JP3669161B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as an electrophotographic copying machine or a laser printer having a fixing device using a release agent for preventing toner offset and capable of printing on both sides, and in particular, a toner formed on an image carrier. The present invention relates to an image forming apparatus that transfers an image onto a recording sheet via an intermediate transfer member.
[0002]
[Prior art]
Conventionally, for color copying machines, a recording sheet dedicated to the copying machine has been recommended from the standpoint of maintaining high image quality, and single-sided printing has been the mainstream. However, in recent years, recording sheets have general versatility and duplex printing is also possible. Also, double-sided printing is now natural for black and white copying machines and the like.
As an image forming apparatus that primarily transfers a toner image formed on an image carrier such as a photosensitive drum to an intermediate transfer member and secondarily transfers the toner image from the intermediate transfer member to a recording medium such as a recording sheet. What was disclosed by 62-206567 gazette etc. is known.
[0003]
FIG. 9 is an explanatory diagram of the prior art, which has a fixing device using a release agent for preventing toner offset, and is capable of duplex printing and records a toner image formed on an image carrier via an intermediate transfer member. It is explanatory drawing of the specific example of the double-sided color copying machine (image forming apparatus) transcribe | transferred to a sheet | seat.
In FIG. 9, reflected light from a document (not shown) placed on the platen glass PG is converted into electrical signals of R (red), G (green), and B (blue) by the CCD. An IPS (image processing system) converts the RGB electrical signals into K (black), Y (yellow), M (magenta), and C (cyan) image data and stores them, and stores the image data at a predetermined timing. And output to the laser drive circuit LD as image data for forming a latent image.
The laser drive circuit LD outputs a laser drive signal to ROS (raster of scan, latent image writing device) in accordance with the input image data.
[0004]
An image carrier 01 comprising a photosensitive drum rotates in the direction of arrow A. The surface of the image carrier 01 is uniformly charged by a charger 02 and then the ROS (latent image writing device) at a latent image writing position Q1. The laser beam L is exposed and scanned to form an electrostatic latent image. When forming a full-color image, electrostatic latent images corresponding to four color images of K (black), Y (yellow), M (magenta), and C (cyan) are sequentially formed. Only the electrostatic latent image corresponding to the (black) image is formed.
The latent image writing to the image carrier 01 by the laser beam L is started after a predetermined time has elapsed since the belt position sensor SNb detects the reference mark Bm provided on the non-image portion of the intermediate transfer belt B. . In the case of a full-color image, since the respective colors are superimposed, the time from the detection of the reference mark Bm by the belt position sensor SNb to the start of latent image writing by the laser beam L is the same for each color.
The surface of the image carrier 01 on which the electrostatic latent image is formed rotates and moves sequentially through the development area Q2 and the primary transfer area Q3.
[0005]
A rotary developing device 03 that develops the electrostatic latent image in the developing region Q2 has four colors of K (black), Y (yellow), M (magenta), and C (cyan) that rotate with the rotating shaft 03a. Developing units 03K, 03Y, 03M, and 03C are provided. Any one of the developing units 03K, 03Y, 03M, and 03C for the respective colors develops the electrostatic latent image passing through the developing area Q2 into a toner image.
The primary transfer region Q3 is a region where the intermediate transfer belt B that rotates and moves in the direction of arrow A is pressed against the surface of the image carrier 01 by a roll-shaped primary transfer device T1. A primary transfer voltage having a polarity opposite to the charging polarity of the developing toner used in the developing device 03 is supplied from the power supply circuit E to the primary transfer device T1. The power supply circuit E is controlled by a control C.
[0006]
The toner image Tn developed on the surface of the image carrier 01 is primarily transferred to the intermediate transfer belt B by the primary transfer device T1 in the primary transfer region Q3. After the primary transfer, residual toner on the surface of the image carrier 01 is cleaned by a cleaner 06.
[0007]
The intermediate transfer belt B that rotates and moves in the direction of arrow A is rotatably supported by a drive roll 07, a tension roll 08, idler rolls 09 and 09, and a backup roll 011. A secondary transfer roll 012 is arranged on the backup roll 011 so as to be separated and press-contactable (separable) with the intermediate transfer belt B interposed therebetween, and the secondary transfer roll 012 is in pressure-contact with the intermediate transfer belt B (nip). ), The secondary transfer region Q4 is formed.
An electrode roll 013 is in contact with the backup roll 011. A secondary transfer voltage having the same polarity as the charging polarity of the toner is supplied from the power supply circuit E to the electrode roll 013. The rolls 011 to 013 constitute a secondary transfer device T2.
[0008]
When forming a full color image, an electrostatic latent image of the first color is formed at the latent image writing position Q1, and a toner image Tn of the first color is formed in the development region Q2. The toner image Tn is electrostatically primary transferred onto the intermediate transfer belt B by the primary transfer unit T1 when passing through the primary transfer region Q3. Thereafter, in the same manner, the toner images Tn of the second color, the third color, and the fourth color are sequentially superposed on the intermediate transfer belt B carrying the toner image Tn of the first color, and finally transferred to the full color. Are formed on the intermediate transfer belt B.
In the case of forming a monochrome monochromatic image, only one developing device is used. In this case, the monochromatic toner image is primarily transferred onto the intermediate transfer belt B.
[0009]
In accordance with the timing when the primary-transferred multiple toner image or single-color toner image moves to the secondary transfer region Q4, a predetermined amount is supplied from the feed trays TR1 to TR3 or the reverse tray TR0 used in the case of duplex recording. The recording sheet S taken out at the timing is conveyed to the secondary transfer area Q4. In the secondary transfer region Q4, the secondary transfer unit T2 electrostatically and collectively transfers the toner image on the intermediate transfer belt B onto the recording sheet S. The residual toner is removed from the intermediate transfer belt B after the secondary transfer by a belt cleaner 014.
