Patent Grant
10120301
This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2017-092347 filed on May 8, 2017, the entire contents of which are incorporated herein by reference.
The present disclosure relates to a developing device and an image forming apparatus including the same, and in particular, to a developing device including a first conveyance chamber and a second conveyance chamber arranged above the first conveyance chamber, the first and second conveyance chambers each having arranged therein a stirring-conveyance member for stirring and conveying a developer, and an image forming apparatus including such a developing device.
In an image forming apparatus, an electrostatic latent image formed on an image carrier, such as a photosensitive body, is developed and visualized as a toner image by a developing device. A known example of such a developing device is a developing device that includes a developing container which contains a developer, a first stirring-conveyance member and a second stirring-conveyance member which stir and convey the developer, and a developing roller (a developer carrier) which carries thereon the developer supplied thereto from the second stirring-conveyance member. The first stirring-conveyance member conveys the developer to one side in an axial direction of the developing roller, and the second stirring-conveyance member supplies the developer to the developing roller, while conveying the developer to the other side (opposite side of the one side).
Now, in recent years, there has been an increasing demand for compact image forming apparatuses, and in particular, in color image forming apparatuses, in which a plurality of developing devices are arranged, there has been a demand for compact developing devices.
In this regard, there is known a developing device that includes a first conveyance chamber in which a first stirring-conveyance member is arranged and a second conveyance chamber which is arranged above the first conveyance chamber and in which a second stirring-conveyance member is arranged. Such a developing device can be made compact in the horizontal direction by arranging the first conveyance chamber and the second conveyance chamber one above the other. Accordingly, it is possible to reduce space for installing developing devices, and thus, to achieve compact image forming apparatuses.
Conventionally, there has also been known a developing device which includes a first stirring-conveyance member and a second stirring-conveyance member which stir and convey a developer, a first conveyance chamber in which the first stirring-conveyance member is arranged, and a second conveyance chamber in which the second stirring-conveyance member is arranged, the first stirring-conveyance member including a rotary shaft, two spiral blades (a double-spiral blade) formed on the outer peripheral surface of the rotary shaft to convey the developer in a first direction, and a reverse spiral blade which is opposite in winding direction to the two spiral blades and arranged downstream of the two spiral blades in the first direction.
In this developing device, when the first stirring-conveyance member rotates, the reverse spiral blade applies, to the developer, conveying force in a direction that is opposite to the direction in which the developer is conveyed by the two spiral blades. This conveying force in the opposite direction applies pressure such that the developer becomes heaped up high on a downstream side in the first conveyance chamber, and thereby, the developer is conveyed from the first conveyance chamber into the second conveyance chamber.
According to one aspect of the present disclosure, a developing device includes a developing container, a first stirring-conveyance member, a second stirring-conveyance member, and a developer carrier. The developing container includes a first conveyance chamber and a second conveyance chamber arranged above the first conveyance chamber, and contains a developer which contains a toner. The first stirring-conveyance member is rotatably supported in the first conveyance chamber, and conveys the developer in the first conveyance chamber in a first direction, while stirring the developer. The second stirring-conveyance member is rotatably supported in the second conveyance chamber, and conveys the developer in the second conveyance chamber in a second direction opposite to the first direction, while stirring the developer. The developer carrier is rotatably supported in the developing container, and carries on a surface thereof the developer in the first conveyance chamber or the second conveyance chamber. The developing container further includes a partition section which divides the first conveyance chamber and the second conveyance chamber from each other, a first communication section which allows the first conveyance chamber and the second conveyance chamber to communicate with each other at downstream-side end portions thereof in the first direction, and a second communication section which allows the first conveyance chamber and the second conveyance chamber to communicate with each other at downstream-side end portions thereof in the second direction. The first stirring-conveyance member includes a rotary shaft, a plurality of spiral blades formed on an outer peripheral surface of the rotary shaft, and a reverse spiral blade which is arranged downstream of the plurality of spiral blades in the first direction to face the first communication section, and which is opposite in winding direction to the plurality of spiral blades. Downstream ends of the plurality of spiral blades in the first direction are located substantially equally distant from the reverse spiral blade.
