 by an exposure device (not shown), and electrostatically adheres it to the developer. Form an image.
[0039]
The toner on the developing roller 16 conveyed to the position facing the photoconductor 10 is charged to the same polarity as the surface of the photoconductor 10 at the time of charging due to friction at the contact interface with the supply roller 15 and the doctor roller 17. Yes. For this reason, the developer electrostatically adheres to the latent image area where the absolute value of the potential on the photoconductor 10 is lower than the absolute potential on the surface of the toner layer when a predetermined bias voltage is applied to the developing roller 16. A developer image which is a visible image is formed.
[0040]
In this embodiment, in order to form a toner layer having a desired layer thickness on the developing roller 16, design parameters relating to the developing roller 16 and the doctor roller 17 (potential difference between the rollers, contact of the doctor roller 17 with respect to the developing roller 16). The layer thickness control is performed using the contact pressure, the arithmetic average roughness R1 of the developing roller 16, the arithmetic average roughness R2 of the doctor roller 17, and the peripheral speed ratio V2 / V1 of the doctor roller 17 with respect to the developing roller 16.
[0041]
In particular, the present invention utilizes the fact that the arithmetic average roughness of each roller and the peripheral speed ratio V2 / V1 of the doctor roller 17 with respect to the developing roller 16 exhibit dominant and good controllability in controlling the thickness of the toner layer. Thus, the layer thickness of the toner layer formed on the developing roller 16 is adjusted.
[0042]
FIG. 2 is a diagram showing the relationship between the peripheral speed ratio of the doctor roller 17 with respect to the peripheral speed of the developing roller 16 and the toner adhesion amount on the surface of the developing roller 16. In the figure, the vertical axis of the graph represents the amount of toner attached on the developing roller 16 depending on the toner layer thickness.
[0043]
From the experimental results shown in the figure, when the arithmetic average roughnesses Ra1 and Ra2 of the rollers are constant, the amount of adhesion decreases as the peripheral speed ratio V2 / V1 between the rollers increases, and the peripheral speed ratio V2 / Even if V1 is the same, if the arithmetic average roughness Ra1 and Ra2 of the rollers are different, it is understood that the adhesion amount increases or decreases. For this reason, it is possible to appropriately adjust the toner adhesion amount on the developing roller 16 by appropriately selecting the conditions in the developing process.
[0044]
Therefore, in the present invention, based on the tendency shown in FIG. 2, the power that depends on the toner conveying force determined by the arithmetic surface roughness of the roller and the peripheral speed of the roller, and the peripheral speed ratio between the rollers is the toner. A method of controlling the amount of toner that adheres to the developing roller 16 is employed by paying attention to the point that determines the amount of adhesion.
[0045]
Here, if the work rates of the developing roller 16 and the doctor roller 17 are a and b, respectively, it is considered that the amount of toner adhering to the developing roller 16 after passing through the doctor roller 17 is proportional to a / (a + b). It is done. Further, the amount of toner scraping by the doctor roller 17 that is considered to depend on the contact pressure of the doctor roller 17 with respect to the developing roller 16 and the diameter of the two rollers in contact with each other is c. When the proportional coefficient depending on the amount is d, the amount of toner attached to the surface of the developing roller 16 is
Adhering amount = d ([a / (a + b)] + c) (1)
You can. Further, the toner conveying force of the developing roller 16 depending on the arithmetic average roughness Ra1 of the developing roller 16 is F (Ra1), and the toner conveying force of the doctor roller 17 depending on the arithmetic average roughness Ra2 of the doctor roller 17 is F (Ra2). ), The power a and b of each roller is
A = F (Ra1) × V1 and b = F (Ra2) × V2 respectively
Therefore, the above equation (1) is
Adhesion amount = d {F (Ra1) × V1 / [F (Ra1) × V1 + F (Ra2) × V2] + c} (2)
Can be replaced. Further expanding the above equation (2),
Adhesion amount = d {F (Ra1) / [F (Ra1) + F (Ra2) × V2 / V1] + c} (3)
It becomes.
[0046]
Further, even when the doctor roller 17 is stationary, the toner flow is blocked according to the contact pressure of the doctor roller 17 with respect to the developing roller 16. Therefore, the toner scraping when the doctor roller is stationary depending on the contact pressure. By adding the removal coefficient f, the toner adhesion amount is
Adhesion amount = d {F (Ra1) / [F (Ra1) + F (Ra2) × (f + V2 / V1)] + c} (4)
It becomes.
