JPH10133477A - Developing device and method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make a developer charged in a specified potential irrespective of the state of the developer. SOLUTION: In this method, a layer of the developer by scraping off the excess developer out of the developer carried on the developer carrier 12 is formed by means of the layer thickness controlling member 13, the developer to the position opposite to the latent image carrier 3a is transported by the developer carrier 12, and an electrostatic latent image on the latent image carrier 3a is visualized by the developer. At this time, by providing a guiding member 16 on the upstream side of the layer thickness controlling member 13 in the transporting direction of the developer on the developer carrier 12, and shifting the guiding member 16 in the direction brought into contact and uncntact with the developer carrier 12, the size of a space for making the excess developer limited by the layer thickness controlling member 13 and the developer newly transported by the developer carrier circulated is made variable.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a developing device and a method for use in an electrophotographic image forming apparatus such as a copying machine and a printer, and more particularly, to a developing device formed on a latent image carrier such as a photosensitive drum. The present invention relates to a developing device and a method for visualizing a formed electrostatic latent image with a developer.

[0002]

2. Description of the Related Art Conventionally, as this type of image forming apparatus,
For example, a photoconductor drum rotatably disposed, a charging corotron in which a charging voltage is applied between the photoconductor drum, a laser exposure device that exposes the charged photoconductor drum according to image information, The charged developer is transported to a position facing the photosensitive drum, and a developing voltage is applied between the developing device and the photosensitive drum, and is transferred to a transfer material such as paper at a transfer position between the developing device and the photosensitive drum. And a fixing device disposed downstream of the transfer position in the transfer path of the transfer material.

In the image forming apparatus configured as described above,
First, the photosensitive drum is uniformly charged by a charging corotron, and is exposed by a laser exposure device to form an electrostatic latent image on the photosensitive drum. The electrostatic latent image is developed by a developing device to form a toner image. I do. The toner image formed on the drum in this way is transferred to a transfer material passing through a transfer position by a transfer corotron, and further fixed by a downstream fixing device, thereby forming an image on the transfer material.

Incidentally, as a developing device used in such an image forming apparatus, for example, a housing having an opening formed at one end and a developer accommodating chamber communicating with the opening is formed; A developing roll that is disposed so as to adsorb the developer, a trimmer blade that is disposed above the developing roll at a predetermined distance from the developing roll, and a two-component developing device that is disposed in the developer accommodating chamber. And a developer agitating member for agitating the developer, in which a developing roll is disposed so as to face the photosensitive drum.

In the developing device configured as described above, the developer is stirred by the developer stirring member and then adsorbs to the developing roll, and is regulated by the trimmer blade so that the remaining developer is removed from the surface of the developing roll. The photosensitive drum is transported to a position facing the photosensitive drum as the developing roll rotates. Hereinafter, the upstream side in the developer conveying direction by the developing roll is simply referred to as the upstream side, while the downstream side in the developer conveying direction by the developing roll is simply referred to as the downstream side.

The developer conveyed to a position facing the photosensitive drum is subjected to stress by being stirred by a developer stirring member during the conveying process, or is conveyed to a developing roll. The developer may be stressed by being circulated in the circulating flow of the developer formed by the downstream flow of the developer and the return flow (ie, circulating convection) returning upstream due to the remaining developer regulated by the trimmer blade. As a result, the toner image is attached to the electrostatic latent image on the photosensitive drum to form a toner image.

[0007]

In recent years, in such an image forming apparatus, in order to reduce the size of the apparatus, the amount of developer to be accommodated in the developing apparatus at one time has been reduced, or a personal user has been required. In consideration of this, there is a tendency that the developing device is replaced when the developer becomes unusable so that the carrier replacement operation and the toner replenishment operation need not be performed. Therefore, it is important to configure the developing device so that unnecessary stress is not applied to the developer contained in the developing device.

Therefore, conventionally, in order to reduce the stress, the magnetic force of the developing roll in the vicinity of the trimmer blade is suppressed, so that the ability of the developing roll to transport the developer is reduced. Japanese Patent Application Laid-Open No. 6-3963 and Japanese Patent Application Laid-Open No. 7-92815 disclose techniques for reducing the stress on the developer and extending the life of the developer.

However, when the life of the developer is extended by reducing the ability to transport the developer, the developer is required when a large number of images having a high image density are continuously formed. In some cases, it may not be possible to supply the toner to the developing position after being charged to an undesired amount of charge. As a result, density unevenness may occur in the image.

[0010] In order to solve the problem of poor charging when the magnetic force of the developing roll is suppressed, measures such as increasing the rotation speed of the developing roll and increasing the diameter of the developing roll must be taken. However, in this case, as a result, the stress of the developer acting in the circulating flow of the developer is improved, so that the life of the developer cannot be extended.

Japanese Patent Application Laid-Open No. Hei 6-214451 has disclosed that a decrease in the charge amount of a developer due to deterioration of the charging ability with time or environmental fluctuation is detected, and the developing voltage is changed in accordance with the detected value. A technique has been disclosed in which a developer having a low charge amount can appropriately contribute to development by changing it.

However, in the case where the life of the developer is extended by controlling the developing voltage as described above, the deterioration of the developer itself is not suppressed, so that the life of the developer may be shortened. This is not an effective means for extending the life of the developer.

In order to solve the above-mentioned problems, the present invention makes it possible to apply only the stress necessary for maintaining good image quality to the developer, thereby making the life of the developer longer than before. It is an object of the present invention to provide a developing device and a developing method capable of extending the developing time.

