JP6065778B2 - Conveying member, developing device, and image forming apparatus - Google Patents

Description

  The present invention relates to a conveying member, a developing device, and an image forming apparatus.

  In an image forming apparatus such as a copying machine or a printer, a developing device is used to develop an electrostatic latent image formed on a photoreceptor. In the developing device, a developing roll is provided opposite to the photosensitive member. For example, a two-component developer composed of a toner mainly composed of a magnetic carrier and a resin is stirred and supplied by a stirring conveying member. Is supplied to the developing roll from the conveying member. As a conveying member, a member provided with a plurality of spiral blades on a rotating shaft is known. (For example, refer to Patent Document 1).

JP 2010-256429 A

  The present invention relates to a conveying member, a developing device, and an image forming apparatus for suppressing staying of a transported object in a transport path when the transported object is transported by a spiral blade having a discontinuous portion. The purpose is to provide.

  The invention according to claim 1 is formed in a spiral shape around the rotation axis, conveys the object to be conveyed in the direction of the rotation axis by the rotation of the rotation axis, and overlaps in a cross section intersecting the rotation axis. A plurality of spiral blades, and each of the spiral blades is divided into an upstream spiral blade and a downstream spiral blade, wherein the upstream spiral blade and the downstream spiral blade are A cleaning member that cleans a plurality of discontinuous portions that are regions arranged so that phases around the rotation axis are different from each other and a sensing surface of a sensor that detects an amount related to the object to be conveyed conveyed in the rotation axis direction A cleaning member provided at a position of the rotating shaft facing the sensor, and a transporter that accommodates the transported object that is provided on the downstream side of the cleaning member on the rotating shaft and transported. Delivery to the outside of the road The rotating shaft, and the spiral blade for one pitch provided on the upstream side of the cleaning member and the spiral blade provided from the cleaning member to the delivery member are both not The conveying member is characterized in that no continuous portion is provided.

  The invention according to claim 2 is the conveying member according to claim 1, wherein the spiral blade provided on the upstream side of the delivery member is a single blade.

The invention according to claim 3 is provided with a regulating unit that regulates a passing amount of the object to be conveyed that flows between the divided upstream spiral blade and the downstream spiral blade and flows in the transport direction. It is a conveyance member of Claim 1 or 2 characterized by these.
The invention according to claim 4 is the conveying member according to claim 3, wherein the restricting portion is formed downstream from an upstream end of the downstream spiral blade.
The invention according to claim 5 is the conveying member according to claim 4, wherein the restricting portion is formed between the downstream spiral blade and the downstream end.

  The invention according to claim 6 is characterized in that the restricting portion has an end portion that rises steeply from the rotation shaft on the upstream side. It is a conveying member.

  According to a seventh aspect of the present invention, in the developer as the conveyed object, the conveying member according to any one of the third to sixth aspects and the sensor that detects an amount related to the conveyed object. And a sensor for detecting the toner density, wherein the restricting portion is located upstream of the position of the sensor in the developer transport direction.

  The invention according to claim 8 is provided with a replenishing port for replenishing the toner to the conveying member, and the restricting portion is located downstream in the conveying direction from the position of the replenishing port. The developing device described in 1.

  A ninth aspect of the present invention is an image forming apparatus having the developing device according to the seventh or eighth aspect and forming an image on a supplied recording medium.

According to the first to sixth aspects of the present invention, the conveying member that conveys the object to be conveyed by the spiral blades having the discontinuous portion is compared with the case where the conveying member is not provided with this configuration in the conveying path. In the place where the stay of the conveyed product should be suppressed, the stay is suppressed.
According to the seventh aspect of the present invention, there can be obtained a developing device capable of detecting the toner concentration in the developer in a more agitated and mixed state as compared with the case where this configuration is not provided.
According to the eighth aspect of the present invention, there can be obtained a developing device in which the circulating developer and the replenished developer are rapidly stirred as compared with the case where the present configuration is not provided.
According to the ninth aspect of the present invention, an image forming apparatus to which the developing device is suitably applied can be obtained as compared with the case where the present configuration is not provided.