[0047]
Here, in order to obtain c, d, and f which do not depend on the arithmetic surface roughness and the peripheral speed ratio between the rollers in the above equation (4), F (Ra1), F ( Ra2), c, d, and f were randomly changed.
[0048]
FIG. 3 is a diagram showing the consistency between the experimental result and the calculation result regarding the relationship between the peripheral speed ratio of the doctor roller 17 with respect to the peripheral speed of the developing roller 16 and the toner adhesion amount on the surface of the developing roller 16. In the figure, the experimental value and the calculated value are substantially the same. At this time, the parameters c, d, and f described above are c = 0.29, d = 1.1, and f = 0.001, respectively. Is set to Therefore, when c = 0.29, d = 1.1, and f = 0.001, it is understood that the experimental value and the calculated value are approximated as shown in FIG. At this time, F (Ra1) was 1, and F (Ra2) was 7.
[0049]
FIG. 4 shows the relationship between the peripheral speed ratio of the doctor roller 17 with respect to the peripheral speed of the developing roller 16 and the developer adhesion amount on the surface of the developing roller 16 when the arithmetic average roughness of the developing roller 16 and the doctor roller 17 is changed. This shows the consistency between the experimental results and the calculated results.
[0050]
As shown in the figure, the contact pressure of the doctor roller 17 with respect to the developing roller 16, the diameters of the developing roller 16 and the doctor roller 17, and the toner supply amount to the developing roller 16 before passing through the doctor roller 17 are made constant. When the dependent c, d, and f are made constant, and F (Ra1) and F (Ra2) depending on changes in Ra1 and Ra2 are changed, the experimental values (plot points) and the calculated values (lines) seem to match. Became. Here, when the above equation (4) is expanded,
Adhesion amount = d {1 / [1+ (f + V2 / V1) × F (Ra2) / F (Ra1)] + c} (5)
However, as shown in FIG. 2, FIG. 3, and FIG. 4, in the region where V2 / V1 is very small, the variation in the adhesion amount with respect to the change in V2 / V1 is large. It is necessary to apply V2 / V1 with small fluctuation. Further, f is a value that depends on the contact pressure of the doctor roller 17 with respect to the developing roller 16 as described above. If this contact pressure is increased, the driving torque required for the rotation of the roller increases, and further, the friction coefficient increases. There is an inconvenience that the circumferential speed fluctuation of the roller becomes large. Therefore, since this contact pressure cannot be increased more than necessary, it is important to reduce f as much as possible.
[0051]
In this experiment, f is as extremely small as 0.001, and f is never extremely large considering the above-mentioned tendency. Therefore, the relationship between f and V2 / V1 in equation (5) is f << (V2 / V1), and can be approximated as (f + V2 / V1) ≈V2 / V1. Therefore, the above equation (5) can be replaced with the following equation.
[0052]
Adhesion amount = d {1 / [1+ (V2 / V1) × F (Ra2) / F (Ra1)] + c} (6)
From the above results, the amount of toner adhering to the surface of the developing roller 16 depends on the product of the peripheral speed ratio V2 / V1 of the doctor roller 17 to the developing roller 16 and F (Ra2) / F (Ra1). Be grasped.
[0053]
FIG. 5 shows the relationship between the toner adhesion amount on the developing roller 16 with respect to the product of (F (Ra2) / F (Ra1)) and the peripheral speed ratio V2 / V1. As shown in the figure, it can be seen that the amount of adhesion decreases with an increase in [F (Ra2) / F (Ra1)] × [(V2 / V1)]. Here, from the figure, there is almost no variation in the amount of adhesion in a relatively large region of [F (Ra2) / F (Ra1)] × [(V2 / V1)]. Therefore, in order to control the amount of adhesion efficiently. It is necessary to apply a range in which [F (Ra2) / F (Ra1)] × [(V2 / V1)] is relatively small. In this embodiment, 0 <[F (Ra2) / F (Ra1)] × [(V2 / V1)] ≦ 10 is set.