[0014]

According to a first aspect of the present invention, there is provided an image forming apparatus, comprising: A developer carrying member for developing an electrostatic latent image with the developer; and a layer thickness regulating member for regulating a layer thickness of the developer on the developer carrying member upstream of the developing position in the direction of transport of the developer. In the method for controlling the developer recirculation in the developing device, the size of the recirculation space for recirculating the remaining developer regulated by the layer thickness regulating member is determined by using the developer, operating the developing device, Agent consumption, environmental conditions of the developing device, development results,
The pressure is changed based on at least one of the reflux pressures.

In the first invention, as described above, the developer is transported to the developing position by the developer carrier,
The layer thickness of the developer is regulated and transported to the developing position by the layer thickness regulating member, and the remaining developer in the layer thickness regulating member is returned upstream from the inside of the layer thickness regulating member in the developer transport direction. The size of a conventionally fixed reflux space (also referred to as a circulation space) formed by the flow of the developer up to the layer thickness regulating member and the reflux (that is, the circulation reflux) returned by the layer thickness regulating member is determined by the reflux. Unnecessary stress is given to the developer by changing based on at least one of the pressure, the development result, the operation state of the development device, the environmental condition of the development device, the use condition of the developer, and the consumption amount of the developer. Therefore, only the stress necessary to maintain good image quality can be applied to the developer. Therefore, the life of the developer can be made longer than before without deteriorating the image quality.

According to a second aspect of the present invention, there is provided a developing device for developing an electrostatic latent image on a latent image carrier which is opposed to a developing position with a developer, wherein the developer is attracted and carried. A developer carrier (12) for transporting the developer to the developing position;
A layer thickness regulating member (13) provided to face the developer carrier upstream of the developing position in the direction of transport of the developer and regulating a layer thickness of the developer on the developer carrier; It is provided adjacent to the upstream of the regulating member in the transport direction of the developer,
A guide member (16, 25) for determining the size of a reflux space for refluxing the remaining developer regulated by the layer thickness regulation member;
And a movable means for moving the position of the guide member.

In the second invention to which the first method is applied, the layer thickness of the developer is regulated by the layer thickness regulating member in the process of being transported to the developing position by the developer carrier. While being transported to the developing position, the remaining developer in the layer thickness regulating member is returned from the inside of the layer thickness regulating member to the upstream of the developer transport direction along the guide member. A conventionally fixed reflux space formed by the flow of the developer along the developer carrying member up to the layer thickness regulating member and the reflux (ie, circulation reflux) returned from the layer thickness regulating member along the guide member. By changing the size by moving the guide member that defines the size by the movable means, it is possible to apply only the stress necessary for maintaining good image quality to the developer without applying unnecessary stress to the developer. Can be. Therefore, the life of the developer can be made longer than before without deteriorating the image quality.

In a second aspect of the present invention, in the developing device according to a preferred aspect, the guide member (16) is a guide surface that guides the reflux in opposition to the developer carrier and an abutment on a surface opposite to the guide surface. A guide part (16a, 16b) having a surface, and a transmission part (16) formed on the contact surface of the guide part so as to extend in a direction opposite to the return space and having a stop part (21a) at its free end. 21), wherein the movable means includes a guide (for example, a guide groove or a guide hole 17a) into which the transmission portion is slidably inserted, and a slide of the guide portion facing a contact surface of the guide portion. An upper limit regulating surface that defines the upper limit of the range (that is, the maximum size of the reflux space) and a lower limit of the sliding range of the guide member that is formed on the surface opposite to the upper limit regulating surface and receives the stopper. The lower limit surface that determines the minimum size of the reflux space) That it is intended to include a support member for moving the guide portion at reflux pressure of the developer (17). With such a configuration, the guide portion can be moved in accordance with the reflux within the range regulated by the upper limit regulating surface and the lower limit regulating surface of the support member. Unnecessary stress can be reduced.

In the second aspect of the present invention, the developing apparatus according to another preferred embodiment further includes a developer use state, a development apparatus operation state, a developer consumption amount, a development apparatus environmental condition, a development result, and a reflux pressure. By providing the control means (23) for controlling the movable means based on at least one of them, it is possible to apply only stress necessary for maintaining good image quality to the developer according to these conditions. Thus, the life of the developer can be made longer than before without deteriorating the image quality. As a result, the charge amount of the developer can be maintained at an appropriate value.

In the developing device according to another preferred embodiment, the developer carrier (12) is a developing roller (12a,
12b), when the layer thickness regulating member (13) is formed of a flat plate elongated in the axial direction of the developing roll, the guide member guides the reflux in opposition to the developer carrier. A guide portion having a guide surface and an abutment surface on the side opposite to the guide surface, and formed on the abutment surface of the guide portion so as to extend in a direction opposite to the return space, and to be stopped at a free end thereof. A movable portion, wherein the movable means is a guide into which the transmitting portion is slidably inserted, and an upper limit that defines an upper limit of a sliding range of the guide portion facing a contact surface of the guide portion. Regulating surface, and formed on the opposite side of the upper limit regulating surface,
A support member for receiving the stop portion and defining a lower limit of a sliding range of the guide member; and a support member for moving the guide portion by a reflux pressure of the developer flowing back, wherein the support member regulates the layer thickness. It is good to be provided so that movement is possible along the inner side of a member. In this way, by using the means for moving the support member as the layer thickness regulating member, it is not necessary to use a dedicated member for moving the support member. Since it can be moved according to the combination of conditions, unnecessary stress on the developer can be appropriately reduced without deteriorating the image quality, and as a result, the charge amount of the developer can be maintained at an appropriate value.