The recording sheet S on which the toner image is secondarily transferred is heated and fixed by the fixing device 016 when passing through the fixing region Q5, and then discharged to the recording sheet discharge tray TR4.
[0010]
The fixing device 016 includes a heating roll 017 having a heater 017h therein, and a pressure roll 018 disposed in pressure contact with the heating roll 017. The fixing device 016 fixes the toner image Tn when the recording sheet S on which the unfixed toner image Tn is formed passes between the heating roll 017 and the pressure roll 018. At the time of fixing, the unfixed toner surface of the recording sheet S is usually in direct contact with the outer peripheral surface of the heating roll 017, so that a part of the unfixed toner on the recording sheet S is transferred to the heating roll 017 side. A phenomenon (toner offset phenomenon) in which the toner is retransferred to the recording sheet S after one rotation of the heating roll 017 occurs. In order to prevent this toner offset phenomenon, a release agent coating device 019 for applying a release agent to the surface of the heating roll 017 is provided, and amine oil or silicone oil is uniformly applied to the surface of the heating roll 017.
[0011]
[Problems to be solved by the invention]
As in the image forming apparatus of FIG. 9, a toner image is primarily transferred a plurality of times from an image carrier (photosensitive drum) to a semiconductive intermediate transfer member to form a multi-color image, which is then recorded on a recording sheet. In a device capable of double-sided printing that obtains a permanent image by performing secondary transfer and fixing in a lump on the front surface (first surface) and further obtaining a permanent image on the back surface (second surface) of the recording sheet in the same process, toner offset to the fixing device When a release agent coating apparatus for preventing the phenomenon is provided, the release agent is applied on the heating roll side, but at least immediately before fixing the recording sheet, the heating roll and the pressure roll are in pressure contact. Accordingly, the release agent adheres to both the front and back surfaces of the recording sheet at the time of fixing the first surface. When the image is secondarily transferred to the back surface of the recording sheet, a release agent is attached to the surface of the intermediate transfer body from the back surface of the recording sheet, and the secondary transfer roll is attached to the secondary transfer roll from the surface of the recording sheet.
[0012]
Further, at least immediately before the secondary transfer, the intermediate transfer member and the secondary transfer roll are pressed against each other, so that the release agent attached to the secondary transfer roll also adheres to the surface of the intermediate transfer member. Due to the adhesion of the release agent to the surface of the intermediate transfer member, a difference in secondary transferability from the portion where the release agent is not attached is created, and the portion where the release agent is attached is whitened. There was a problem that occurred.
This problem also applies to an apparatus capable of double-sided printing that directly transfers from an image carrier to a recording sheet without using an intermediate transfer member, and a release agent adheres to the image carrier and white spots occur.
[0013]
For this reason, conventionally, means for removing the release agent from the surface of the intermediate transfer member, the surface of the image carrier, and the recording sheet has been proposed.
For example, the means disclosed in Japanese Patent Laid-Open No. 7-261666 removes impurities such as a release agent on the surface of the intermediate transfer member by abutting a member using a material that decomposes the impurities. However, with this means, it is considered difficult to develop a material that decomposes and removes only a specific release agent without affecting other functional parts, for example, when the surface of the intermediate transfer member has a coat layer.
[0014]
The means disclosed in Japanese Patent Application Laid-Open No. 6-148999 removes the release agent on the surface of the recording sheet after fixing with a rubbing member.
However, this means is effective when the surface is uniform and there is no penetration of the release agent, such as an OHP film. However, in ordinary paper, the release agent penetrates into the fiber of the paper. Complete removal is difficult.
[0015]
The means disclosed in Japanese Patent Laid-Open No. 5-109933 is provided with a rubbing member downstream of the image carrier cleaning device to remove the release agent attached to the image carrier.
However, this means removes the release agent while uniformly abrading the surface of the image carrier, and as a result, the life of the image carrier is shortened. Moreover, if it is intended to remove the release agent by itself, such as a roll or a web, even if it is not worn, it is difficult to remove the release agent simply by stretching while attached.
[0016]
The problem of removing the release agent is an image forming apparatus that directly transfers from a photosensitive member to a recording sheet without using an intermediate transfer member, and reverses the recording sheet on which the toner image is formed on the first surface. This also causes a problem in an apparatus for transferring a toner image on the second surface.
That is, the present invention can be applied to an apparatus that forms toner images on both sides of a recording sheet from a toner image carrier such as a photoreceptor or an intermediate transfer member that carries the toner image.
[0017]
In view of the above-described circumstances, the present invention has the following description (O01) as a problem.
(O01) In a device capable of double-sided printing having a fixing device using a release agent, a transfer roll for transferring a toner image to a recording sheet in contact with the surface of a toner image carrier such as a photosensitive member or an intermediate transfer member The mold release agent that adheres to the surface is surely removed, and image white spots due to the mold release agent are prevented.
[0018]
[Means for Solving the Problems]
Next, the present invention that has solved the above problems will be described. In the description of the present invention, the reference numerals in parentheses added after the constituent elements of the present invention are constituent elements of the embodiments described later corresponding to the constituent elements of the present invention. It is a sign. The reason why the present invention is described in correspondence with the reference numerals of the constituent elements of the embodiments described later is to facilitate the understanding of the present invention, and not to limit the scope of the present invention to the embodiments.