1 is a schematic configuration diagram illustrating an image forming apparatus according to an embodiment. FIG. 2 is a schematic plan view of the developing device according to the embodiment. The whole front view of the developer stirring conveyance member of an embodiment. FIG. 3 is a schematic diagram showing a cross section of a developer stirring and conveying member. (A) is a front view showing the vicinity of the upstream side of the regulating portion of the developer stirring and conveying member, (b) is a partial perspective view. The front view which shows the downstream vicinity vicinity of the control part of a developer stirring conveyance member. The schematic diagram which shows the expansion | deployment of the circumferential direction of a developing agent stirring conveyance member. (A) is a partial front view of the developer stirring and conveying member showing the position of the upper surface of the developer when no restricting portion is provided, and (b) when the restricting portion is provided. The figure which expanded the partial area | region shown with the rectangle of a dashed-two dotted line in FIG. FIG. 5 is a diagram illustrating a developer conveyance state when the amount of developer is general in the vicinity of the toner density sensor unit. The figure which showed the conveyance condition of the developer in the vicinity of the delivery member.

Hereinafter, embodiments will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a conveying member, a developing device, and an image forming apparatus in the embodiment.
The image forming apparatus 1 according to the embodiment includes a control unit 2, a photoreceptor 10, a charging unit 20, an exposure unit 30, a developing device 40, a transfer unit 50, a fixing device 60, a cleaning unit 70, and a paper storage unit 80. An image is formed on a sheet P, which is an example of a recording medium, based on the image information to be processed.

  The control unit 2 includes an arithmetic device such as a CPU (Central Processing Unit) and a memory, and controls the operation of each component of the image forming apparatus 1.

  The photosensitive member 10 is a cylindrical rotating member having a photosensitive layer formed of an organic photosensitive material for holding an image and rotating in the direction of the solid line arrow shown in FIG.

  The charging unit 20 applies a predetermined charging voltage using a charging roll that rotates in contact with the surface of the photoreceptor 10. The charging unit 20 may be of a contact charging method in which the photosensitive member 10 is charged in contact with a brush using a brush or the like, or a non-contact charging method in which the photosensitive member 10 is charged using corona discharge.

  The exposure unit 30 irradiates the surface of the photoconductor 10 charged by the charging unit 20 with light corresponding to image data to form an electrostatic latent image having a latent image potential based on a potential difference. The electrostatic latent image moves to a position where the developing device 40 is disposed as the photoconductor 10 rotates.

  The developing device 40 has a rotating developing roll 41, and the toner adsorbed on the developing roll 41 moves to the photoconductor 10. This toner moves to the surface of the photoconductor 10 due to a potential difference between the electrostatic latent image formed on the photoconductor 10 and the charged toner. In this manner, a toner image is formed on the photoconductor 10, and the toner image moves to a position where the transfer unit 50 is disposed as the photoconductor 10 rotates.

Further, inside the developing device 40, a developer agitating and conveying member 42, which is an example of a conveying member for agitating the toner and the developer, a developer supplying and conveying member 43 for supplying the developer to the developing roll 41, a partition 44 and A replenishing unit 45 for replenishing toner to the developer agitating and conveying member 42 is provided.
Detailed description of the developing device 40 and the developer stirring and conveying member 42 will be described later.

  The transfer unit 50 transfers the toner image formed on the photoconductor 10 onto the paper P at the transfer nip 51 which is a portion where the photoconductor 10 and the transfer unit 50 are opposed to each other.

  The fixing device 60 includes a fixing roll 61 having a heat source and a pressure roll 62 provided to face the fixing roll 61, and fixes the unfixed toner image on the paper P by heating and pressing.

  The cleaning unit 70 removes the toner remaining on the surface of the photoconductor 10 after the toner image is transferred to the paper P.