In the developing device wherein the means for moving the supporting member is also used as a layer thickness regulating member, the movable means further includes an actuator (22), and the supporting member of the movable means comprises the layer thickness regulating member. A pin (19) provided at a position to engage with a guide groove formed to be inclined on the inner side surface of the vehicle.
And an abutting portion (20) that abuts the actuator at an end in the longitudinal direction, and the actuator changes a contact amount of the support member with respect to the abutting portion based on the control of the control unit. Is used to move the support member. With this configuration, only the contact amount is changed in accordance with the control from the control unit,
Since the support member can be moved, the movable means can be realized with a simpler configuration in addition to the above-described effects.

In the developing device according to another preferred embodiment, the guide member (16) is movably sandwiched between the guide member (16) and the layer thickness regulating member (13). An entrance / exit regulating member (24) which is provided at an upstream position and regulates the entrance / exit of the reflux to the reflux space.
b) may be provided.

When the inlet / outlet of the reflux is regulated as in this configuration, the operation is opposite to that in the case where the inlet / outlet regulating member is not provided. That is, when the guide member is moved so as to increase the circulation space, the stress on the developer is reduced when the guide member is not provided, but on the other hand,
When an entrance / exit regulating member is provided, the stress on the developer increases. Therefore, usually, the circulation space is narrowed by the guide member, and the developing space is moved to a position where the developing space is widened when the developing density is high, the humidity is high, and the amount of developer consumption is required, such as continuous copying. Can be controlled.

In a second aspect of the present invention, in the developing device according to the third aspect, the guide member (25) is provided adjacent to the upstream side of the layer thickness regulating member in the direction of transport of the developer. A first guide portion (25a) having a first guide surface facing the developer carrier, and a second guide surface forming a reflux guide surface following the guide surface of the first guide portion; A second guide portion (25b) rotatably provided around an end of an adjacent first guide portion, wherein the movable means moves a free end of the second guide portion. Some include. By moving the free end of the second guide by the driving section of the movable means, the size of the entrance and exit of the circulation space changes, so that unnecessary stress is not applied to the developer.
Only the stress necessary to maintain good image quality can be applied to the developer. Therefore, the life of the developer can be made longer than before without deteriorating the image quality.

In the case where the movable means is controlled based on a use state of the developing device, for example, a use period of the developing device, for example, the cumulative operation time of the image forming apparatus is counted, and the developing time is increased as the cumulative time becomes longer. What is necessary is just to control so as to improve the charge amount of the agent. By this control, it is possible to mainly suppress the density fluctuation due to the time-dependent decrease in the charging ability of the carrier.

When the movable means is controlled based on the operation state of the developing device, for example, the operation history of the developing device, for example, the non-operation time of the image forming apparatus is counted,
What is necessary is just to control so that the charge amount of a developer may improve as time becomes long. By this control, the charge is mainly discharged during the non-operation time, and the density fluctuation due to the difference in the charge amount at the start of the operation of the developer can be suppressed.

Next, when controlling the movable means based on the consumption amount of the developer, for example, the consumption amount of the developer is estimated from the pixel information of the output image. Control may be performed so as to improve the charge amount, or to reduce the charge amount of the developer when the consumption amount is small. By this control, it is possible to mainly suppress a decrease in the average charge amount of the developer according to an increase in the amount of the developer supplied to the developing device, and suppress a density fluctuation.

Further, when the movable means is controlled based on the environmental conditions of the developing device, for example, the temperature and humidity around the developing device are detected. On the other hand, in the case of low temperature and low humidity, control may be performed so as to reduce the charge amount of the developer. By this control, it is possible to mainly suppress the density fluctuation caused by the fluctuation of the resistance value of the toner.

Finally, when controlling the movable means based on the development result, for example, a toner image or an output image when developing an electrostatic latent image of a specific potential pattern formed on a latent image carrier is developed. The toner image when the electrostatic latent image is developed is optically detected, and when the density of the toner image is low, the charge amount of the developer is improved. On the other hand, when the density of the toner image is high, In this case, the control may be performed so as to reduce the charge amount of the developer. With this control, it is possible to suppress density fluctuations due to various factors.

The present invention is applicable to both a developing device using a two-component developer and a developing device using a one-component developer.

[0031]

Embodiments of the present invention will be described below with reference to the accompanying drawings.

Embodiment 1 FIG. 1 is a schematic structural view showing a developing device according to the present invention.
This developing device is used in the image forming apparatus shown in FIG.
The image forming apparatus includes a document reading unit 1 for converting an image of an original P ₁ into electrical read image information, an image processing unit 2 for processing the read image information forming a predetermined output image information, the output image an image output unit 3 for forming an image on the transfer material P ₂ in accordance with the information, number of copies, density setting, the input terminals 4a and start switch 4b for setting the image processing mode, such as paper selection is arranged An image processing setting unit 4 and a main control unit 5 that operates the original reading unit 1, the image processing unit 2, and the image output unit 3 according to an image processing mode when an activation signal is input from the activation switch 4b. .

The original reading section 1 includes a transparent platen glass 1a provided on the upper surface of a housing 6 of the image forming apparatus, and an illumination lamp 1b movably provided below the platen glass 1a.
A CCD sensor 1c for sampling the received light to output read image information including a large number of pixel information; and an illumination lamp 1b movably disposed below the platen glass 1a.
Becomes the light reflected by the document P ₁ from a plurality of optical elements 1d for inputting the CCD sensor 1c, is placed on the platen glass 1a by operating the CCD sensor 1c while moving the illumination lamp 1b and the optical element 1d Manuscript P
_One image can be read as read image information including a large number of pixels.