[0019]
(Invention)
In order to solve the above problems, an image forming apparatus according to the present invention includes the following requirements (A01) to (A08):
(A01) A toner image carrier (B) that carries a toner image (Tn) on its surface and rotates and moves through a transfer region (Q4; Q3) for transferring the toner image (Tn) to a recording sheet (S). 16),
(A02) In order to form the toner image (Tn) on the first surface of the recording sheet (S), the recording sheet (S) taken out from the paper feed trays (TR1 to TR3) is transferred to a sheet transfer area (Q4; Q3) and a sheet conveying device (St) for sequentially conveying to the fixing area (Q5),
(A03) The recording sheet (S) disposed in the sheet transfer area (Q4; Q3) and passing through the sheet transfer area (Q4; Q3) has a surface on the toner image carrier (B; 16). A transfer roll (30) for transferring a toner image (Tn);
(A04) A pair of fixing members (61, 62) for sandwiching the recording sheet (S) onto which the toner image (Tn) is transferred and fixing the toner image (Tn) on the recording sheet (S) by heating. A release agent coating device (63) for applying a release agent to the surface of the fixing member (61, 62) in order to improve the peelability of the recording sheet (S) from the surface of the fixing member (61, 62). And a fixing device (F) disposed in the fixing region (Q5),
(A05) When performing double-sided recording, the recording sheet (S) on which the toner image (Tn) is formed on the first side and the recording sheet (S) after passing through the fixing region (Q5) is turned upside down and then transferred to the sheet. The sheet conveying device (St) for sequentially retransmitting to the region (Q4; Q3) and the fixing region (Q5);
(A06) The toner adhering to the surface of the toner image carrier (B; 16) disposed along the rotational movement path of the surface of the toner image carrier (B; 16) on the downstream side of the transfer region (Q4). A toner image carrier cleaner (41; 19) having a toner image carrier cleaning member (41b; 19b) to be scraped off;
(A07) Toner disposed on the surface of the sheet transfer roll (30) on the downstream side of the sheet transfer area (Q4; Q3) is attached to the surface of the sheet transfer roll (30). A transfer roll cleaner (42) having a transfer roll cleaning member (42b) for scraping;
(A08) The surface of the toner image carrier (B; 16) between the sheet transfer region (Q4; Q3) and the toner image carrier cleaning member (41b; 19b) or the sheet transfer region (Q4; Q3). ) And the transfer roll cleaning member (42b), the release agent adhering to at least one surface of the transfer roller surface (30) for the sheet is removed, and the release agent removing powder is held on the surface. A release agent removing member (43).
[0020]
(Explanation of words)
In the present invention, “toner image carrier (B; 16)” means the following elements.
(A) In an image forming apparatus using an intermediate transfer member such as an intermediate transfer drum or an intermediate transfer belt (B), it means “intermediate transfer member”.
(B) In an image forming apparatus that does not use an intermediate transfer member, it means an “image carrier (16)” composed of a photosensitive member such as a photosensitive drum (16) or a photosensitive belt.
In the present invention, the “sheet transfer roll (30)” means the following elements.
(C) In an image forming apparatus using an intermediate transfer member such as an intermediate transfer drum and an intermediate transfer belt (B), the toner image primarily transferred to the intermediate transfer member is secondarily transferred to the recording sheet (S) “2”. It means “next transfer roll (30)”.
(D) In an image forming apparatus that does not use an intermediate transfer member, a “transfer roll” that transfers a toner image on the surface of an image carrier (16) composed of a photosensitive member such as a photosensitive drum or a photosensitive belt to a recording sheet (S). (30) ".
[0021]
In the present invention, “sheet transfer region (Q4, Q3)” means the following elements.
(E) In an image forming apparatus using an intermediate transfer member such as an intermediate transfer drum or an intermediate transfer belt (B), a “secondary transfer region (Q4)” for secondarily transferring a toner image on the surface of the intermediate transfer member to a recording sheet is provided. means.
(F) In an image forming apparatus that does not use an intermediate transfer member, a toner image on the surface of an image carrier (16) composed of a photosensitive member such as a photosensitive drum (16) or a photosensitive belt is transferred to a recording sheet (S). Means “transcription region (Q3)”.
[0022]
(Operation of the present invention)
In the image forming apparatus of the present invention having the above-described configuration, the toner image carrier (B; 16) that carries the toner image (Tn) on its surface and rotates and moves the toner image (Tn) on the recording sheet (S). It passes through the transcription region (Q4; Q3) to be transferred to. The sheet conveying device (St) transfers the recording sheet (S) taken out from the paper feed trays (TR1 to TR3) to form the toner image (Tn) on the first surface of the recording sheet (S). The sheet is sequentially conveyed to the area (Q4; Q3) and the fixing area (Q5).
A sheet transfer roll (30) disposed in the sheet transfer area (Q4; Q3) is placed on the recording sheet (S) passing through the sheet transfer area (Q4; Q3). 16) The toner image (Tn) on the surface is transferred.
A pair of fixing members (61, 62) of the fixing device (F) arranged in the fixing region (Q5) sandwich the recording sheet (S) on which the toner image (Tn) is transferred, and thereby record the recording sheet. (S) The toner image (Tn) on the surface is fixed by heating. The release agent coating device (63) of the fixing device (F) is provided with the fixing member (61, 62) in order to improve the peelability of the recording sheet (S) from the surface of the fixing member (61, 62). Apply a release agent to the surface.
[0023]
When performing double-sided recording, the sheet conveying device (St) reverses the recording sheet (S) after the toner image (Tn) is formed on the first surface and after passing through the fixing region (Q5). After that, the sheet is sequentially retransmitted to the sheet transfer area (Q4; Q3) and the fixing area (Q5).