In the paper storage unit 80, a plurality of papers P are stored. The paper P is transported from the paper storage unit 80 by a transport system.
The conveyance system of the paper P in the image forming apparatus 1 of the embodiment conveys the paper P sent out by the pickup roll 90 and the pickup roll 90 that sends out the paper P stored in the paper storage unit 80 at a predetermined timing. A transport roll 91 is provided.
Further, positioning of the paper P conveyed by the conveyance roll 91 is regulated and the registration roll 92 that is sent to the transfer unit 50 side at a predetermined timing, and the guide that guides the paper P sent from the registration roll 92 to the transfer nip 51. A member 93 and a guide member 94 for guiding the paper P conveyed after the toner image is transferred onto the paper P to the fixing device 60 are provided.
Further, a fixing inlet guide 95 that is disposed upstream of the fixing device 60 and guides the paper P onto which the toner image has been transferred to the fixing device 60, and the paper P discharged from the fixing device 60 on the surface of the casing of the image forming apparatus 1. A discharge roll 98 that discharges to the provided recording material discharge unit 99 and discharge guides 96 and 97 that guide the paper P to the discharge roll 98 are provided.

Next, the developing device 40 of the embodiment will be described in detail. FIG. 2 is a schematic plan view showing the inside of the developing device 40 shown in FIG. In the drawing, the replenishing direction of the toner T and the conveying direction of the developer D are indicated by white arrows.
Hereinafter, in the transport direction of the developer D, the direction in which the toner T is supplied is referred to as upstream, and the direction in which the developer D is transported is referred to as downstream. The developing device 40 of the embodiment employs a so-called two-component developing system. The two-component developer is a developer D composed of toner T and a magnetic carrier. For the toner T, for example, a non-magnetic toner is used. However, a magnetic toner may be used as long as the charging characteristics are different from those of the magnetic carrier. Absent.

The developing device 40 includes a developing roll 41, a developer agitating / conveying member 42, a developer supplying / conveying member 43, a partition wall 44, a developing container 400, a toner concentration sensor unit 500 which is an example of a sensor, and a replenishing unit 45.
The developing roller 41 is provided so as to face the photosensitive member 10 shown in FIG. 1 that holds and rotates the electrostatic latent image, and develops the electrostatic latent image on the photosensitive member 10 by holding the developer D. .

  The developer agitating / conveying member 42 and the developer supply / conveying member 43 are accommodated in an agitating / conveying path 420 and a supply / conveying path 430 formed in the developing container 400 with the partition wall 44 interposed therebetween. At both ends of the partition wall 44, an opening 440 for transferring the developer D from the stirring conveyance path 420 to the supply conveyance path 430 and an opening 450 for transferring the developer D from the supply conveyance path 430 to the stirring conveyance path 420 are provided. ing. The developing roll 41 and the supply conveyance path 430 are disposed substantially in parallel.

A replenishing port 46 for replenishing toner T from the replenishing portion 45 is provided near one end between the central portion and one end of the agitation transport path 420. The toner T is replenished from the replenishing unit 45 to the stirring and conveying path 420 through the replenishing port 46.
The toner T supplied from the replenishing port 46 is conveyed while being agitated together with the developer D in the agitating and conveying path 420 by the developer agitating and conveying member 42 in the direction of the white arrow shown in the drawing.

  The developer D transported from the upstream to the downstream in the stirring transport path 420 is transferred to the supply transport path 430 through the opening 440. The developer D transferred to the supply conveyance path 430 is conveyed in the supply conveyance path 430 by the developer supply conveyance member 43 in the arrow direction shown in the drawing. The developer supply / conveyance member 43 is formed to supply the developer D stirred and supplied from the developer stirring / conveyance member 42 to the developing roll 41. The developer supply / conveyance member 43 has a rotating shaft 43a and a helical helix blade 43b provided on the shaft 43a. The toner T is adsorbed to the developing roll 41 when being conveyed through the supply conveyance path 430.

  The developer D in which the toner T is adsorbed by the developing roller 41 and the density of the toner T is lowered is transferred from the supply conveyance path 430 to the agitation conveyance path 420 through the opening 450, and is stirred by the developer agitation conveyance member 42. Is conveyed toward the supply port 46. Then, the toner T is again supplied to the developer D through the supply port 46. In this way, the developer D circulates in the developing container 400 as indicated by the white arrow in the drawing.