The image processing section 2 performs gamma correction processing, density conversion processing according to settings, and the like on read image information to form output image information including a large number of pixel information.

Further, the image output unit 3 comprises a rotatable photosensitive drum 3a, a charging corotron 3b to which a charging voltage is applied between the photosensitive drum 3a, a charged photosensitive drum 3b. A developing voltage is applied between the laser exposure device 3c that exposes the photosensitive drum 3a for each pixel according to the output image information and the charged developer to a position facing the photosensitive drum 3a and the photosensitive drum 3a. Developing device 3d,
A transfer corotron 3e to which a transfer voltage is applied between the photosensitive drum 3a (hereinafter, a portion between the photosensitive drum and the transfer corotron is referred to as a transfer position);
A cleaning member 3f to clean the surface, the fixing device 3g disposed in the transport path downstream of the transfer material P ₂ than the transfer position
And The image output unit configured as described above uniformly charges the photosensitive drum 3a with the charging corotron 3b and exposes the photosensitive drum 3a with the laser exposure device 3c to form an electrostatic latent image on the photosensitive drum 3a. developing the electrostatic latent image by the developing device 3d to form a toner image, transferring the toner image to the transfer material P ₂ passing through the transfer position at the transfer corotron 3e, fuser 3
By fixing the toner image onto the transfer material P ₂ in g, to form an image corresponding to the output image data on the transfer material P _2. A humidity sensor 7 is provided near the developing device 3d, and the density of the toner image formed on the photosensitive drum 3a is optically measured between the developing device 3d and the transfer corotron 3e. A density sensor 8 is provided.

[0036] Then, the main control unit 5 in the image forming apparatus thus configured, for example, when copying an original P ₁ 5 parts, platen document reader 1 in response to the activation signal from the activation switch 4b after forming the output image data to the image processing unit 2 causes read the original P ₁ on the glass 1a, it is operated five times in accordance with the image output unit 3 to output image information.

Next, the internal structure and operation of the developing device 3d of the present embodiment will be described with reference to FIG. The developing device 3d
A housing 11 in which an opening 9 is formed at a position facing the photosensitive drum 3a and in which a developer accommodating chamber 10 communicating with the opening 9 is formed, and which is rotatably disposed inside the opening 9 to adsorb the developer. Developing roll 12 and developing roll 1
A developer trimmer blade 13 disposed at a predetermined interval above the developing roller 12 at a predetermined interval; a developer stirring member 14 for stirring a two-component developer disposed in the developer accommodating chamber 10; Agent stirring member 14 and developing roll 1
2 and a guide member 1 disposed at a position adjacent to the trimmer blade 13.
6 and a movable member 17 movably disposed above the guide member 16 and holding the guide member. The two-component developer is composed of a magnetic carrier made of ferrite as a core material and coated on the surface thereof with a resin to make it insulating, and a non-magnetic toner.

The developing roll 12 is formed in a cylindrical shape.
An aluminum sleeve 12a rotatably disposed about a rotation axis parallel to the rotation axis of the photosensitive drum 3a;
It comprises a magnet roll 2b fixedly arranged inside the sleeve 12a and having a plurality of magnetic poles formed thereon. The sleeve 12a is formed by a magnetic field formed by the magnet roll 12b.
By rotating the sleeve 12a while adsorbing the developer thereon, the developer can be transported to the developing position facing the photosensitive drum 3a. Also, sleeve 1
The surface of 2a is formed with a predetermined surface roughness, and the ability to transport the developer is improved.

The trimmer blade 13 is formed in a flat plate shape using aluminum, non-magnetic stainless steel, or the like.
A base material fixed and disposed so as to extend over the entire width of the developing roll 12 in the rotation axis direction, and a magnetic stainless steel plate adhered over the entire width of the end portion of the base on the side facing the developing roll 12. Become. The interval between the trimmer blade 13 and the developing roll 12 is set to 0.5 to 0.7 mm,
Of the developer adsorbed on the developing roll 12, a portion of the developer having a thickness equal to or larger than the interval is chipped as excess developer.

The developer stirring member 14 rotates around a rotation axis parallel to the developing roll 12.
And a pair of augers 14a and 14b arranged side by side. Each auger is formed of a non-magnetic metal or plastic in a screw shape, and the rear auger 14b separated from the developing roll rotates to convey the developer from the near side to the far side of the drawing while the front auger 14b. Reference numeral 14a conveys the developer from the back side to the front side of the paper. On the other hand, a partition plate 10a is provided between the pair of augers 14a and 14b.
The housing 11 is spaced apart from the front side surface of the housing 11 and the housing 11 is separated from the rear side surface of the housing 11. Therefore, the developer transported by one auger is applied to the partition plate 1
The developer is circulated in the developer agitating chamber 10 because the developer is supplied to the other auger from the space between Oa and the side surface of the housing. Further, a portion holding the rear auger 14b is formed so as to protrude outward on the side surface on the front side of the paper surface of the housing 11, and an opening is formed above the protruding portion. An outlet of a toner dispenser that conveys toner from the toner replenishing device is provided. The toner dispenser replenishes toner corresponding to the amount of rotation of the toner dispensing motor to the developer stirring chamber 10 through an opening above the protrusion, and the toner supplied to the developer stirring chamber 10 is supplied to the developer circulation path. Is mixed and stirred by being conveyed together with another developer.