A toner image carrier cleaning member (41b) of a toner image carrier cleaner (41; 19) disposed along the rotational movement path of the surface of the toner image carrier (B; 16) downstream of the transfer region (Q4). 19b) scrapes off the toner adhering to the surface of the toner image carrier (B; 16). The transfer roll cleaning member (42b) of the transfer roll cleaner (42) disposed along the rotational movement path of the surface of the sheet transfer roll (30) downstream of the sheet transfer region (Q4; Q3) includes: The toner adhering to the surface of the sheet transfer roll (30) is scraped off.
The release agent removing member (43) for holding the release agent removing powder on the surface is between the sheet transfer region (Q4; Q3) and the toner image carrier cleaning member (41b; 19b). Attached to the surface of the toner image carrier (B; 16) or at least one of the surfaces of the transfer roll (30) for the sheet between the transfer area (Q4; Q3) for the sheet and the transfer roll cleaning member (42b). Remove the release agent.
Since the release agent can be entangled by the release agent removing powder held on the surface of the release agent removing member (43), the release agent can be removed more reliably than when it is removed by itself such as a roll or a web. . For this reason, it is possible to prevent image blanking caused by the release agent.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1 of the present invention)
Embodiment 1 of the image forming apparatus of the present invention is characterized in that the image forming apparatus of the present invention has the following requirement (A09).
(A09) The release agent removing member (43) in rotational contact with the at least one surface.
[0025]
(Operation of Embodiment 1 of the Present Invention)
In Embodiment 1 of the image forming apparatus of the present invention having the above-described configuration, the release agent removing member (43) that is in rotational contact with the at least one surface is made of the release agent removing powder held on the surface. Since the release agent adhering to the one surface can be scraped off, the release agent can be reliably removed.
[0026]
(Embodiment 2 of the present invention)
Embodiment 2 of the image forming apparatus of the present invention is characterized in that the image forming apparatus of the present invention or Embodiment 1 of the present invention has the following requirement (A010).
(A010) The release agent removing member (43) disposed in the housing (41a, 19a) for preventing the release agent removing powder from scattering.
[0027]
(Operation of Embodiment 2 of the Present Invention)
In Embodiment 2 of the image forming apparatus of the present invention having the above-described configuration, the release agent removing member is disposed in a housing (41a, 19a) that prevents the release agent removing powder from scattering. The housing (41a, 19a) includes a toner image carrier cleaner (41, 19) that removes transfer residual toner on the surface of the intermediate transfer member and the surface of the photosensitive member, and a roll that removes toner attached to the surface of the transfer roll (30). A handling (41a, 42a, 19a) such as a cleaner (42) can be used. In this case, it is not necessary to separately install a housing cleaner for the release agent removing member (43), and the space can be used effectively.
[0028]
(Embodiment 3 of the present invention)
Embodiment 3 of the image forming apparatus of the present invention is characterized in that the image forming apparatus of the present invention or Embodiment 1 or 2 of the present invention has the following requirements (A011) and (A012). .
(A011) The release agent removing member (43) having magnetic force,
(A012) The mold release agent removing powder held on the surface of the mold release agent removing member (43) by the magnetic force.
[0029]
(Operation of Embodiment 3 of the Present Invention)
In Embodiment 3 of the image forming apparatus of the present invention having the above-described configuration, the release agent removing powder is held on the surface of the release agent removing member (43) by the magnetic force of the release agent removing member (43). Is done. For this reason, the powder for removing the release agent is hardly scattered from the surface of the release agent removing member (43) and is difficult to decrease.
[0030]
(Embodiment 4 of the present invention)
Embodiment 4 of the image forming apparatus of the present invention has the following requirements (A013) and (A014) in the image forming apparatus of the present invention or any of Embodiments 1 to 3 of the present invention. Features.
(A013) The release agent removing member (43) to which a voltage having a polarity opposite to the charging polarity of the release agent removing powder is applied,
(A014) The release agent removing powder held on the surface of the release agent removing member (43) by electrostatic force.
[0031]
(Operation of Embodiment 4 of the Present Invention)
In Embodiment 4 of the image forming apparatus of the present invention having the above-described configuration, the release agent removing member (43) is applied with a voltage having a polarity opposite to the charging polarity of the release agent removing powder. The release agent removing powder is held on the surface of the release agent removing member (43) by electrostatic force. For this reason, the powder for removing the release agent is hardly scattered from the surface of the release agent removing member (43) and is difficult to decrease.
Further, if the release agent has polarity, it can be removed more effectively by applying a voltage for electrostatically adsorbing the release agent to the release agent removing member (43). Further, since the toner and the release agent have the same polarity, electrostatic adhesion of the release agent to the intermediate transfer body (B) and the photoreceptor (16) can be reliably prevented.
[0032]
(Embodiment 5 of the present invention)
Embodiment 5 of the image forming apparatus of the present invention is characterized in that the image forming apparatus according to any one of the present invention and Embodiments 1 to 4 of the present invention has the following requirement (A015).
(A015) The above-mentioned powder for removing the release agent composed of toner.
[0033]
(Operation of Embodiment 5 of the Present Invention)
In Embodiment 5 of the image forming apparatus of the present invention having the above-described configuration, the release agent removing powder is configured by toner.
Since the transfer residual toner to which the release agent has not adhered enters the surface of the release agent removing member (43), the toner (release agent removing powder is always applied to the release agent removing member (43). ) Is supplied. Therefore, it is not necessary to supply the release agent removing powder (toner) to the release agent removing member (43).
[0034]
(Embodiment 6 of the present invention)
Embodiment 6 of the image forming apparatus of the present invention has the following requirements (A016) to (A018) in the image forming apparatus of the present invention or any one of Embodiments 1 to 5 of the present invention. Features.