Further, a toner concentration sensor unit 500 that detects the concentration of the toner T is attached to the stirring conveyance path 420 of the developing container 400. The toner concentration sensor unit 500 is provided on the downstream side of the replenishing port 46 of the stirring conveyance path 420 and near the other end between the other end opposite to the side where the replenishing port 46 is provided and the central portion. . Thus, the toner concentration sensor unit 500 is preferably provided downstream after the toner T is sufficiently mixed with the developer D. By providing it downstream, the concentration of the toner T in the developer D before being adsorbed by the developing roll 41 can be detected more accurately.
When the density of the toner T detected by the toner density sensor unit 500 is lower than a predetermined range due to the developing action, the density of the toner T in the agitating / conveying path 420 is decreased from a predetermined range through the supply port 46. A new developer is supplied into the stirring conveyance path 420.

  FIG. 3 shows an overall front view of the developer stirring and conveying member 42. FIG. 4 is a schematic diagram showing a cross section of the developer stirring and conveying member 42. In FIG. 3, the conveyance direction of the developer D is indicated by a white arrow. Further, the rotation direction of the developer stirring and conveying member 42 is indicated by a solid arrow, and the position where the toner T is replenished is indicated by a white arrow.

  3 and 4, the developer agitating / conveying member 42 overlaps with a shaft 42a, which is an example of a rotating shaft, in a spiral shape around the shaft 42a, and in a cross section orthogonal to or at least intersecting the shaft 42a. It has a two-row spiral blade 42b composed of two spiral blades 42b1 and a spiral blade 42b2. Here, for example, the spiral blade 42b1 and the spiral blade 42b2 are formed so that the phase around the rotation axis of the shaft 42a is 180 ° different. The developer agitation transport member 42 transports the developer D in the transport direction by the rotation of the shaft 42a.

  The spiral blade 42b1 and the spiral blade 42b2 are divided into an upstream spiral blade BRU and a downstream spiral blade BRL, respectively, and the upstream spiral blade BRU and the downstream spiral blade BRL are in phase around the axis 42a. Are provided with a plurality of discontinuous portions FR arranged so as to be different from each other.

  In FIG. 4, the spiral blade 42 b 1 located in the cross-sectional portion of the shaft 42 a faces the downstream end a of the upstream spiral blade BRU and the upstream spiral blade BRU via the discontinuous portion FR. An upstream end b of the downstream spiral blade BRL is shown. Further, the downstream side c of the upstream spiral blade BRU in the spiral blade 42b2 located in the cross-sectional portion of the shaft 42a and the downstream side facing the upstream spiral blade BRU via the discontinuous portion FR. An end d on the upstream side of the spiral blade BRL is shown.

  As shown in FIG. 4, the angle formed by the downstream end a of the upstream spiral blade BRU and the upstream end b of the downstream spiral blade BRL with respect to the center of the shaft 42a is defined as an angle A. Assuming that an angle formed by the upstream end b of the downstream spiral blade BRL and the downstream end c of the upstream spiral blade BRU with respect to the center of the shaft 42a is an angle B, in the embodiment, B = 180-A is satisfied. The angle A is a path along which the developer D is conveyed at the discontinuous portion FR, and the angle B is a portion where the spiral blades overlap in the axial direction.

In FIG. 3, the developer agitating / conveying member 42 includes a regulating portion 42aR.
The restricting portion 42aR may be formed by thickening the shaft 42a, or may be formed by attaching another member to the shaft 42a.

Here, the height of the restricting portion 42aR is set lower than the heights of the spiral blade 42b1 and the spiral blade 42b2. By making the height of the restricting portion 42aR lower than the height of the spiral blade 42b1 and the spiral blade 42b2, the developer D passing through the restricting portion 42aR can be secured.
Further, by adjusting the height of the restricting portion 42aR, the amount of the developer D that flows beyond the restricting portion 42aR can be adjusted.
2 and 3 show four restricting portions 42aR, this is merely an example and is not limited to four. Further, the four restricting portions 42aR are provided apart from each other in the direction of the shaft 42a.

Next, the flow of the developer D in the developer agitating / conveying member 42 and the developer agitating / conveying member 42 will be described in more detail with reference to FIGS. 5, 6, and 7.
FIG. 5 is an enlarged view of a portion indicated by a broken-line circle in FIG. FIG. 5A is a front view showing the vicinity of the upstream side of the regulating portion 42aR of the developer stirring and conveying member 42, and FIG. 5B is a perspective view. FIG. 6 is a front view showing the vicinity of the downstream side of the regulating portion 42aR of the developer stirring and conveying member 42. FIG. FIG. 7 is a schematic diagram showing development in the circumferential direction of the developer stirring and conveying member 42. A white arrow and a solid line arrow indicate the flow of the developer D. In FIG. 7, the downstream end a of the upstream spiral blade BRU and the upstream end b of the downstream spiral blade BRL facing each other across the discontinuous portion FR are 90 ° out of phase with each other. (So as to be shifted by 90 °).