The paddle 15 is made of non-magnetic metal or plastic, and has a plurality of blades radially provided around a rotation axis arranged in parallel with the rotation axis of the developing roll 12. Then, a part of the developer conveyed by the front auger 14 a is supplied to the developing roll 12.

The movable member 17 is formed slightly wider than the trimmer blade 13 as shown in FIG.
The trimmer blade 13 is held by two support pins 19, 19 that match the two slits 18, 18 formed in the upper part. A push-up arm 20 is horizontally disposed at one end 17b of the movable member 17, and the slits 18 are formed obliquely with respect to the vertical direction such that one end of the movable member 17 is at the lower end. Therefore, the movable member 1 is moved by moving the push-up arm 20 horizontally.
7 moves up and down (in a direction of coming into contact with and separating from the developing roll 12) along the directions of the slits 18. The push-up arm 20 is provided so as to be fitted in a through hole formed in a side surface of the housing 11 and to have a tip end protruding outside the housing 11.

As shown in the figure, the guide member 16 has a base 16a having a flat surface facing the developing roll 12.
And a protruding portion 16b disposed on a portion of the opposing surface opposite to the trimmer blade 13, and a support arm 21 is provided upright on the upper surface thereof. Further, the support arm 21 is provided with a through hole 17 a formed perpendicularly to the movable member 17.
And is formed longer than the through hole 17a,
A flange 21a larger than the through hole 17a is provided at the top.
Are formed. Therefore, the guide member 16 is hung from the movable member 17 with the flange 21a in contact with the upper surface of the movable member 17, and the movable member 17 is
When it moves in the direction in which it comes into contact with / separates from the developing roll 12, it moves in the direction in which it comes into contact with / separates from the developing roll 12, and changes the size of the space between itself and the developing roll 12.

In the developing device 3d formed as described above, the developer is stirred by the developer stirring
5 to the developing roll 12 and the trimmer blade 13
Is formed as a developer layer on the developing roll 12 by removing the residual developer from the developing roll 12, and further, the developer layer is moved to a position facing the photosensitive drum 3 a with the rotation of the developing roll 12. Conveyed.

At this time, the toner conveyed to the position facing the photosensitive drum 3 a is stirred with the carrier by the developer stirring member 14, or the surplus developer by the trimmer blade 13 and the developing roll 12 are used by the developing roller 12. Is charged by being circulated with the carrier by the circulating flow of the developer formed between the developing roll 12 and the guide member 16 by the developer conveyed to the photosensitive drum 3a. The toner image can be formed by attaching to the latent image.

In this embodiment, the lifting arm 20
Is moved horizontally, thereby changing the size of the space between the guide member 16 and the developing roll 12, changing the flow of the developer circulating in the space, and controlling the charge amount of the developer. be able to.

In this embodiment, as shown in FIG. 4, since the length of the support arm 21 is formed longer than the through hole 17a of the movable member, the flange 21a of the support arm is formed on the upper surface 17c of the movable member. From the lower limit state where
The guide member 16 can be moved in the vertical direction within the range up to the upper limit state where the upper surface 16c of the guide member abuts on the lower surface 17d of the movable member, and is restricted by the upper limit control surface 17c and the lower limit control surface 17d of the support member. Guide member 16 within the range
Can be moved according to the reflux. Therefore, for example, when the movable member 17 is lowered (FIG. 10A), when the guide member 16 receives a pressure stronger than its own weight from the circulating flow of the developer, the flange 21a of the support arm and the movable member 17 Are separated from each other, and the guide member 16 rises relatively to the movable member 17. (FIG. 2B). Therefore, in the present embodiment, even if the movable member 17 is lowered, the guide member 16 is not forcibly lowered, so that unnecessary stress is not applied to the developer. Thereafter, as the developer flows out from between the guide member 16 and the developing roll 12, the pressure acting on the guide member 16 decreases, so that the flange 21a of the support arm finally comes into contact with the movable member 17. The guide member 16 descends to the position shown in FIG. The developing device 3d of the present embodiment is small and unnecessary because the absolute value of the pressure acting on the guide member 16 does not increase so much. However, in a normal developing device or the like, the movable member 17 and the guide member 16 are used. An elastic member such as a spring may be disposed in a compressed state, and the pressure at which the guide member 16 starts to be lifted by the circulating flow of the developer may be appropriately set.

Further, unnecessary stress on the developer can be reduced by a developing device having a simple structure.

Next, a control system for controlling the size of the circulation space of the developer will be described with reference to FIG. The control system according to the present embodiment includes an actuator 22 provided on the image forming apparatus main body side and arranged so as to abut on the push-up arm 20 and movably in the horizontal direction, and a control unit 23 for moving the actuator 22. Become.

As shown in FIG. 6, the actuator 22 moves to a position corresponding to a control signal from the control unit 23. At least the support pins 19, 19 fixed to the movable member 17 The slits 18, 18 can be moved within a range from the upper end to the lower end. When the position of the actuator 22 is set, the movable member 17 is positioned at a position where the push-up arm 20 comes into contact with the actuator 23, and thus the size of the space between the guide member 16 and the developing roll 12 is set. Will be.

Note that, in FIG.
Shows a state in which is most separated from the developing roll 12,
(B) shows a state where the movable member 17 is closest to the developing roll 12. The movable member 17 can move about 3 mm in the vertical direction, and the uppermost position which is the most separated from the developing roll 12 is set to a position where the stress acting on the developer hardly changes even if it is further separated. ing.