[0054]
FIG. 6 shows the ratio (Ra2 / Ra1) of the arithmetic average roughness of the developing roller 16 and the doctor roller 17 and the ratio of the developer conveying force of the developing roller 16 and the doctor roller 17 (F (Ra2) / F). (Ra1)). In the same figure, the relationship between F (Ra2) / F (Ra1) and Ra2 / Ra1 depending on Ra1 and Ra2 is shown. In this embodiment, F (Ra2) / F (Ra1) is
F (Ra2) / F (Ra1) = 350 (Ra2 / Ra1)²... (7)
Can be calculated. This equation (7) makes it possible to accurately derive F (Ra2) / F (Ra1) based on Ra2 / Ra1.
[0055]
As described above, in order to obtain a desired toner layer thickness in the developing device design process, V1, V2, and Ra1 are within the specified range based on the product of V2 / V1 and F (Ra2) / F (Ra1). Ra2 may be set. Therefore, in the process of deriving the design conditions for obtaining the desired layer thickness, the combination of each parameter can be limited, so the number of experiments can be reduced, thereby reducing the time required to derive the conditions. It is possible to realize an efficient design.
[0056]
However, even in the developing device 11 designed according to the above-described embodiment, the change in the toner layer thickness before reaching the doctor roller 17, that is, the increase / decrease in the value of d in Expression (6) due to a change with time or an environmental change. Will occur. For example, the cause may be a decrease in toner fluidity due to an external additive such as silica peeling off over time, a change in toner charge amount due to a change in humidity, or the like.
[0057]
Therefore, in the second embodiment of the present invention, F (Ra2) / F (Ra1) in the formula (6) is a parameter that is extremely difficult to adjust after the developing device 11 is once produced. Considering this, the amount of toner adhering to the surface of the developing roller 16 after passing through the doctor roller 17 is detected as needed, and the peripheral speed ratio is increased by an amount corresponding to the increase or decrease with respect to the initial amount of toner adhering to the surface of the developing roller 16 based on this detection result. By controlling V2 / V1, a constant toner layer thickness is always maintained.
[0058]
FIG. 7 shows the configuration of the developing device 11 according to the second embodiment of the present invention. The basic configuration of the developing device 11 in the second embodiment is the same as that of the developing device 11 in the first embodiment described above. As shown in the figure, the developing device 11 according to the second embodiment includes a measuring unit such as a photo interrupter 70 that measures the reflectance of the toner held on the developing roller 16. The control unit 71 includes a conversion unit 72 including a data table (Look Up Table) indicating a correlation between the reflectance measured by the photo interrupter 70 and the toner adhesion amount on the developing roller 16, and the conversion result of the conversion unit 72. A peripheral speed ratio control means 73 for controlling the peripheral speeds of the developing roller 16 and the doctor roller 17 is provided.
[0059]
In this configuration, the conversion unit 72 derives (converts) the toner adhesion amount from the reflectance of the surface of the developing roller 16 measured by the photo interrupter 70 using a data table. Next, in the peripheral speed ratio control means 73, the changed d is calculated from the derived adhesion amount using the equation (6), and the calculated d and the desired adhesion amount are substituted into the equation (6). Thus, the peripheral speed ratio V2 / V1 necessary for maintaining the layer thickness is derived.
[0060]
Then, by controlling the peripheral speed V2 of the doctor roller 17 in accordance with the obtained V2 / V1, it is possible to always maintain a constant toner layer thickness without being affected by changes with time or environmental fluctuations.
[0061]
Here, when attention is paid to the development system currently used in laser printers and digital copying machines, the toner layer on the developing roller 16 used for development is mainly controlled to one or two layers. . In contrast, in this experimental system, the toner adhesion amount per toner layer thickness is 0.46 mg / cm.²0.92 mg / cm for toner layer thickness of 2 layers²It is. That is, in order to obtain a desired layer thickness, the adhesion amount is 0.46 to 0.92 mg / cm.²Need to control.
[0062]
FIG. 8 is a diagram showing an appropriate setting range of (F (Ra2) / F (Ra1)). Here, when the peripheral speed ratio V2 / V1 of the doctor roller 17 to the developing roller 16 is not set to 1 or more, it has been confirmed that random unevenness occurs in the toner layer on the developing roller 16. Based on this tendency, it can be said that it is necessary to control the peripheral speed ratio V2 / V1 and the toner adhesion amount within the halftone dot region shown in FIG.