Further features and advantages of the present disclosure will become apparent from the description of embodiments given below.
Hereinafter, embodiments of the present disclosure will be described with reference to the accompanying drawings.
With reference to
The developing devices 2a to 2d supply toner to the photosensitive drums 11a to 11d. The chargers 13a to 13d are arranged facing surfaces of the photosensitive drums 11a to 11d, and uniformly charge the surfaces of the photosensitive drums 11a to 11d.
The exposure unit 12 scans and exposes the photosensitive drums 11a to 11d based on image data fed to an image input section (not shown) from a personal computer or the like. By the exposure unit 12, electrostatic latent images are formed on the surfaces of the photosensitive drums 11a to 11d, and these electrostatic latent images are developed into toner images by the developing devices 2a to 2d.
An endless intermediate transfer belt 17 is wound around a tension roller 6, a driving roller 25, and a driven roller 27. The driving roller 25 is driven to rotate by a motor, which is not shown, and the intermediate transfer belt 17 is driven to circulate by the rotation of the driving roller 25.
The photosensitive drums 11a to 11d are arranged under, and in contact with, the intermediate transfer belt 17, to be aligned side by side along a conveyance direction (a direction indicated by an arrow in
A secondary transfer roller 34 is arranged opposite the driving roller 25 across the intermediate transfer belt 17, and is pressed into contact with the intermediate transfer belt 17 to form a secondary transfer section. In the secondary transfer section, the toner image on the surface of the intermediate transfer belt 17 is transferred onto a sheet P. After the transfer is completed, a belt cleaning device 31 removes residual toner from the intermediate transfer belt 17.
In a lower portion inside the image forming apparatus 1, a sheet feed cassette 32 is disposed which contains sheets P, and to the right of the sheet feed cassette 32, a stack tray is disposed for manual sheet feeding. In an upper left portion of the image forming apparatus 1, a fixing section 18 is disposed which performs fixing processing with respect to the sheet P on which the image has been formed.
A sheet P fed out from the sheet feed cassette 32 or the stack tray is conveyed by a registration roller pair 33 to the second transfer section with timing coordinated with the image forming operation performed at the intermediate transfer belt 17 and the sheet feeding operation. To the sheet P conveyed to the secondary transfer section, the full color toner image on the intermediate transfer belt 17 is secondarily transferred by the secondary transfer roller 34, to which a bias potential is applied, and the sheet P is then conveyed to the fixing section 18.
The fixing section 18 includes components such as a fixing belt to which heat is applied by a heater, a fixing roller which is in contact with an inner surface of the fixing belt, and a pressure roller which is disposed to be pressed into contact with the fixing roller with the fixing belt therebetween, and the fixing section 18 performs the fixing process by applying heat and pressure to the sheet P onto which the toner image has been transferred. The sheet P which has passed through the fixing section 18 is guided by a branching section into one of a plurality of conveyance directions into which the branching section is branched, and then the sheet P is ejected as it is (or after it is sent to a double-sided printing conveyance path and double-sided printing is completed thereon) to a sheet ejection section 37 by an ejection roller pair 19.
Next, a description will be given of a detailed structure of the developing device 2a with reference to
As shown in
The developing container 22 constitutes a housing of the developing device 2, and is divided, by a partition section 22b, into a first conveyance chamber 22c and a second conveyance chamber 22d. The first conveyance chamber 22c and the second conveyance chamber 22d contain a two-component developer which contains a toner and a carrier. The developing container 22 rotatably holds the stirring-conveyance member 42 and the developing roller 20. Moreover, in the developing container 22, there is formed an opening 22a through which the developing roller 20 is exposed toward the photosensitive drum 11.