In FIG. 5, the position of the start point S of the restricting portion 42aR is downstream in the transport direction from the upstream end b of the downstream spiral blade BRL.
In the discontinuous portion FR, the developer D conveyed along with the rotation of the spiral blade 42b1 and the spiral blade 42b2 is divided into two at the discontinuous portion FR, but the upstream spiral divided by the restricting portion 42aR. The passage amount of the developer D that flows between the blade BRU and the downstream spiral blade BRL and flows in the transport direction is regulated.
By restricting the passage amount of the developer D, more developer D is detached from the spiral blade BRL. Here, a larger white arrow indicates that more developer D flows than a smaller white arrow.

  In FIG.5 (b), the control part 42aR has the edge part 42d which stands | starts up rapidly from the axis | shaft 42a in the upstream which is the starting point S of the control part 42aR. The end portion 42d that rises steeply prevents passage of the developer D that flows between the upstream spiral blade BRU and the downstream spiral blade BRL and flows in the transport direction, thereby further increasing the amount of developer D. It separates from the downstream spiral blade BRL. The end portion 42d is preferably on the downstream side in the transport direction from the discontinuous portion FR.

In FIG. 6, the position of the end point E of the restricting portion 42aR is located downstream of the start point S in the transport direction and coincides with the downstream end of the downstream spiral blade BRL.
Here, the position of the end point E of the regulating part 42aR may be located downstream of the start point S in the transport direction and between the downstream end of the downstream spiral blade BRL.
Further, the restricting portion 42aR at the end point E returns a part of the restricting portion 42aR to the shaft diameter of the shaft 42a at the discontinuous portion FR in order to direct the developer D in the direction of the shaft 42a having a small shaft diameter with good transport efficiency. ing.

  Hereinafter, the flow of the developer D will be described in detail. In FIG. 7, the flow of the developer D is indicated by a white arrow and a solid line arrow. A region indicated by hatching indicates a region where the restricting portion 42aR is formed.

  In FIG. 7, the developer D is divided into two at the discontinuous portion FR indicated by a solid line circle, and is divided into a flow F1 and a flow F2. The flow F1 of the developer D, which is one of the two-divided developers D, leaves the downstream spiral blade BRL and is conveyed as shown in FIG. The flow F1 of the developer D thus conveyed is delayed from the downstream spiral blade BRL by one cycle.

The discontinuous portion FR is provided, and the stirring / mixing function can be increased simultaneously with the increase in the conveying ability in the axial direction by the double spiral blade 42b.
Here, since the amount of developer D that flows between the separated upstream spiral blade BRU and downstream spiral blade BRL and flows in the transport direction is regulated by the regulating portion 42aR, the flow F2 and In comparison, the amount of the flow F1 is increased. This stream F1 is mixed with the later developer D stream F3. By increasing the amount of the flow F1, the mixing of the developer D with the flow F3 of the developer D that has come later is further promoted, and the stirring of the developer D and the dispersibility of the toner T are improved.

On the other hand, the flow F2 of the developer D that has been divided into two parts is conveyed by the spiral blade BR through the restricting portion 42aR and goes downstream. The broken-line circle portion indicates the flow of the developer in the vicinity of the discontinuous portion FR on the downstream side of the restricting portion 42aR.
In the discontinuous portion FR on the downstream side indicated by the broken-line circle, a part of the restricting portion 42aR is returned to the shaft diameter of the shaft 42a at the discontinuous portion FR, so that a flow F4 toward the shaft 42a occurs, and the developer D Transportability is guaranteed.

  FIG. 8 is a partial front view of the developer stirring and conveying member 42 showing the position of the upper surface of the developer D when the restricting portion 42aR is not provided and when it is provided. In the figure, the restricting portion 42aR is not shown directly, but (a) shows the case where the restricting portion 42aR is not provided, and (b) shows the case where the restricting portion 42aR is provided.