(A016) An intermediate transfer body on which a toner image on the surface of a photosensitive member (16) in which an electrostatic latent image is formed on a uniformly charged surface and the electrostatic latent image is developed into a toner image is primarily transferred. B),
(A017) The toner image carrier (B) constituted by the intermediate transfer member (B), (A018) A toner image on the surface of the toner image carrier (B) constituted by the intermediate transfer member (B) is recorded. The sheet transfer roll (30) constituted by a secondary transfer roll (30) for secondary transfer to the sheet (S).
[0035]
(Operation of Embodiment 6 of the present invention)
In Embodiment 6 of the image forming apparatus of the present invention having the above-described configuration, the toner image carrier (B) is configured by an intermediate transfer member (B). On the intermediate transfer member (toner image carrier) (B), a toner image obtained by developing an electrostatic latent image formed on the surface of the uniformly charged photoreceptor (16) is primarily transferred.
The toner image on the surface of the toner image carrier (B) constituted by the intermediate transfer member (B) is transferred to the recording sheet (S) by the sheet transfer roll (30) constituted by the secondary transfer roll (30). Secondary transferred.
The release agent removing member (43) using the release agent removing powder can also be applied to such an image forming apparatus.
[0036]
(Embodiment 7 of the present invention)
Embodiment 7 of the image forming apparatus of the present invention has the following requirements (A019) to (A021) in the image forming apparatus of the present invention or any of Embodiments 1 to 5 of the present invention. Features.
(A019) A photoreceptor (16) in which an electrostatic latent image is formed on a uniformly charged surface, and the electrostatic latent image is developed into a toner image,
(A020) the toner image carrier (B; 16) constituted by the photoreceptor (16),
(A021) The above-mentioned sheet transfer roll (30) composed of a transfer roll (30) for transferring the toner image on the surface of the toner image carrier (16) composed of the above-mentioned photoreceptor (16) to the recording sheet (S). .
[0037]
(Operation of Embodiment 7 of the Present Invention)
In Embodiment 7 of the image forming apparatus of the present invention having the above-described configuration, the toner image carrier (16) is configured by the photoconductor (16). The toner image carrier (photoconductor) (16) forms an electrostatic latent image on a uniformly charged surface, and the electrostatic latent image is developed into a toner image.
The toner image on the surface of the toner image carrier (16) constituted by the photoconductor (16) is transferred to the recording sheet (S) by the sheet transfer roll (30).
The release agent removing member (43) using the release agent removing powder can also be applied to such an image forming apparatus.
[0038]
【Example】
Next, examples (examples) of the embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following examples.
In order to facilitate understanding of the following description, in the drawings, the front-rear direction is the X-axis direction, the left-right direction is the Y-axis direction, the up-down direction is the Z-axis direction, and arrows X, -X, Y, -Y, The direction indicated by Z and -Z or the indicated side is defined as front, rear, right, left, up and down, respectively.
In the figure, “•” in “○” means an arrow heading from the back of the page to the front, and “×” in “○” is the front of the page. It means an arrow pointing from the back to the back.
[0039]
(Example 1)
1 is a perspective view of an image forming apparatus according to Embodiment 1 of the present invention. FIG. 2 is a front sectional view of the first embodiment.
1 and 2, an image forming apparatus U is detachably mounted on a digital copying machine U1 as an image forming apparatus main body having a platen glass (transparent document table) PG on the upper surface, and the platen glass PG. An automatic document feeder (auto document feeder, ADF) U2 is provided.
The automatic document feeder U2 has a document feed tray TG1 on which a plurality of documents G to be copied are stacked. Each of the plurality of documents G placed on the document feed tray TG1 sequentially passes through the copy position on the platen glass PG and is discharged to the document discharge tray TG2.
The automatic document feeder U2 can be rotated with respect to the copying machine U1 by a hinge shaft (not shown) provided in the rear end portion (-X end portion) extending in the left-right direction. Is rotated upward when placed on the platen glass PG by hand.
[0040]
The copying machine U1 includes a UI (user interface), an IIT (image input terminal) as an image reading unit and an IOT (image output terminal) as an image recording operation unit, which are sequentially arranged below the platen glass PG. And an IPS (Image Processing System) provided between the IIT and the IOT.
[0041]
The UI is a part where the user inputs an operation command signal such as a copy start, and includes a display unit, a copy start button, a copy setting number input key, a color mode setting key, and the like. The display unit displays information about the current setting state of the image forming apparatus U.
The IIT as a document reading device disposed below the transparent platen glass PG on the upper surface of the copying machine main body U1 includes an exposure system registration sensor (platen registration sensor) Sp disposed at a platen registration position (OPT position) and an exposure optical system 1. have. The exposure optical system 1 has a movable lamp unit 2, and the lamp unit 2 has a document illumination lamp 3 and a first mirror 4.
The exposure optical system 1 has a moving mirror unit 6 that moves at a speed that is ½ of the moving speed of the lamp unit 2. The moving mirror unit 6 has a second mirror 7 and a third mirror 8.
[0042]
The movement and stop of the exposure optical system 1 are controlled by the detection signal of the exposure system registration sensor Sp, and always stop at the home position.
In the ADF mode in which copying is performed using the automatic document feeder (auto document feeder) U2, each document sequentially passing through the copy position on the platen glass PG while the exposure optical system 1 is stopped at the home position. G is exposed.
In the platen mode in which the operator places the document G on the platen glass PG by hand, the lamp unit 2 moves in the left-right direction (Y-axis direction) in FIG. The moving mirror unit 5 moves by a distance of ½ at a speed that is ½ of the moving speed of the lamp unit 2. At that time, since the distance between the original G and the lens 8 is kept constant, the reflected light of the original G illuminated by the lamp 3 during that time passes through the exposure optical system 1 and is a CCD (solid-state imaging device). ) Converged on. The CCD converts the reflected document light converged on the imaging surface into an electric signal.