The stirring-conveyance member 42 includes two stirring-conveyance members, namely, a first spiral (a first stirring-conveyance member) 43 and a second spiral (a second stirring-conveyance member) 44. The first spiral 43, which is arranged below the second spiral 44, is disposed in the first conveyance chamber 22c. The second spiral 44 is disposed in the second conveyance chamber 22d, which is arranged above the first conveyance chamber 22c. Here, the second spiral 44 is arranged to the upper left of the first spiral 43 at an angle of 45 degrees or more (here about 50 degrees) in
The first and second spirals 43 and 44 stir the developer to thereby charge the toner in the developer to a predetermined level. Thereby, the toner is held by the carrier. Furthermore, at two opposite end portions of the partition section 22b in its longitudinal direction (a direction perpendicular to the sheet on which
The developing roller 20 is constituted by including a fixed shaft (not shown) and a developing sleeve 20a formed in a cylindrical shape. The developing sleeve 20a is rotatably held on the fixed shaft. Near the developing sleeve 20a, a regulation blade 21 is disposed at a predetermined distance from the developing sleeve 20a. The regulation blade 21 regulates the layer thickness of the magnetic brush formed on the surface of the developing sleeve 20a. The developing sleeve 20a is caused by a driving mechanism including a motor and a gear, of which none is illustrated, to rotate in a direction (a clockwise direction) indicated by an arrow in
When the developing sleeve 20a, to which the developing bias is applied, rotates in the clockwise direction in
Next, a detailed description will be given of a stirring section of the developing device 2.
As described above, in the developing container 22, as shown in
The partition section 22b divides the first conveyance chamber 22c and the second conveyance chamber 22d from each other such that they are arranged one above the other to be parallel to each other. The first communication section 22e and the second communication section 22f are respectively formed at one side and the other side (an A1-direction side and an A2-direction side) of the partition section 22b in its longitudinal direction. The first communication section 22e allows the first conveyance chamber 22c and the second conveyance chamber 22d to communicate with each other at their A1-direction (first-direction) end portions. The second communication section 22f allows the first conveyance chamber 22c and the second conveyance chamber 22d to communicate with each other at their A2-direction (second-direction) end portions. This allows the developer to circulate in the first conveyance chamber 22c, the first communication section 22e, the second conveyance chamber 22d, and the second communication section 22f.
The first spiral 43, which is disposed in the first conveyance chamber 22c, has a rotary shaft 43b and a first spiral blade (spiral blade) 43a which is integrally disposed on the rotary shaft 43b and formed in a spiral shape with a predetermined pitch in an axial direction of the rotary shaft 43b. The rotary shaft 43b is rotatably supported in the developing container 22. The first spiral blade 43a is formed to extend in a longitudinal direction of the first conveyance chamber 22c to positions where the first spiral blade 43a faces the first communication section 22e and the second communication section 22f. The first spiral blade 43a rotates in the clockwise direction in
On the portion of the first spiral 43 that faces the first communication section 22e, a reverse spiral blade 55 is integrally disposed, which is arranged downstream of the first spiral blade 43a in the A1 direction (the developer conveyance direction), and is opposite in winding direction (in the opposite phase) to the first spiral blade 43a. The reverse spiral blade 55 is formed with a diameter substantially equal to that of the first spiral blade 43a. Since the reverse spiral blade 55 and the first spiral blade 43a are opposite to each other in winding direction, the developer conveyed by the first spiral blade 43a and the developer conveyed by the reverse spiral blade 55 collide with each other at the first communication section 22e, and this applies pressure to the developer, and the developer is thereby heaped up high. Eventually, the developer is conveyed from the first conveyance chamber 22c into the second conveyance chamber 22d.
Furthermore, in an end surface of the first conveyance chamber 22c in the A2 direction, a toner replenishing port 23 is disposed through which the toner is replenished into the developing container 22. To the toner replenishing port 23, there is connected a toner replenishing path 24, which leads, and is connected, to a toner container (not shown). The rotary shaft 43b is arranged to extend, passing through the toner replenishing port 23, into the toner replenishing path 24. On the portion of the rotary shaft 43b that is located inside the toner replenishing path 24, a replenishing blade 43c is integrally formed in a shape of a spiral with a constant pitch in the axial direction of the rotary shaft 43b. The replenishing blade 43c is a spiral blade wound in the same direction (in the same phase) as the first spiral blade 43a, with a pitch and a diameter smaller than those of the first spiral blade 43a.