  In FIG. 8, the upper surface U2 of the developer D when the restricting portion 42aR is provided is partially less transportable at the restricting portion 42aR, and therefore compared with the upper surface U1 of the developer D when the restricting portion 42aR is not provided. Rise. As the upper surface U <b> 2 of the developer D rises, the developer D can be dispersed throughout the circumferential direction of the developer stirring and conveying member 42.

In addition, according to the embodiment, since a plurality of the regulating portions 42aR having a thick shaft diameter are provided at intervals, the agitation can be performed without deteriorating the stay of the developer D or the flow balance without significantly impairing the transportability. , Dispersibility is improved.
Further, since the regulating portion 42aR is narrowed at a distance from the wall surface of the agitation conveyance path 420, the toner T lump can be pulverized by repeatedly compressing and relaxing the developer D being conveyed. An increase in driving torque of the conveying member 42 is suppressed.

  The number of regulating portions 42aR can be set arbitrarily, but from the viewpoint of effectively preventing uneven mixing of the two-component developer, a replenishing port in which new toner T is replenished and mixing unevenness easily occurs. Preferably, it is provided downstream of 46.

  In the embodiment, the developer stirring and conveying member 42 has a configuration having two spiral blades, but is not limited thereto. For example, the developer agitating and conveying member 42 may have a configuration having a plurality of spiral blades of three or more. In such a configuration having a plurality of spiral blades, the surface for transporting the developer is increased, and the transport capability in the axial direction is improved.

  Further, in the embodiment, the configuration in which the multiple spiral blades having the discontinuous portion FR are applied to the developer stirring and conveying member 42 is exemplified. However, the viewpoint of improving the stirring and mixing performance while enhancing the conveying capability in the axial direction. Then, it may be applied to the developer supply / conveyance member 43, or may be applied to other members (for example, a dispense auger in the toner replenishment path) that stirs and conveys the developer.

Here, the limitation on the position where the discontinuous portion FR is provided will be described.
FIG. 9 is an enlarged view of a partial region α indicated by a two-dot chain line rectangle in FIG. 3. In FIG. 9, the transport direction of the developer D is indicated by a white arrow according to FIG. As shown in FIG. 9, a cleaning member 47 and a delivery member 48 are provided around the shaft 42 a of the developer stirring and conveying member 42. The cleaning member 47 is a member that cleans the sensing surface of the toner concentration sensor unit 500, and is provided at a position facing the toner concentration sensor unit 500 on the shaft 42a. In the portion where the cleaning member 47 is provided, the spiral blade is not provided, and the developer transportability in the direction of the shaft 42a is lowered. The delivery member 48 is provided on the downstream side of the cleaning member 47 on the shaft 42 a, and delivers the conveyed developer to the outside of the developer supply conveyance member 43, that is, the agitation conveyance path 420 that houses the developer agitation conveyance member 42. It is a member.

  A region β shown in FIG. 9 is a region corresponding to one pitch provided on the upstream side of the cleaning member 47. Further, the region γ shown in FIG. 9 is a region from the downstream side of the cleaning member 47 to the upstream side of the delivery member 48. This region γ has a region γ1 on the downstream side, that is, the delivery member 48 side, and a region γ2 on the upstream side, that is, the cleaning member 47 side.

  A region δ illustrated in FIG. 9 is a region adjacent to the delivery member 48 and not the region γ1. The region δ is located on the downstream side of the white arrow shown in FIG. 9 when viewed from the delivery member 48, but when the developer reaches the delivery member 48, the developer δ is supplied to the developer supply transport member 43. It is not downstream of the delivery member 48 in the transport direction. In the region δ, a spiral blade wound in the opposite direction to the direction in which the spiral blade is wound on the upstream side of the delivery member 48 is provided. Due to the spirally wound spiral blade, the developer that reaches the region δ flows backward, is collected by the delivery member 48, and is delivered to the developer supply / conveyance member 43.

As described above, the region β, the region γ, and the region δ exist in the partial region α illustrated in FIG. These areas have the following restrictions (1) and (2).
(1) None of the spiral blades provided in the region β and the region γ is provided with the discontinuous portion FR.
(2) The spiral blade provided in the region γ1 is a single blade.