[0043]
The IPS also has image read data output means 11 that adjusts the gain of an analog electrical signal of a read image obtained by the IIT CCD, converts it to a digital signal, performs shading correction, and the like and outputs the digital signal. Further, the IPS has a write image data output means 12 to which the image read data output from the image read data output means 11 is input. The write image data output means 12 temporarily stores the image data. The image memory 13 is provided.
The writing image data output means 12 has a function of performing data processing such as density correction and enlargement / reduction correction on the input image reading data and outputting the data to the IOT as writing image data (laser drive data). ing.
The IOT laser drive signal output device 14 to which the image write data (laser drive data) output from the IPS write image data output means 12 is input, outputs a laser drive signal corresponding to the input image data to ROS ( To an optical writing scanning device, that is, a latent image forming device).
[0044]
An image carrier 16 including a photosensitive drum disposed below the ROS rotates in the direction of arrow A. The surface of the image carrier 16 is uniformly charged by a charger 17, and then exposed and scanned by a laser beam L of the ROS (latent image writing device) at a latent image writing position Q1 to form an electrostatic latent image. Is done. When forming a full-color image, electrostatic latent images corresponding to four color images of K (black), Y (yellow), M (magenta), and C (cyan) are sequentially formed. Only the electrostatic latent image corresponding to the (black) image is formed.
The latent image writing to the image carrier 16 by the laser beam L is started after a predetermined time has elapsed since the belt position sensor SNb detects the reference mark Bm provided on the non-image portion of the intermediate transfer belt B. . In the case of a full-color image, since the respective colors are superimposed, the time from the detection of the reference mark Bm by the belt position sensor SNb to the start of latent image writing by the laser beam L is the same for each color.
The surface of the image carrier 16 on which the electrostatic latent image is formed rotates and moves sequentially through the development area Q2 and the primary transfer area Q3.
[0045]
A rotary type developing device D that develops the electrostatic latent image in the developing area Q2 includes a rotation axis Da and K (black), Y (yellow), M (magenta), and the like mounted around the rotation axis Da. C (cyan) four-color developing devices DK, DY, DM, and DC are provided. Any one of the developing devices DK, DY, DM, and DC for the respective colors develops the electrostatic latent image passing through the developing area Q2 into a toner image.
The primary transfer region Q3 is a region where the intermediate transfer belt B that rotates and moves in the direction of arrow A is pressed against the surface of the image carrier 16 by a roll-shaped primary transfer device T1. A primary transfer voltage having a polarity opposite to the charging polarity of the developing toner used in the developing device D is supplied from the power supply circuit E to the primary transfer device T1. The power supply circuit E is controlled by a control C.
[0046]
The toner image Tn developed on the surface of the image carrier 16 is primarily transferred to the intermediate transfer belt B by the primary transfer device T1 in the primary transfer region Q3. After the primary transfer, residual toner on the surface of the image carrier 16 is cleaned by a cleaner 19.
The intermediate transfer belt B is formed to have a thickness of 0.1 mm, for example, by containing an appropriate amount of an antistatic agent such as carbon black in resins or various rubbers such as polyimide, polycarbonate, polyester, urethane, nylon, acrylic, and vinyl chloride. Single layer belt. The intermediate transfer belt B can be formed in multiple layers.
[0047]
The intermediate transfer belt B that rotates and moves in the direction of the arrow A is rotatably supported by a drive roll 26, a tension roll 27, idler rolls 28 and 28, and a backup roll 29. A secondary transfer roll 30 is disposed on the backup roll 29 so as to be separated and press-contactable (separable) with the intermediate transfer belt B interposed therebetween, and the secondary transfer roll 30 is in pressure-contact with the intermediate transfer belt B (nip). ), The secondary transfer region Q4 is formed.
An electrode roll 31 is in contact with the backup roll 29. A secondary transfer voltage having the same polarity as the charging polarity of the toner is supplied from the power supply circuit E to the electrode roll 31. The rolls 29 to 31 constitute a secondary transfer device T2.
[0048]
The backup roll 29 is formed by covering an insulating roll with a semiconductive thin film. This thin film is formed to a thickness of 10 μm to 200 μm, and its surface resistivity is 10 ⁷ -10 ¹¹ It is adjusted to Ω / □ (□ = unit area).
The secondary transfer roll 30 has a mandrel grounded and a volume resistivity of the surface layer of 10 ⁷ It is a conductive roll of Ωcm or less.
[0049]
When forming a full color image, an electrostatic latent image of the first color is formed at the latent image writing position Q1, and a toner image Tn of the first color is formed in the development region Q2. The toner image Tn is electrostatically primary transferred onto the intermediate transfer belt B by the primary transfer unit T1 when passing through the primary transfer region Q3. Thereafter, in the same manner, the toner images Tn of the second color, the third color, and the fourth color are sequentially superposed on the intermediate transfer belt B carrying the toner image Tn of the first color, and finally transferred to the full color. Are formed on the intermediate transfer belt B.
In the case of forming a monochrome monochromatic image, only one developing device is used. In this case, the monochromatic toner image is primarily transferred onto the intermediate transfer belt B.
[0050]
The recording sheet S accommodated in the paper feed trays TR1 to TR3 or the recording sheet S temporarily accommodated in the reversing tray TR0 used in the case of double-sided recording is taken out by the pick-up roll 36 at a predetermined timing and separated. The sheets are separated one by one at 37 and conveyed to a registration roll 39 by a plurality of conveyance rolls 38.