The control unit 23 receives from the main control unit 5 information on the set number of copies, the cumulative activation time, the elapsed time since the last activation (unused period), the output image information from the image processing unit 2, Information on the amount of rotation is input from the toner dispensing motor, humidity information is input from a humidity sensor 7 provided near the developing device 3d, and further information is input from a density sensor 8 provided between the developing device 3d and the transfer corotron 3e. And a table memory 23b storing the relationship between these various types of information and the set position of the actuator 22. When the image forming apparatus is activated, the CPU 23a The table memory 23b is searched based on this, and the actuator 22 is moved according to the search result. Note that the accumulated start-up time and the elapsed time from the last start-up (unused period) are measured by the main control unit 5, and the values are stored in the memory.

Specifically, the control unit 23a sets the movable member 17 near the uppermost position since the carrier has not deteriorated and its charging ability is high at the start of use of the developing device,
After a predetermined cumulative activation time has elapsed, control is performed to lower the movable member 17 toward the lowermost position. The predetermined cumulative activation time is set in consideration of, for example, a temporal decrease in the charging ability of the carrier. Hereinafter, the position of the movable member 17 determined by this control is referred to as a standard setting position.

When the unused period is longer than the predetermined elapsed time, the control unit 23 controls the position of the movable member 17 to be lower than the standard setting position for a predetermined period immediately after the start of the start. The predetermined elapsed time, the descent period of the movable member 17, and the amount of descent of the movable member 17 are set in consideration of the state of spontaneous discharge of the developer in the developing device.

Next, the control unit 23 estimates the toner consumption from the output image information and the set number of copies, compares the estimated consumption with the standard consumption when the standard images are continuously formed, and calculates the estimated consumption. When the estimated consumption is less than the standard consumption, the movable member 17 is controlled to be raised from the standard setting position when the estimated consumption is less than the standard consumption. I do. In addition,
The amount of displacement of the movable member 17 is set in consideration of the average amount of decrease in the amount of charge of the toner that occurs when the estimated consumption amount of toner is supplied to the developing device 3d.

Further, the control unit 23 estimates the toner density from the rotation amount of the toner dispense motor, and moves the movable member 17 down from the standard set position when the toner density is predicted to be extremely higher than the standard toner density. On the other hand, if the toner density is predicted to be extremely lower than the standard toner density, control is performed so that the movable member 17 is raised above the standard set position. The movable member 1
7 is set in consideration of the amount of toner generated in the output image, the amount of toner spilled from the developing device, and the like. The rise amount is set in consideration of the degree of stress acting on the toner, the case where the charge amount of the toner becomes excessive, and the like.

Further, the control unit 23 compares the detected humidity from the humidity sensor 7 with the standard humidity, and if the detected humidity is higher than the standard humidity, lowers the movable member 17 from the standard set position. On the other hand, if the detected humidity is lower than the standard humidity, control is performed so that the movable member 17 is raised above the standard setting position. The amount of drop of the movable member 17 is set so as to compensate for the resistance value of the toner under the detected humidity, and the like.

Finally, when the density detected by the density sensor 8 is lower than the desired density, the control unit 23 lowers the movable member 17 from the standard setting position, while the density sensor 8
If the detected density is higher than the desired density, the movable member 1
7 is controlled to be raised from the standard setting position. The amount by which the movable member 17 is lowered is set in consideration of the relationship between the amount of charge of the developer and the image density. Further, the image to be subjected to the density detection may be any image that retains the original density data of the image, and even if it is for an output image, it is an image specially formed for detection. You may.

The various tables set in the control unit 23 are determined by performing a simulation based on each basic data.

When the above-described image forming apparatus of the present embodiment is operated, if the insulating resin is peeled off or toner or the like adheres to the surface, the charging ability of the conventional developing apparatus is insufficient. Even if the carrier is in a state that could not be used, it can be used without causing fogging or blurring, and the use period of the carrier until the state can be extended, so that it can be used for a long time The developer could be charged to a predetermined charging potential over the entire period.

In the image forming apparatus according to the present embodiment, when the developer is in use, the length of the unused period varies, and
A constant charge of the developer regardless of fluctuations in humidity, fluctuations in developer consumption (especially when high-density images are formed), fluctuations in toner concentration, or fluctuations in the amount of developer in the developing device. It was possible to charge to a sufficient amount, and there was no occurrence of a decrease in density caused by excessive charging or a blur caused by insufficient charging.

FIG. 7 shows the life of the carrier when the guide member 16 is fixed to the uppermost position and the life of the carrier when the guide member 16 is fixed to the lowermost position. Tribo product value (TP value) shown on the vertical axis in FIG.
Is obtained by multiplying the charge amount of the toner by the toner density. When the TP value falls below a certain value, the life of the carrier is determined. As is clear from the figure,
When the guide member is fixed at the uppermost position, the life of the carrier is about 1.5 times longer than when the guide member is fixed at the lowermost position.

On the other hand, as shown in Table 1, when the guide member 16 is fixed at the uppermost position, the toner cannot be sufficiently charged when a large number of originals having many solid black portions are continuously formed. As a result, the density of the solid black portion is reduced and density unevenness occurs. When the guide member 16 is fixed at the uppermost position, the density of the solid black portion is slightly reduced and the density unevenness is slightly generated.