  Here, when only one spiral blade is present in a cross section orthogonal to or at least crossing the axis, the spiral blade is said to be a single blade. When the discontinuous portion FR exists, the spiral blade that pushes out the developer to be conveyed is torn, so that mixing of the toner T and the developer D is promoted, but the toner conveyance speed tends to be uneven. The amount tends to be uneven. Due to the restriction (1) described above, there is no discontinuous portion FR on the upstream side and downstream side of the cleaning member 47 and up to the delivery member 48, and the conveyance speed is unlikely to be uneven. Therefore, the developer when transported through the region immediately upstream of the cleaning member 47 and the delivery member 48, that is, the region β and the region γ, is less likely to stay as compared with the case where the discontinuous portion FR is provided here.

  The cleaning member 47 is provided at a position facing the sensing surface of the toner concentration sensor unit 500. If the discontinuous portion FR is provided in the vicinity thereof, the transport speed of the developer passing through the toner concentration sensor unit 500 is not good. This tends to be uniform, and may make the detection of the toner density by the toner density sensor unit 500 unstable. Due to the restriction (1) described above, the discontinuous portion FR is not provided in the spiral blade for one pitch upstream of the cleaning member 47, and therefore, compared with the case where the discontinuous portion FR is provided, the toner density sensor unit 500 is. The developer transport speed passing through the toner is unlikely to be uneven, and the toner density sensor unit 500 detects the toner density stably. Further, since the discontinuous portion FR does not pass through the position opposite to the toner density sensor unit 500 and reaches the upstream side of the delivery member 48, the developer stirring / conveying member 42 receives the developer outside the stirring / conveying path 420. The passing speed is also stable.

Further, the delivery member 48 does not transport the developer in the direction of the white arrow shown in FIG. 9 but transports the developer in the delivery direction to be delivered to the developer supply transport member 43.
Due to the restriction (2) described above, when a single blade is provided in the region γ1 immediately upstream of the delivery member 48 and close to the delivery member 48, a plurality of spiral blades such as a double blade is provided. As compared with the above, the force for conveying the developer in the direction of the white arrow is weak. As a result, the resistance to conveyance in the delivery direction other than the outlined arrow direction by the delivery member 48 is weaker than when a plurality of spiral blades are provided in the region γ1. In other words, due to the restriction (2), the developer is unlikely to stay when being delivered to the developer supply / conveyance member 43 in the delivery member 48.

  Examples of the present invention will be described below. FIG. 10 is a diagram illustrating a developer conveyance state in the vicinity of the toner density sensor unit 500 when the developer amount is general. FIG. 11 is a diagram illustrating a developer conveyance state in the vicinity of the delivery member 48. The applicant submits the color images shown in FIGS. 10 and 11 separately in a supplementary procedure.

  FIG. 10A shows a situation in the vicinity of the toner concentration sensor unit 500 when the developer is conveyed to the developer stirring and conveying member 42 of the above-described embodiment. In the developer stirring and conveying member 42, the discontinuous portion FR is not provided in the spiral blade provided in the above-described region β and region γ.

  On the other hand, FIG. 10B shows, as a comparative example, a situation in the vicinity of the toner concentration sensor unit 500 in the developer stirring and conveying member 42c in which discontinuous portions are provided at positions corresponding to the regions β and γ. ing. Since the discontinuous portions are provided in the region β and the region γ of the developer agitating / conveying member 42c, the developer that is transported tends to stay when the discontinuous portion is reached. That is, the developer stirring and conveying member 42 according to the embodiment of the present invention is less likely to retain the developer than the developer stirring and conveying member 42c described above.