The recording sheet S transported to the registration roll 39 is transported to the secondary transfer area Q4 at the same timing as the primary transferred multiple toner image or single color toner image moves to the secondary transfer area Q4. The
In the secondary transfer region Q4, the secondary transfer device T2 electrostatically and collectively transfers the toner image on the intermediate transfer belt B onto the recording sheet S. The residual toner is removed from the intermediate transfer belt (toner image carrier) B after the secondary transfer by a belt cleaner (toner image carrier cleaning member) 41. Further, the secondary transfer roll 30 collects the surface-adhered toner by a secondary transfer roll cleaner 42.
[0051]
FIG. 3 is an explanatory diagram of a belt cleaner and a secondary transfer roll cleaner used in Embodiment 1 of the image forming apparatus, FIG. 3A is an explanatory diagram of the belt cleaner, and FIG. 3B is an explanatory diagram of a secondary transfer roll cleaner.
In FIG. 3, the belt cleaner 41 has a housing 41a, a cleaning blade 41b, and a release agent removing member 43 disposed on the upstream side of the cleaning blade 41b. Further, the secondary transfer roll cleaner 42 includes a housing 42 a, a cleaning blade (transfer roll cleaning member) 42 b, and a release agent removing member 43 configured similarly to the release agent removing member 43.
The release agent removing member 43 is made of foamed urethane rubber fixed to a substrate 44 supported by the housing 41a or 42a. The foamed urethane rubber release agent removing member 43 holds toner on the surface thereof. The material of the release agent removing member 43 is not limited to this as long as the toner can be held to some extent on the surface thereof and the hardness is such that the surface of the intermediate transfer belt B or the secondary transfer roll 30 is not worn or damaged. Further, since the secondary transfer residual toner is supplied to the release agent removing member 43, a new toner replenishing device is not required.
[0052]
Note that the secondary transfer roll 30 and the belt cleaner 41 are disposed so as to be freely separated from the intermediate transfer belt B. When a color image is formed, an unfixed toner image of the final color is transferred to the intermediate transfer belt B. Until the primary transfer is performed. The secondary transfer roll cleaner 42 moves away from and in contact with the secondary transfer roll 30.
The recording sheet S on which the toner image is secondarily transferred is conveyed to the fixing region Q5 by the sheet guide 46 and the sheet conveying belt 47, and is heated and fixed by the fixing device F when passing through the fixing region.
[0053]
A switching gate 51 disposed on the downstream side of the fixing device F switches the conveyance direction of the recording sheet S that has passed through the fixing device F to either the discharge tray 52 or the sheet reversing path 53. A plurality of sheet conveying rolls 54 are arranged along the sheet reversing path 53. The sheet reversing path 53 is connected to the reversing tray TR0 via a sheet circulation path 56.
A sheet-like and comb-toothed Mylar gate 58 provided at a connection portion between the sheet reversing path 53 and the sheet circulation path 56 causes the recording sheet S to be elastically deformed when the passing recording sheet S is conveyed downward. When the recording sheet S that has passed through the Mylar gate 58 is switched back and conveyed upward, the recording sheet S is guided in the direction of the sheet circulation path 56.
In the case of duplex copying, the recording sheet S to which the toner image on the first surface is transferred is reversed by the sheet reversing path 53 and temporarily stored in the reversing tray TR0, and then taken out at a predetermined timing and the secondary transfer region Q4. The toner image is transferred to the second side.
The sheet conveying device St is composed of the components indicated by the reference numerals 36 to 39, 46, 47, 51 to 58.
[0054]
(Fixing device)
The fixing device F includes a pair of fixing rolls 61 and 62 including a heating roll 61 having a heater (not shown) therein and a pressure roll 62 disposed in pressure contact with the heating roll 61. ing. The fixing device F fixes the toner image Tn when the recording sheet S on which the unfixed toner image Tn is formed passes through the fixing region Q5 between the heating roll 61 and the pressure roll 62.
At the time of fixing, usually, the unfixed toner surface of the recording sheet S is in direct contact with the outer peripheral surface of the heating roll 61, so that a part of the unfixed toner on the recording sheet S is transferred to the heating roll 62 side. A phenomenon (toner offset phenomenon) in which the toner is retransferred to the recording sheet S after one rotation of the heating roll 61 occurs. In order to prevent this toner offset phenomenon, a release agent application device 63 for applying a release agent to the surface of the heating roll 61 is provided. The release agent coating device 63 uniformly applies amine oil or silicone oil to the surface of the heating roll 61.
[0055]
(Operation of Example 1)
A urethane urethane rubber release agent removing member 43 is in contact with the surface of the intermediate transfer belt B, and toner is interposed between the surface of the intermediate transfer belt B and the release agent removing member 43.
FIG. 4 is a graph showing the relationship between the amount of release agent adhering to the surface of the intermediate transfer belt B and white spots.
The conditions for obtaining the graph of FIG. 4 are a printing speed of 220 mm / sec and a release agent amount (so-called oil rate) supplied by the release agent application device 63 is 5 μl / A4. Here, the oil rate was measured with an atomic absorption spectrophotometer AA6600G manufactured by Shimadzu Corporation.
[0056]
Also, in a high humidity environment, the paper is water-containing, and the release agent does not penetrate into the recording sheet (paper) S so much during fixing and adheres to the surface of the recording sheet S. Since it is transferred, the adverse effect of the release agent is increased. Therefore, the experiment was conducted in a high temperature and high humidity environment (28 ° C., 85% RH). Under the above conditions, the relationship between the amount of the release agent on the surface of the intermediate transfer belt B after printing 100 sheets on both sides and the white spot was compared between the conventional (no release agent removing means) and the present invention.
Here, the amount of the release agent on the surface of the intermediate transfer belt B was obtained by elemental analysis of the Si component contained in the release agent with a fluorescent X-ray analyzer RIX1000 manufactured by Rigaku Denki Kogyo and obtained as the Si strength (kcps). As a result, when there was no conventional release agent removing means, white spots occurred at 0.2 kcps.
