The entire disclosure of Japanese patent application No. 2017-014443, filed on Jan. 30, 2017, is incorporated herein by reference in its entirety.
The present invention relates to a developing device and an image forming apparatus.
Conventionally, as a developing system in image foil ling apparatuses using an electrophotographying system, two-component developing systems using two-component developer in which toner and carrier are mixed, have been known.
Generally, a developing device of such a two-component developing system includes a reservoir that mixes and stirs replenished toner with two-component developer, and the developing device is constituted so as to supply developer from the reservoir to a developing roller and to return again the developer, in which toner has been consumed at a developing position of the developing roller, to the reservoir.
For example, Patent Literature 1 (Japanese Unexamined Patent Publication No. 10-228175) discloses a developing device that includes a developing roller and a circulation conveyance passage disposed so as to adjoin the developing roller. The above circulation conveyance passage includes two conveyance screws that have respective conveyance directions opposite to each other and are disposed to become above and below each other in the inside, and communication ports disposed separately on the both side of the two conveyance screws, so that the circulation conveyance passage conveys developer circularly through the communication ports and functions as a reservoir.
With the constitution like Patent Literature 1 that supplies developer to the developing roller by the conveyance screw, image density unevenness may occur because of uneven developer supply.
For example, in a developing device disclosed by Patent Literature 2 (Japanese Unexamined Patent Publication No. 2012-42839), in order to prevent image density unevenness caused by developer supply unevenness due to a screw pitch of a conveyance screw to supply developer to a developing roller, a buffer chamber and a scraper are disposed to face a conveyance screw for supplying so as to unify a supply amount of developer to a developing roller by the conveyance screw in an axial direction.
By the way, as image density unevenness caused by the supplying of developer to a developing roller, in addition, there is so-called ghost development (also, referred to as “development ghost”). Herein, the ghost development means density unevenness which occurs because replacement of the developer supported on a developing roller made for each rotation is insufficient. This phenomenon is caused by the fact that, when a toner image is formed on a photoconductor drum by consuming toner supported on a developing roller at a developing position, the influence of the toner consumption during the previous rotation remains on the surface of the developing roller even on the next rotation.
In particular, in the developing device disclosed by Patent Literature 1, in the case where an amount of developer increases on the side of the conveyance screw for conveying developer collected by being peeled off from the developing roller, the increased developer disturbs the flow of developer peeled off from the developing roller, which results in the lowering of peeling ability. For this reason, the replacement of the developer supported by the developing roller becomes insufficient, and ghost development becomes easy to occur.
Moreover, the developing device disclosed by Patent Literature 2 controls the amount of developer at the conveyance screw on the side of supplying to the developing roller, and does not control the amount of developer at the conveying screw on the side of recovery.
The present invention has been achieved in view of the above-described circumstances, and an object of the present invention is to provide a developing device and an image forming apparatus capable of preventing occurrence of ghost development stably even in a case where an amount of developer increases in the developing device.
To achieve at least one of the abovementioned objects, according to an aspect of the present invention, a developing device reflecting one aspect of the present invention, includes: a first storage chamber that stores developer; a first conveyor that is disposed in the first storage chamber and conveys developer; a developer supporter that is disposed so as to face an image supporter, supports developer conveyed from the first conveyor, and conveys the supported developer to a developing position where an electrostatic latent image formed on the image supporter is developed; a second storage chamber that stores developer conveyed via the developing position and communicates with the first storage chamber at a confluent opening; a second conveyor that is disposed in the second storage chamber and conveys developer conveyed via the developing position toward the confluent opening; and a third storage chamber that stores developer overflowing in a case where an amount of developer in the second storage chamber becomes a predetermined amount or more.
The advantages and features provided by one or more embodiments of the invention will become more fully understood from the detailed description given hereinbelow and the appended drawings which are given by way of illustration only, and thus are not intended as a definition of the limits of the present invention.