[0064]

[Table 1]

Embodiment 2 In Embodiment 2, instead of forming the circulating flow of the developer only by the guide member 16 of Embodiment 1, as shown in FIG. 8A, the developer is arranged adjacent to the trimmer blade 13. The movable guide member 24a and the fixed guide plate 24b disposed adjacent to the movable guide member 24a on the side opposite to the trimmer blade 13 are configured to form a circulating flow of the developer. The second embodiment is the same as the first embodiment except that a part of the control is changed.

The moving guide member 24a includes a fixed guide plate 24b.
Has a shape protruding toward the developing roll 12, and the surface facing the developing roll 12 is formed as one continuous curved surface. Therefore, the movement guide member 24
The developer does not stay in the corner formed between the fixed guide plate 24a and the fixed guide plate 24b. Further, the movement guide member 24a is held by the movable member 17 in the same manner as the guide member 16 of the first embodiment, and is arranged so as to be movable in a direction of coming and coming from the developing roll 12. Therefore, the movement guide member 24a does not apply unnecessary stress to the developer (FIG. 8B).
And (c)).

As shown in FIG. 9, in the present embodiment, unlike the first embodiment, the movement guide member 24a is fixed at the lowermost position (broken line).
When a is fixed at the uppermost position (solid line), the toner impaction amount increases faster. This toner impaction amount indicates the amount of toner attached to the carrier surface, and is an index of the life of the carrier together with the external additive impaction amount indicating the amount of the external additive attached to the carrier surface. is there. As the amount of toner impaction or the amount of external additive impact increases earlier, higher stress acts on the developer, and the charge amount of the toner increases, but the life of the carrier is shortened. In the second embodiment, the reason that the stress increases as the moving guide member 24a is raised is that the amount of the developer flowing into the circulation space increases by raising the moving guide member 24a. It is considered that the reason for this is that since the entrance of the developer is relatively narrow, the time during which each developer stays in the circulation space becomes longer, and the stress acting on each developer increases.

Accordingly, the control unit 23 lowers the movable member 17 at the beginning of use of the apparatus and under normal image forming conditions, and detects the longer the cumulative start-up time and the higher the humidity, the more the detection becomes. The lower the density, the greater the amount of developer consumed per unit time determined by the number of copies and output image information (for example, when copying high-density documents continuously), the more the rotation of the dispense motor. As the amount increases, and as the elapsed time from the last activation increases, the actuator is moved so as to raise the movable member 17,
The charge amount of the toner was optimized. In addition,
When the movable member 17 rises, the movement guide member 24a also rises, and the space between the movement guide member 24a and the developing roll 12 increases.

When the image forming apparatus according to the second embodiment was operated, the developer could be charged to a predetermined charging potential for a longer period than in the first embodiment.

In the image forming apparatus according to the second embodiment,
In the use state of the developer, regardless of the fluctuation of the length of the unused state, the fluctuation of the humidity, the fluctuation of the consumption amount of the developer, the fluctuation of the toner concentration, or the fluctuation of the amount of the developer in the developing device, etc. The developer can be charged to a fixed charge amount,
There was no occurrence of a decrease in density caused by excessive charging or blurring caused by insufficient charging.

Embodiment 3 In Embodiment 3, as shown in FIG. 10, the guide member is fixed horizontally on the side surface of the trimmer blade 13 on the upstream side in the developer conveying direction, and the first member opposes the developing roll 12. A fixed guide plate 25a having a guide surface 25c;
A movable guide plate 25b is rotatably disposed at the distal end portion a through a hinge 26, and has a second guide surface 25d that forms a recirculation guide surface together with the guide surface of the first guide portion. And the control unit 23 controls a stepping motor that can rotate forward and reverse to rotate the movement guide plate 25b, and is the same as the first embodiment.

Accordingly, in the present embodiment, as shown in FIG. 7A, when the movable guide plate is rotated and its free end is lowered, the space between the developing roll and these guide plates is reduced. , As shown in FIG.
Is rotated and its free end rises, the space between the developing roll 12 and these guide plates becomes larger.

In this embodiment, the movement guide plate 25b
When the free end of the developer drops, the charge amount of the developer increases.
The control unit 23 increases the consumption amount of the developer per unit time determined by the number of copies and the output image information as the cumulative start-up time becomes longer, the humidity becomes higher, and the detected density becomes lower. The free end of the moving guide plate 25b is lowered as the rotation amount of the dispense motor increases and the elapsed time from the last start-up increases.

When the image forming apparatus was operated, the developer could be charged to a predetermined charging potential for a long period of time.

In the image forming apparatus, when the developer is in use, the length of the unused period varies, the humidity varies,
Fluctuations in developer consumption, fluctuations in toner concentration, or
The developer can be charged to a constant charge amount irrespective of fluctuations in the amount of the developer in the developing device, and there is no occurrence of a density reduction that occurs when charging is excessive or a blur that occurs when charging is insufficient.

[0076]

As described above, in the present invention, the excess developer limited by the layer thickness regulating member is provided on the upstream side in the developer transport direction of the developer by the developer carrier with respect to the layer thickness regulating member. The charge amount of the developer can be changed by changing the size of the space for circulating the developer and the developer newly transported by the developer carrier, so that the developer is charged to a desired charge amount. be able to.

Therefore, according to the present invention, the charge amount of the developer can be adjusted so as to match the designed value, and a desired image quality can be obtained more reliably and easily than in the prior art.

Further, according to the present invention, since the developer can be charged to a desired charge amount without applying unnecessary stress to the developer, a more stable image quality than before can be obtained for a longer time than before. It is possible to get across.