The second spiral 44, which is disposed in the second conveyance chamber 22d, includes a rotary shaft 44b and a second spiral blade 44a. The second spiral blade 44a is integrally disposed on the rotary shaft 44b, and is formed with a blade wound in the shape of a spiral that is opposite in winding direction (in the opposite phase) to the first spiral blade 43a, with the same pitch as the first spiral blade 43a in an axial direction of the rotary shaft 44b. Further, the second spiral blade 44a has a length longer than an axial length of the developing roller 20, and is formed to extend to positions at which the second spiral blade 44a faces the first communication section 22e and the second communication section 22f. The rotary shaft 44b is arranged parallel to the rotary shaft 43b, and is rotatably supported in the developing container 22. The second spiral blade 44a rotates in the clockwise direction in
In the developing device 2, the developer in the first conveyance chamber 22c is conveyed by the first spiral 43 to one side (the first communication section-22e side), while being stirred, and gradually accumulates on the one side of the first conveyance chamber 22c. On the one side of the first conveyance chamber 22c, the developer is heaped up high by the conveying force of the first spiral blade 43a the reverse spiral blade 55, and as a result, the developer is pushed up into the second conveyance chamber 22d via the first communication section 22e.
Then, the developer is supplied to the developing roller 20, while being conveyed toward the other side (the second communication section-22f side), while being stirred, by the second spiral 44. The developer remaining on the developing roller 20 without being used for development, falls from the developing roller 20, and is collected in the second conveyance chamber 22d. Then, the collected developer is conveyed by the second spiral 44 to the other side of the second conveyance chamber 22d, and falls into the first conveyance chamber 22c via the second communication section 22f.
Here, as shown in
The reverse spiral blade 55 is constituted by a single spiral blade. Further, the reverse spiral blade 55 is formed such that a distance L1 (see
Specifically, as shown in
In more detail, the downstream end 51b of the first blade 51 is opposite (adjacent) to the upstream end 55a of the reverse spiral blade 55, but the downstream end 52b of the second blade 52 is not opposite (adjacent) to the upstream end 55a of the reverse spiral blade 55. The downstream end 52b of the second blade 52 is opposite (adjacent) to a portion of the reverse spiral blade 55 that is away from the upstream end 55a in the A1 direction by an angle of 180 degrees (hereinbelow, the portion will be referred to as the second-blade opposing portion 55b). In the reverse spiral blade 55, the lead angle at a portion from the upstream end 55a to the second-blade opposing portion 55b is set to θ1, and the lead angle at a portion of the reverse spiral blade 55 from the second-blade opposing portion 55b to the downstream end 55c in the A1 direction is set to θ2. In this configuration, the distance L1 between the downstream end 51b of the first blade 51 and the upstream end 55a of the reverse spiral blade 55 is substantially equal to the distance L2 between the downstream end 52b of the second blade 52 and the second-blade opposing portion 55b of the reverse spiral blade 55.
Here, as in a modified example of the first embodiment shown in
In the present embodiment, as described above, the distances L1 and L2 between the downstream ends 51b and 52b of the plurality of blades constituting the first spiral blade 43a, which is a multiple-spiral blade, of the first spiral 43 and the reverse spiral blade 55 are substantially equal to each other. This makes it possible to reduce difference between the pressure applied to the developer at the downstream end 51b of the first spiral blade 43a and the pressure applied to the developer at the downstream end 52b of the first spiral blade 43a, and thus to reduce variation of the pressure applied to the developer caused in the first communication section 22e along with the rotation of the first spiral 43. Hence, it is possible to reduce sliding-down of the developer resulting from reduction of pressure applied thereto, and thus to alleviate the reduction or the destabilization of the conveyed amount of developer.