Hereinafter, one or more embodiments of the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the disclosed embodiments. In the description of the drawings, the same element is provided with the same sign, and duplicate description is omitted. Since dimension ratios in the drawings are exaggerated on account of description, the ratios may be different from the respective actual ratios. In the drawings, a vertical direction is set to a Z direction, a direction from one face of the front face and the rear face to the other face in an image forming apparatus is set to a Y direction, and a direction orthogonal to each of the X and Z directions is set to an X direction. Moreover, the Y direction serves also as a rotation axis direction of each of a developing roller and a stirring roller in a developing device installed in an image forming apparatus described below. Furthermore, hereinafter, the X direction may be called a left-right direction, and the Y direction may be called a front-back direction (or front-rear direction).
As shown in
The processor 10 includes a CPU, a RAM, a ROM, a HDD (hard disk drive), etc., and controls the whole image forming apparatus 100.
The operation display 20 includes a touch panel, a ten key, a start button, a stop button, etc., receives various kinds of settings from a user, and pedal ins display for the user.
The image former 30 includes an exposure unit 31, a photoconductor drum 32, a developing device 50, a primary transfer roller 33, an intermediate transfer belt 34, a secondary transfer roller 35, and a fixing device 36.
Among these components, each device of the exposure unit 31, the photoconductor drum 32, the developing device 50 and the primary developer transfer roller 33 includes multiple equivalent devices, and the multiple equivalent devices correspond to, in the order from the top, respective colors of Y (yellow). M (magenta), C (cyan), and K (black). In
Although the details about the constitution of the developing devices 50 are described later, in each of the developing devices 50, developer in which carrier and toner with a color corresponding to one of the colors are mixed, is stored. After a surface of the photoconductor drum 32 has been electrically charged uniformly with charging electrodes (not shown), the surface is exposed with the exposure unit 31, whereby an electrostatic latent image corresponding to image data is formed on the surface of the photoconductor drum 32. The developing roller 53 and the photoconductor drum 32 are arranged so as to face each other, and a region faced between them becomes a developing position where developing is performed (refer to
On this developing position, the electrostatic latent image on the photoconductor drum 32 is developed by the developing device 50, and a toner image is formed. Toner images formed separately on the respective photoconductor drums 32 are transferred with the respective primary transfer roller 33 onto the intermediate transfer belt 34 on which the toner images are superimposed on each other. Thereafter, a full color toner image formed by the superimposed toner images is transferred by the secondary transfer roller 35 onto a conveyed sheet S. The sheet on which the full color toner image has been transferred is conveyed to the fixing device 36 on the downstream side, and then, is subjected to heating and pressure applying process, whereby a full color image is formed on the sheet S.
The sheet feed conveyor 40 includes a plurality of sheet feed trays 41 and a sheet conveyance passage 42.
In the sheet feed tray 41, a plurality S of sheets S are loaded, and a sheet S is fed out one sheet by one sheet from the uppermost position. The sheet conveyance passage 42 includes a plurality of conveyance roller pairs arranged along the sheet conveyance passage 42, and driving motors (not shown) to drive these conveyance roller pairs, and conveys a sheet S fed out from the sheet feed tray 41 to the transfer position of the secondary transfer roller 35 and the fixing apparatus 36 on the downstream side of the transfer position.