Further, according to the present invention, when a developer having a reduced charging ability is used, or when a small-diameter developing roll is used as a developer carrier for downsizing of the apparatus, the developer carrier is moved to a lower conveying speed. Even when the developer is operated in such a manner, the developer can be charged to a predetermined charge amount by changing the size of the circulation space of the developer so as to compensate for the shortage of the charge amount of the developer caused by them. It is possible to obtain a constant image quality for a longer time than before.

[Brief description of the drawings]

FIG. 1 is a vertical sectional view of a developing device according to a first embodiment of the present invention.

FIG. 2 is a conceptual diagram of a configuration of an image forming apparatus to which the developing device of FIG. 1 is applied.

FIG. 3 is an exploded perspective view of a main part of the developing device of FIG. 2;

FIG. 4 is an operation explanatory view when the guide member is lowered.

FIG. 5 is an explanatory diagram of a control system of the developing device of FIG. 2;

FIG. 6 is an explanatory view of the operation of the guide member and its peripheral portion.

FIG. 7 shows basic test data of the developing device of FIG.

FIG. 8 is a vertical sectional view of a main part of a developing device according to a second embodiment.

FIG. 9 shows basic test data of the developing device shown in FIG.

FIG. 10 is a vertical sectional view of a main part of a developing device according to a third embodiment.

[Explanation of symbols]

3a: photosensitive drum, 12: developing roll, 13: trimmer blade, 16, 24, 25: guide member, 17, 2
0, 22, 23: movable means.

Claims (8)

[Claims] 1. A developer carrying member for adsorbing and carrying a developer to a developing position, and developing the electrostatic latent image on the latent image carrier with the carried developer, and carrying the developer from the developing position. And a layer thickness regulating member for regulating the layer thickness of the developer on the developer carrier upstream in the direction, wherein the remaining developer regulated by the layer thickness regulating member is refluxed. The size of the reflux space to be changed is changed based on at least one of a developer use state, a development device operation state, a developer consumption amount, a development device environmental condition, a development result, and a reflux pressure. A method for controlling a developer reflux. 2. A developing device for developing an electrostatic latent image on a latent image carrier opposed to a developing position with a developer, wherein the developer carrier adsorbs and carries the developer and transports the developer to the developing position. A layer thickness regulating member provided to face the developer carrier upstream of the developing position in the direction of transport of the developer, and regulating a layer thickness of the developer on the developer carrier; A guide member that is provided adjacent to the upstream of the member in the direction of transport of the developer and that determines the size of a reflux space for returning the remaining developer regulated by the layer thickness regulating member; and moving the position of the guide member. And a movable means for causing the developing device to operate. 3. The developing device according to claim 2, wherein the guide member has a guide surface facing the developer carrier and guiding reflux, and a contact surface opposite to the guide surface. And a transmitting portion formed on the contact surface of the guide portion in a direction opposite to the return space and having a stop portion at a free end thereof, wherein the movable means is configured such that the transmitting portion slides. A guide movably inserted, an upper limit regulating surface that defines an upper limit of a sliding range of the guide portion facing a contact surface of the guide portion, and a stopper formed on a surface opposite to the upper limit regulating surface; A developing device having a lower limit surface that determines a lower limit of a sliding range of the guide member in response to the portion, and includes a support member that moves the guide portion by a reflux pressure of the developer that refluxes. 4. The developing device according to claim 2, wherein at least one of a use state of the developer, an operation state of the development device, a consumption amount of the developer, an environmental condition of the development device, a development result, and a reflux pressure. A developing device comprising: a control unit that controls the movable unit based on the control unit. 5. The developer carrying member is a developing roll,
5. The developing device according to claim 4, wherein the layer thickness regulating member is formed as a flat plate that is elongated in the axial direction of the developing roll. 5. The guide device, wherein the guide member faces the developer carrier and guides reflux. A guide portion having a contact surface opposite to the guide surface, and a transmission formed on the contact surface of the guide portion so as to extend in a direction opposite to the return space and having a stop portion at a free end thereof. A movable part, wherein the movable means is a guide into which the transmitting part is slidably inserted, an upper limit regulating surface that opposes a contact surface of the guide part and determines an upper limit of a sliding range of the guide part, and A lower limit surface that is formed on a surface opposite to the upper limit surface and that determines a lower limit of a sliding range of the guide member in response to the stopper; A support member is included, and the support member is included in the layer thickness regulating member. Developing apparatus is characterized in that is provided movably along the surface. 6. The developing device according to claim 5, wherein the movable means includes an actuator, and a support member of the movable means engages with a guide groove formed to be inclined on an inner surface of the layer thickness regulating member. And a pin provided at a position to be contacted, and a contact portion that contacts the actuator at an end in the longitudinal direction, based on the control of the control unit,
The developing device according to claim 1, wherein the actuator moves the support member by changing a contact amount of the support member with respect to a contact portion. 7. The developing device according to claim 4, further comprising a guide member movably sandwiched between the guide member and the layer thickness regulating member, at a position upstream of the guide member in the developer conveyance direction. A developing device further comprising an entrance / exit regulating member for regulating an entrance / exit of the reflux to the reflux space. 8. The developing device according to claim 2, wherein the guide member is provided adjacent to an upstream side of the layer thickness regulating member in a developer transport direction, and the first guide member faces the developer carrier. A first guide portion having a guide surface of a first guide portion and a second guide surface forming a return guide surface following the guide surface of the first guide portion. And a second guide portion rotatably provided as a movable member, wherein the movable means includes a drive portion that moves a free end of the second guide portion.