Further, the second conveyance chamber 22d is arranged above the first conveyance chamber 22c. Thereby, it is possible to make the developing device 2 compact in the horizontal direction, and this helps make the color printer 100 compact. The compact developing device 2 is particularly advantageous in color image forming apparatuses, in which a plurality of (for example, four) developing devices 2 are arranged in the horizontal direction.
As described above, the lead angle θ1 near the upstream end 55a of the reverse spiral blade 55 is smaller than the lead angle θ2 at other portions of the reverse spiral blade 55. This makes it easy to make the distances L1 and L2 between the downstream ends 51b and 52b of the first spiral blade 43a and the reverse spiral blade 55 substantially equal.
Further, as described above, the downstream end 51b of the first blade 51 may be arranged upstream of the downstream end 52b of the second blade 52 in the A1 direction. This configuration helps make the distance L1 between the downstream end 51b of the first blade 51 and the upstream end 55a of the reverse spiral blade 55 more equal to the distance L2 between the downstream end 52b of the second blade 52 and the second-blade opposing portion 55b of the reverse spiral blade 55.
Further, as described above, the reverse spiral blade 55 is formed such that the lead angle is smaller in a region thereof from the upstream end 55a to the second-blade opposing portion 55b than in the other portions. Thereby, the region having a small lead angle can be made small enough to make it possible to alleviate reduction of developer conveying force of the reverse spiral blade 55.
Further, as described above, the developer is a two-component developer which contains a toner and a carrier. A two-component developer containing a toner and a carrier is higher in flowability than a one-component developer containing only a toner, and thus, it is particularly advantageous to apply the present disclosure to cases where a two-component developer is used.
In a developing device 2 of a second embodiment of the present disclosure, as shown in
An upstream end (a right end) 56a of the first reverse spiral blade 56 in the A1 direction and an upstream end (a right end) 57a of the second reverse spiral blade 57 in the A1 direction are located at substantially the same position in the A1 direction. Further, a downstream end (a left end) 56b of the first reverse spiral blade 56 in the A1 direction and a downstream end (a left end) 57b of the second reverse spiral blade 57 in the A1 direction are located at substantially the same position in the A1 direction.
As shown in
Other structures of the second embodiment are similar to those of the first embodiment described above.
In the present embodiment, as described above, the reverse spiral blade 55 is constituted by the same number of (here, two) blades as the first spiral blade 43a, and the upstream ends 56a and 57a of the reverse spiral blade 55 are opposite to, and at the same distance from, the downstream ends 51b and 52b, respectively, of the first spiral blade 43a. Thereby, it is possible to more effectively moderate the variation of the pressure applied to the developer caused in the first communication section 22e along with the rotation of the first spiral 43, and thus to more effectively alleviate the reduction or the destabilization of the conveyed amount of developer.
Other advantages of the second embodiment are similar to those of the first embodiment described above.
It should be understood that the embodiments disclosed herein are merely illustrative in all respects, and should not be interpreted restrictively. The range of the present disclosure is shown not by the above descriptions of the embodiments but by the scope of claims for patent, and it is intended that all modifications within the meaning and range equivalent to the scope of claims for patent are included.
For example, in the above embodiments, the present disclosure is applicable not only to tandem type color printers like the one shown in
Furthermore, although the above embodiments have dealt with examples where a developer is supplied to a developing roller from a stirring-conveyance member, they are by no means meant to limit the scope of the present disclosure. A developer carrier such as a magnetic roller or the like may further be disposed between a stirring-conveyance member and a developing roller, such that the developer is supplied from the stirring-conveyance member to the magnetic roller or the like and then the developer is supplied from the magnetic roller or the like to the developing roller.
Moreover, although the first embodiment has dealt with an example where the lean angle of the reverse spiral blade 55 near the upstream end 55a is constant (θ1), this is by no means meant to limit the present disclosure. For example, the lead angle near the upstream end 55a of the reverse spiral blade 55 may be made gradually smaller toward the upstream end 55a.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2017-092347 | May 2017 | JP | national |
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| Number | Date | Country |
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| 2014-160162 | Sep 2014 | JP |