On the toner replenisher 60, a plurality of toner bottles each storing developer containing toner with a color corresponding to one of the colors and carrier, are replaceably loaded, and the toner replenisher 60 conveys and replenishes developer stored inside each of the toner bottles to one of the developing devices 50 corresponding to one of the colors. In the present embodiment, the trickle development system (also called AR (Auto-Refining Developing System) system) is adopted. In the trickle development system, while a part of developer is discharged (discarded) little by little on the photoconductor, new developer is replenished, thereby suppressing the deterioration of the developer. The developer filled up in a toner bottle and replenished by the toner replenisher 60 from the toner bottle is made to have a toner weight ratio of, for example, 80 to 95%. In the developing device 50, toner is consumed by development. Accordingly, in order to maintain a predetermined toner concentration (toner weight ratio), for example, from 5% to 10%, developer containing toner in an amount corresponding to the consumption of the toner is supplied to the inside of the developing device 50 by the toner replenisher 60 via a toner replenishment port (developer supply port) 94 (refer to
As shown in the cross sectional view in
A part of the developer conveyed by the stirring screw 522 at the lower part is conveyed to the developing roller 53 located on an obliquely upper side. The developing roller 53 includes a plurality of magnetic poles located fixedly in the inside and a sleeve rotating around the outer peripheral surface of the magnetic poles, and supports developer on the surface of the sleeve. The developing roller 53 functions as a “developer supporter”. On a position of the second storage chamber 542 facing the developing roller 53, a peeling member (also, referred to as a peeling position) in which a magnetic pole with the same polarity is arranged so as to adjoin the developing roller 53, is disposed.
The developer supplied from the stirring screw 522 at the lower side is supported on the surface of the rotating developing roller 53, passes through the developing position, is peeled off at the peeling position, and then, is conveyed to the second storage chamber 542. Thereafter, the developer is conveyed by the stirring screw 523 to the back side (arrow direction) in
Moreover, as shown in
In the case where the bulkiness (liquid level or uppermost level of developer) of the developer stored in the second storage chamber 542 moves upward and the developer overflows from the second storage chamber 542, the third storage chamber 543 stores this overflowing developer. Thereafter, in the case where the overflowing of the developer from the second storage chamber 542 is cancelled and the bulkiness of the developer moves downward, the developer slides down along the slope surface fl of the side wall 51c and returns to the second storage chamber 542.
As compared with the developing device 50a shown in
In the case where the bulkiness of the developer becomes higher than the top surface e1 of the side wall 51a, the flow of the developer from the developing roller 53 on the more upstream side than the second storage chamber 542 is inhibited. After toner has been consumed at the developing position from the developer having been conveyed from the first storage chamber 541 and being supported on the developing roller 53, ideally, all the developer remaining on the developing roller 53 is peeled off from the developing roller 53 at a peeling position near the top surface e1. However, in the case where developer is stagnating in the vicinity of the top surface e1, the peeling-off at the peeling position is inhibited. As a result, the developer having passed through the developing position is supported again on the surface of the developing roller 53, and thereafter, is conveyed again to the developing position. That is, due to the lowering of the peeling ability, the replacement of developer becomes insufficient. Accordingly, since the influence of the toner consumption in the previous development process performed immediately-before remains on the current development process, the lowering of image density, i.e., ghost development occurs on the current development process.
In contrast, in the developing device 50a according to the present embodiment, the third storage chamber 543 is disposed. Accordingly, in the case where developer overflows from the second storage chamber 542, the overflowing developer is stored in this third storage chamber 543. With this, even if the amount of developer in the developing device has increased, the increasing of the amount of developer in the second storage chamber can be suppressed. Accordingly, the peeling ability is not inhibited, and it becomes possible to prevent the occurrence of ghost development.
With reference to
Unlike the developing device 50a according to the first embodiment, in the developing device 50b according to the second embodiment, a communication path 95 is disposed. The communication path 95 adjoins the third storage chamber 543, is disposed on a side opposite to the second storage chamber 542, and is extended in a vertical direction. The communication path 95 connects the second storage chamber 542 on the upper side and the first storage chamber 541 on the lower side.
The height of the top surface e3 of the side wall 51c disposed on the communication path 95 side in the third storage chamber 543 is lower than the height of the top surface e1 of the side wall 51a on the side near the developing roller 53 in the second storage chamber 542. Therefore, in the case where the bulkiness of the developer stored in the second storage chamber 542 and the third storage chamber 543 exceeds the top surface e3, the developer gets over the side wall 51c, and falls to the first storage chamber 541 via the communication path 95. With this, the bulkiness of the developer in the second storage chamber 542 does not become higher than the top surface e1.