[0063]
Here, the solid line in the figure shows the relationship between the peripheral speed ratio V2 / V1 and the adhesion amount when F (Ra2) / F (Ra1) = 1 and F (Ra2) / F (Ra1) = 50. ing. As can be seen from FIG. 5, since the toner adhesion amount increases as F (Ra2) / F (Ra1) decreases, the correlation curve is set by setting F (Ra2) / F (Ra1) <1. Moves upward with respect to the curve of F (Ra2) / F (Ra1) = 1, deviates from the halftone dot region, and the desired adhesion amount cannot be obtained.
[0064]
Therefore, F (Ra2) / F (Ra1) needs to be set to 1 or more. Next, when F (Ra2) / F (Ra1) = 50 is set, the amount of adhesion is not stable even if the peripheral speed ratio is set so that the amount of adhesion for two layers is obtained, but at the lower limit of the desired toner layer thickness. When the reproducibility of the toner layer thickness (toner adhesion amount) was confirmed while setting the peripheral speed ratio at which the adhesion amount for one layer was obtained and the peripheral speed ratio was kept constant, good results were obtained.
[0065]
However, when F (Ra2) / F (Ra1)> 50 is set, the peripheral speed ratio is set to obtain the adhesion amount for one layer, and the stability of the adhesion amount is confirmed. It turns out that it happens. For this reason, by setting F (Ra2) / F (Ra1) to 50 or less, the adhesion amount for at least one layer can be stably obtained. From the above results, by setting F (Ra2) / F (Ra1) within the range of 1 ≦ F (Ra2) / F (Ra1) ≦ 50, a uniform toner layer of 1 to 2 layers can be stably formed. Can be formed.
[0066]
Further, when 1 ≦ F (Ra2) / F (Ra1) ≦ 50 is defined by the arithmetic average roughness ratio Ra2 / Ra1, 0.05 ≦ Ra2 / Ra1 ≦ 0.38 from the equation (7). By setting Ra2 / Ra1 within this range, the same effect as described above can be obtained.
[0067]
In the above-described embodiment, aluminum is used as the material of the developing roller 16. However, when the doctor roller 17 is made of metal, toner fusing occurs on the surface of the developing roller 16 or the surface of the doctor roller 17. The doctor roller 17 must not be made of metal. Further, the developing roller 16 may be made of rubber. In that case, the doctor roller 17 may be made of either metal or rubber. In the above description, a mechanism for forming a toner layer by pressing the doctor roller 17 against the developing roller 16 has been described. However, the doctor roller 17 and the developing roller 16 are separated from each other by a predetermined gap. May be provided. In this case, any material such as rubber or metal can be employed as the material of each roller.
[0068]
As described above, according to the above-described embodiment, the developer conveying force of the developing roller 16 that depends on the arithmetic average roughness Ra1 of the developing roller 16 depends on F (Ra1), and depends on the arithmetic average roughness Ra2 of the doctor roller 17. When the developer conveying force of the layer regulating roller is F (Ra2), the peripheral speed ratio V2 / V1 which is the peripheral speed V2 of the doctor roller 17 with respect to the peripheral speed V1 of the developing roller 16 and F (Ra2) / F (Ra1) ) Can be controlled based on the product of (3), the design parameters related to the toner layer thickness regulation can be narrowed down, and the time required for designing the developing device 16 can be shortened. .
[0069]
Further, by setting the product of F (Ra2) / F (Ra1) and V2 / V1 within a range in which the controllability of the toner adhesion amount is high, it is possible to efficiently derive a condition for obtaining a desired toner adhesion amount. it can.
[0070]
Furthermore, the fluctuation of the toner layer thickness caused by the decrease in toner fluidity due to the external additives such as silica being peeled off over time and the change in the toner charge amount due to the humidity change are managed, and this is controlled by the peripheral speed ratio. By applying the adhesion amount correction by V2 / V1, a constant layer thickness can be maintained at all times, so that image quality deterioration can be suppressed.
[0071]
In particular, in the second embodiment, the toner adhesion amount can be recognized by measuring the reflectance of the toner layer formed on the surface of the developing roller 16, and the peripheral speed ratio can be variably controlled according to this.