Further, even in the vicinity of the delivery member 48, the developer stirring and conveying member 42 according to the embodiment is less likely to retain the developer than the developer stirring and conveying member 42c of the comparative example. In order to confirm the degree of stay of the developer, yellow toner is conveyed at a position corresponding to the cleaning member 47 while cyan toner is conveyed by the developer agitating / conveying member 42 according to the embodiment and the developer agitating / conveying member 42c of the comparative example. Toner was charged. FIG. 11A shows the developer conveyance status in the vicinity of the delivery member 48 in the developer agitation conveyance member 42 according to the above-described embodiment, a few seconds after the yellow toner is added. FIG. 11B shows the developer conveyance status in the vicinity of the delivery member 48 in the developer stirring and conveying member 42c of the comparative example described above. Even in this case, in the comparative example, it can be seen that the yellow toner stays in the cyan toner in the region XIIb as compared to the region XIIa of the embodiment.
As described above, the developer agitating / conveying member 42 according to the present invention restricts the discontinuous portion arrangement, so that it is delivered from the position detected by the toner density sensor unit 500 to the outside of the conveying path. Until the developer is retained.

DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus, 2 ... Control part, 10 ... Photoconductor, 20 ... Charging part, 30 ... Exposure part, 40 ... Developing apparatus, 400 ... Developing container, 41 ... Developing roll, 42 ... Developer stirring conveyance member, 42c ... developer agitating / conveying member (comparative example), 43 ... developer supplying / conveying member, 420 ... agitating / conveying path, 42a ... shaft, 42aR ... regulating part, 42b ... double spiral blade, 42b1 ... spiral blade, 42b2 ... spiral blade , 42d: sharply rising end, 430 ... supply conveyance path, 43a ... shaft, 43b ... spiral blade, 45 ... supply section, 46 ... supply port, 50 ... transfer section, 60 ... fixing device, 61 ... fixing roll, 62 ... Pressure roll, 70 ... Cleaning part, 400 ... Developing container, 500 ... Toner density sensor unit, D ... Developer, E ... End point of regulating part, P ... Paper, S ... Starting point of regulating part, T ... Toner , BRU ... Upstream screw Blades, BRL: downstream spiral blades, FR: discontinuous portions, a: downstream ends of upstream spiral blades BRU, b: upstream ends of downstream spiral blades BRL, c: upstream sides The downstream end of the spiral blade BRU, d: the upstream end of the downstream spiral blade BRL

Claims (9)

A plurality of spiral blades that are formed in a spiral shape around the rotation axis, convey the object to be conveyed in the direction of the rotation axis by the rotation of the rotation axis, and have overlapping portions in a cross section that intersects the rotation axis;
Each of the spiral blades is divided into an upstream spiral blade and a downstream spiral blade, and the upstream spiral blade and the downstream spiral blade are in a phase around the rotation axis. A plurality of discontinuous portions that are regions arranged differently, and
A cleaning member for cleaning a sensing surface of a sensor for detecting an amount related to the object to be conveyed conveyed in the rotation axis direction, the cleaning member provided at a position facing the sensor of the rotation axis;
A delivery member provided on the downstream side of the cleaning member on the rotating shaft and delivering the conveyed object to be conveyed to the outside of a conveyance path that accommodates the conveyance object;
In the rotating shaft, the discontinuous portion is provided in each of the one-pitch spiral blade provided on the upstream side of the cleaning member and the spiral blade provided from the cleaning member to the delivery member. The conveying member characterized by not having. The conveying member according to claim 1, wherein the spiral blade closest to the delivery member on the upstream side of the delivery member is a single blade. 3. A regulation unit that regulates a passing amount of an object to be conveyed that flows in the conveyance direction through the divided spiral blade on the upstream side and the spiral blade on the downstream side is provided. The conveyance member as described in.   The conveying member according to claim 3, wherein the restricting portion is formed downstream from an upstream end of the downstream spiral blade. The conveying member according to claim 4, wherein the restricting portion is formed between the downstream spiral blade and the downstream end. The conveying member according to any one of claims 3 to 5, wherein the restricting portion includes an end portion that rises sharply from the rotating shaft on the upstream side. The conveying member according to any one of claims 3 to 6,
The sensor for detecting the amount related to the conveyed object further includes a sensor for detecting the toner concentration in the developer as the conveyed object,
The developing device according to claim 1, wherein the restricting portion is located upstream of a position of the sensor in a developer transport direction. A replenishing port for replenishing the toner to the conveying member;
The developing device according to claim 7, wherein the restricting portion is located downstream of the supply port in the transport direction. The developing device according to claim 7 or claim 8,
An image forming apparatus for forming an image on a supplied recording medium.