In this way, in the developing device 50b according to the second embodiment, by disposing the communication path 95, the similar effect in the first embodiment can be acquired, and in addition, it becomes possible to lower the bulkiness of developer stored in the second storage chamber 542 to the top surface e3 or less. Accordingly, it is possible to prevent effectively the occurrence of the ghost development.
In the developing device 50a according to the first embodiment, the third storage chamber 543 is disposed so as to adjoin the entire region, in the Y direction, of the second storage chamber 542. In contrast, in the developing device 50c of the third embodiment, as shown in
In the case where the bulkiness of the developer in the first storage chamber 541 increases, the conveyance of the developer from the confluent opening 93 is inhibited. In that case, in the third storage chamber 543, the developer stagnates in the vicinity of the confluent opening 93. Therefore, it is preferable to dispose the third storage chamber 543 in the vicinity of the confluent opening 93. In that case, like the developing device 50c of the third embodiment, even in the case where the third storage chamber 543 is disposed only in the vicinity of the confluent opening 93, it is possible to acquire the same effect as that in the developing device 50a according to the first embodiment.
In the developing device 50d according to the fourth embodiment, by shaping the third storage chamber 543 into such a form, it becomes possible to acquire the same effect as that in the developing device 50c according to the third embodiment.
In the developing device of each of the third and fourth embodiments, similarly to the second embodiment, the communication path 95 may be disposed so as to adjoin the side wall 51c on a farther side from the developing roller 53.
In the developing devices 50b, 50c, and 50d corresponding to the second, third, and fourth embodiments respectively, the position of the communication path 95 is constituted such that the developer having slidden down through the inside of the communication path 95 falls in the vicinity of the stirring screw 521 on the right side of the partition wall 51d in the first storage chamber 541. However, the present invention should not be restricted to this example. It may be constituted such that by shifting the partition wall 51d relatively to the right side, the developer having passed via the communication path 95 falls to the stirring screw 522 side.
In this way, in the developing device 50e according to the fifth embodiment, the developer having not been conveyed downward from the confluent opening 93 is stored in the third storage chamber 543 disposed on the end portion side of the stirring screw 523b in the rotation axis direction, whereby the same effect as the first embodiment can be acquired.
In the developing device 50f, the developer conveyed to the third storage chamber 543 is pushed out, and returns from the toner replenishment port 94 to the first storage chamber 541 via the communication path 561.
In this way, in the developing device 50f according to the sixth embodiment, in the case where the amount of the developer stored in the third storage chamber 543 disposed at one end portion side of the stirring screw 523b in the rotation axis direction increases, the developer can be directly returned from the communication path 561 to the first storage chamber 541. Accordingly, similarly to the second embodiment, it becomes possible to further lower the bulkiness of the developer stored in the second storage chamber 542, and it is possible to prevent effectively the occurrence of ghost development.
In the case where the processor 10 has determined on the basis of detection signals of the detection sensor 57 that a predetermined amount or more of developer has been stored in the third storage chamber 543, the processor 10 sets the opening and closing shutter 58 to an opening state. With this, the developer stored in the third storage chamber 543 falls to the first storage chamber 541 via the communication path 95. Thereafter, in the case where the processor 10 has determined on the basis of detection signals of the detection sensor 57 that a predetermined amount or more of developer has not been stored in the third storage chamber 543, the processor 10 switches the opening and closing shutter 58 to an closing state. In the eighth embodiment, it is preferable that the side wall 51c (refer to
In this way, in the developing device 50h according to the eighth embodiment, by disposing the detection sensor 57 and the opening and closing shutter 58, and by controlling the opening and closing shutter 58 with the processor 10 on the basis of the detection signal of the detection sensor 57, it becomes possible to acquire the same effect in the second embodiment. In addition, by opening the opening and closing shutter 58, it becomes possible to immediately discharge the developer in the third storage chamber 543 to the first storage chamber 541, whereby it is possible to prevent the occurrence of ghost development more effectively.