[0072]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
[0073]
(1) The product value of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is Paying attention to the fact that it is negatively correlated with the layer thickness of the developer adhering to the developer supply roller and is an important factor for determining the layer thickness of the developer, the layer thickness of the developer is appropriate. By setting the conveying force and the circumferential speed of the developer roller and the layer thickness regulating roller so as to realize the product value so as to be a value, the peripheral speed of the layer regulating roller with respect to the circumferential speed of the developer carrier By adjusting the developer layer to a desired layer thickness based on the product of the peripheral speed ratio of the speed and the ratio of the transport force of the layer regulating roller to the transport force of the developer carrier, the peripheral speed ratio or the developer A method to adjust the thickness of the developer layer focusing only on the surface roughness of the carrier, etc. Compared to more accurate and can perform a layer regulating the thickness of a stable developer layer.
[0074]
Further, under the condition that the product of the peripheral speed ratio and the conveyance force ratio is a desired value, the peripheral speed or the conveyance force of the developer carrier or the layer thickness regulating roller is set to an arbitrary value. However, since the desired developer layer thickness can be obtained, the time required for designing the developing device including the setting of the peripheral speed and the conveying force can be greatly reduced.
[0075]
Further, since a plurality of combinations of the peripheral speed ratio and the conveyance force ratio satisfying the above conditions can be obtained, the material used for the developer carrier or the layer thickness regulating roller is limited in terms of cost, or the development Even when the peripheral speed is limited by the performance of the agent carrier or the drive system of the layer thickness regulating roller, the product of the ratio of the peripheral speed ratio and the conveyance force can be easily set to a desired value, In addition, the developing device can be designed.
[0076]
(2) Considering that when the product value of the conveyance force ratio and the peripheral speed ratio is greater than 10, the thickness of the developer layer hardly changes even if the product value is increased or decreased. Then, by setting the value of the product of the ratio of the conveying force and the peripheral speed ratio to a value of 10 or less, the development is performed by increasing or decreasing the value of the product of the ratio of the conveying force and the peripheral speed ratio. The layer thickness of the agent layer can be adjusted to a desired value, and conditions for obtaining the desired layer thickness can be efficiently derived.
[0077]
(3) The value of the product of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is Note that the control means has the negative correlation with the layer thickness of the developer adhering to the developer supply roller, and is an important factor for determining the layer thickness of the developer. By adjusting the peripheral speeds of the supply roller and the layer thickness regulating roller, the circumferential speeds of the developer carrier and the layer regulating roller can be adjusted to appropriate values. By setting the product of the ratio of the peripheral speed of the layer restricting roller to the speed and the ratio of the transport force of the layer restricting roller to the transport force of the developer carrying member, the developer layer has a desired layer thickness. can do.
[0078]
(4) When the ratio of the transport force of the layer thickness regulating roller to the transport force of the developer supply roller is in the range of 1 to 50, one or two developer layers are stably formed. In view of the above, in a state where the ratio of the conveying force of the layer thickness regulating roller is set within a range of 1 to 50, the control means determines the conveying force of the layer thickness regulating roller with respect to the conveying force of the developer supply roller. The peripheral speeds of the developer supply roller and the layer thickness regulating roller are adjusted so that the product of the ratio and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller does not exceed 10. Thus, a stable developer layer can be formed on the developer supply roller, and the thickness of the developer layer can be adjusted efficiently by the control means.
[0079]
(5) The detection means is held by the developer carrying member even when the developer layer having a layer thickness that should be originally formed is not formed due to deterioration with time in the components of the developing device. The reflectance of the developer layer is measured, and the adhesion amount of the toner held on the developer carrying member is detected from the reflectance measurement result, and the control means is based on the detection result of the detection means. By adjusting the peripheral speeds of the developer supply roller and the layer thickness regulating roller, the layer thickness of the developer layer can be managed as needed and the layer thickness of the developer can be appropriately corrected. However, the thickness of the developer layer can always be kept constant.
[0080]
Therefore, the parameter design related to the control of the layer thickness of the developer layer formed on the surface of the developer supply roller is realized in a short time, and the layer thickness of the developer layer is corrected according to the occurrence of deterioration with time and environmental change, It is possible to provide a developing device and a developing device design method capable of always maintaining a constant image quality.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of a developing device according to a first embodiment.
FIG. 2 is a diagram illustrating an experimental result regarding a correlation between a peripheral speed ratio of a layer regulating roller with respect to a peripheral speed of a developer carrying member and a developer adhesion amount on the surface of the developer carrying member.
FIG. 3 is a diagram showing consistency between experimental results and calculation results regarding the correlation between the peripheral speed ratio of the layer regulating roller with respect to the peripheral speed of the developer carrying member and the developer adhesion amount on the surface of the developer carrying member.
FIG. 4 shows the ratio of the circumferential speed of the layer regulating roller to the circumferential speed of the developer carrying body and the amount of developer attached to the surface of the developer carrying body when the arithmetic average roughness of the developer carrying body and the layer regulating roller is changed. It is a figure which shows the consistency of the experimental result about a correlation, and a calculation result.
FIG. 5 is a graph showing the variation in the amount of adhesion with respect to the product of (F (Ra2) / F (Ra1)) and the peripheral speed ratio V2 / V1.
6 is a ratio (Ra2 / Ra1) of arithmetic mean roughness between the developer carrying member and the layer regulating roller, and a ratio (F (Ra2) / of developer carrying force between the developing carrier and the layer regulating roller. It is a figure which shows the correlation with F (Ra1)).
FIG. 7 is a diagram illustrating a configuration of a developing device according to a second embodiment.
FIG. 8 is a diagram illustrating a setting range of (F (Ra2) / F (Ra1)).
[Explanation of symbols]
1-Development device
10-Photoconductor
11-Developer
12-Toner Hopper
15-feed roller
16-Developing roller
17-Doctor Roller
18-Cleaning blade
70-Photo interrupter
71-Control unit

Claims (3)

An accommodating portion for accommodating the developer;
A developer supply roller for supplying the developer in the container to the surface of the image carrier;
And a layer thickness regulating roller that regulates the layer thickness of the developer attached to the surface of the developer supply roller, wherein the developer supply roller and the layer thickness regulation roller are driven independently of each other. A design method,
The product of the ratio of the conveying force of the layer thickness regulating roller to the conveying force of the developer supply roller and the ratio of the circumferential speed of the layer thickness regulating roller to the circumferential speed of the developer supply roller is the product. Of the developer supply roller and the layer thickness regulating roller so that the value of the layer thickness of the developer having a negative correlation with the value of the developer becomes a value appropriate for the development processing on the image carrier. Set the transport force and peripheral speed , and
When the product of the ratio of the conveying force and the peripheral speed ratio is X, the conveying force and the peripheral speed of the developer supply roller and the layer thickness regulating roller are set so that 0 <X ≦ 10. And a developing device design method. An accommodating portion for accommodating the developer;
A developer supply roller for supplying the developer in the container to the surface of the image carrier;
A layer thickness regulating roller for regulating the layer thickness of the developer adhering to the surface of the developer supply roller;
Control means for separately adjusting the peripheral speeds of the developer supply roller and the layer thickness regulating roller, and
The developer supply roller and the layer thickness regulating roller are driven independently from each other,
The control means is a product of a ratio of a conveyance force of the layer thickness regulating roller to a conveyance force of the developer supply roller and a ratio of a circumferential speed of the layer thickness regulation roller to a circumferential speed of the developer supply roller. The developer supply roller and the developer so that the value of the layer thickness of the developer having a negative correlation with the value of the product becomes a value appropriate for development processing on the image carrier Adjust the peripheral speed of each layer thickness regulating roller , and
Arithmetic average roughness of the developer supply roller and the layer thickness regulating roller so that 1 ≦ Y ≦ 50, where Y is the ratio of the conveyance force of the layer thickness regulating roller to the conveyance force of the developer supply roller. Is set,
The control means calculates a product of a ratio of the conveyance force of the layer thickness regulating roller to the conveyance force of the developer supply roller and a ratio of the circumferential speed of the layer thickness regulation roller to the circumferential speed of the developer supply roller. A developing device characterized in that when X is set, the peripheral speeds of the developer supply roller and the layer thickness regulating roller are adjusted so that 0 <X ≦ 10. Measuring a reflectance of the developer layer held on the developer carrier, and detecting means for detecting an adhesion amount of the toner held on the developer carrier from the measurement result of the reflectance;
The developing device according to claim 2, wherein the control unit adjusts peripheral speeds of the developer supply roller and the layer thickness regulating roller based on a detection result of the detection unit.

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