Similarly to the above-described developing roller 53, each of the first and second developing roller 531 and 532 and the stripping roller 533 includes a plurality of magnetic poles arranged to be fixed in its inside and a sleeve rotating around the outer peripheral surface of the magnetic poles, and supports developer on the surface of the sleeve. For example, the outside diameter of each of the first and second developing roller 531 and 532 is 25 mm, and the outside diameter of the stripping roller 533 is 20 mm. As shown in
The peeling roller 533 functions also as a “peeling member” that strips off developer supported by the second developing roller 532 and conveys the developer to the downstream side.
In the first embodiment, the example equipped with a single developer supporter (developing roller 53) has been shown. However, the developing device may be equipped with a plurality of developer supporters like the developing device 50i according to this ninth embodiment. Moreover, the developing device 50i is equipped with a plurality of developing rollers. However, the developing device may be equipped with a single developing roller and a single peeling roller. Moreover, for the developing device relating to each of the second to eighth embodiments, similarly, the constitution equipped with such a plurality of developer supporters may be applied. Further more, as the peeling member, in place of the stripping roller 533, a plate-shaped peeling plate may be constituted so as to be disposed in the vicinity of the peeling position of the developing roller 53.
In such a developing device 50i according to the ninth embodiment, it is possible to acquire the same effects as those in the first to eighth embodiment
In order to verify the effects of each of the above-described embodiments, while an amount of developer in a developing device was increasing stepwise by 100 g from 1100 g to 1400 g, an occurrence situation of ghost development was evaluated on the basis of the following evaluation indexes. Herein, an amount of 1100 g is an initial developer amount on a design basis. At the time of replenishing developer including a mixture of toner and carrier from the toner replenishment port 94, in the case where the balance between a discharging amount from the developing device and a replenishing amount of developer (i.e., a consumption amount of toner corresponding to a printing rate) has collapsed, the amount of developer in the developing device may increase gradually.
(Evaluation Index)
A solid image in a form of a longitudinal band with a length of an A3 size was printed, and then, a reflected image density (ID) at each of the leading end and the trailing end of the output printed matter was measured. A change (ΔID) between the reflected image density (ID) at the leading end and the reflected image density (ID) at the trailing end was evaluated as ghost development.
ΔID=ID at an image leading end−ID at an image trailing end
(Evaluation Conditions)
The developing devices used for the evaluation were as follows.
Developing device 50x (
Developing device 50b (
Developing device 50a (
Developing device 50e (
Developing device 50h (
(Results)
The results are shown in a graph in
On the other hand, in Examples 1 to 4, even in the case where an amount of developer increases, ΔID does not increase. The reasons why ΔID does not increase, are as follows. An increase in an amount of developer in the second storage chamber 542 is difficult to occur. Accordingly, the replacement ability of the developer supported on the developing roller 53 does not lower due to the increasing of an amount of developer, and the peeling ability is hardly influenced.
In the above-described constitutions of the developing device and the image forming apparatus, description has been given for main constitutions in order to describe the feature of each of the above described embodiments. Accordingly, the present invention should not be limited to the above constitutions, and various modifications may be made within the scope of claims. Moreover, it is not intended to exclude the constitutions which general developing device and image forming apparatus are equipped with.
The example where two stirring screws are disposed in the first storage chamber has been shown. However, without being limited to this example, a single stirring screw or three or more stirring screws may be disposed. Moreover, the example where the spiral blade is used as a stirring screw has been shown. However, without being limited to this example, a paddle-shaped blade may be used, or a paddle-shaped blade and a spiral blade may be attached onto a single rotation shaft.
Although embodiments of the present invention have been described and illustrated in detail, the disclosed embodiments are made for purpose of illustration and example only and not limitation The scope of the present invention should be interpreted by terms of the appended claims.
Number | Date | Country | Kind |
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2017-014443 | Jan 2017 | JP | national |