[0057]
Further, the urethane foam rubber is brought into contact with the downstream of the belt cleaner 41 and an attempt is made to remove the release agent in a state where no toner is present, but the removal is possible as compared with the case where the release agent removing member 43 is not provided. White spots have occurred. Here, the amount of the mold release agent in which white spots occur was 0.15 kcps or more. In contrast, when the release agent removing member 43 made of urethane foam rubber of the present invention was in contact with toner on the surface, a considerable amount of the release agent could be removed and no white spots occurred.
As described above, the release agent attached to the surface of the intermediate transfer belt B can be removed by the presence of the toner.
[0058]
(Example 2)
FIG. 5 is an explanatory diagram of a main part of the image forming apparatus according to the second embodiment of the present invention.
In the description of the second embodiment, components corresponding to those of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The second embodiment is different from the first embodiment in the following points, but is configured in the same manner as the first embodiment in other points.
In Example 2, the release agent used in the release agent coating device 63 was amine oil, and the polarity was a positive polarity opposite to that of the toner. Therefore, a minus bias (see FIG. 5) was applied to the release agent removing member 43.
In the second embodiment, as shown in FIG. 4, the release agent can be removed more effectively than when no bias is applied.
[0059]
(Example 3)
FIG. 6 is an explanatory diagram of a main part of the image forming apparatus according to the third embodiment of the present invention.
In the description of the third embodiment, components corresponding to those of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The third embodiment is different from the first embodiment in the following points, but is configured in the same manner as the first embodiment in other points.
The release agent removing member 43 has a magnetic force, and a mixed powder of about 50 μm of magnetic powder and toner is held on the outer periphery of the surface, and the mixed powder is in contact with the surface of the intermediate transfer belt B. The release agent removing member 43 rotates with a difference in peripheral speed in the opposite direction or the same direction as the rotation direction of the intermediate transfer belt B. Further, since the secondary transfer residual toner is supplied to the release agent removing member 43, a new toner replenishing device is not required.
With the above configuration, as shown in FIG. 4, the release agent attached to the surface of the intermediate transfer belt B can be removed by the presence of toner.
[0060]
(Example 4)
FIG. 7 is an explanatory diagram of a main part of the image forming apparatus according to the fourth embodiment of the present invention.
In the description of the fourth embodiment, components corresponding to those of the third embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The fourth embodiment is different from the third embodiment in the following points, but is configured in the same manner as the third embodiment in other points.
A minus bias was applied to the release agent removing member 43.
As shown in FIG. 4, Example 4 having the above-described configuration can remove the release agent more effectively than when no voltage is applied.
[0061]
According to experiments conducted by the present inventors including Examples 1 to 4 described above, when the release agent has a polarity opposite to that of the toner, the release agent adhering to the paper during the secondary transfer is considerably large. In the ratio, the intermediate transfer belt B is transferred to the surface. This release agent can be removed by the method described above, but by making the release agent the same polarity as the toner, the transfer to the surface of the intermediate transfer belt B can be suppressed as much as possible, and the secondary transfer roll It is also possible to contact the release agent removing member 43 only on the surface 30 and omit the release agent removing member 43 on the surface of the intermediate transfer belt B. This is because a slight release agent can be removed by the toner staying at the tip of the cleaning blade 41b.
[0062]
(Example 5)
FIG. 8 is an explanatory diagram of Embodiment 5 of the image forming apparatus of the present invention.
In the description of the fifth embodiment, components corresponding to those of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The fifth embodiment is different from the first embodiment in the following points, but is configured in the same manner as the first embodiment in other points.
In the image forming apparatus U of the fifth embodiment, the intermediate transfer belt B of the first embodiment is omitted, and black development for forming a monochrome image is performed instead of the rotary color developing apparatus D of the first embodiment. A device D ′ is provided.
[0063]
Accordingly, the toner image formed on the surface of the image carrier 16 constituted by the photosensitive drum is transferred to the recording sheet S in the transfer region Q3. The cleaner 19 that cleans residual toner on the surface of the image carrier 16 includes a housing 19a, a cleaning blade 19b, and a release agent removing member 43 disposed on the upstream side of the cleaning blade 19b.
In the fifth embodiment, since the cleaner 19 and the secondary transfer cleaner 42 have a release agent removing member 43, when performing double-sided recording of a monochrome image, the image carrier 16 is similar to the first embodiment. The release agent on the surface and the surface of the transfer roll T1 can be removed.
[0064]
(Effects of Examples 1 to 5)
Since the release agent such as a toner is present on the surface of the release agent removing member 43 so that the release agent can be entangled, the release agent can be more securely removed than when the roll or web is removed alone. Can be removed.
Further, the arrangement space can be effectively used by providing the release agent removing member 43 in the housing of the cleaner. Further, since the transfer residual toner to which the release agent is not attached always enters the cleaner, the toner is always supplied to the release agent removing member 43 as well. Therefore, it is not necessary to supply the release agent removing member 43 such as toner to the release agent removing member 43. Further, if the release agent has polarity, it can be removed more effectively by applying a voltage for electrostatically adsorbing the release agent to the release agent removing member 43. Furthermore, by using a release agent having the same charging polarity as that of the toner, electrostatic adhesion of the release agent to the intermediate transfer member or the photosensitive member can be reliably prevented.
[0065]
(Example of change)
Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various design changes can be made without departing from the present invention described in the claims. Is possible. Modified embodiments of the present invention are illustrated below.
(H01) The present invention can also be applied to an image forming apparatus using an intermediate transfer drum.
(H02) As a fixing member of the fixing device F, instead of using a pair of fixing rolls constituted by a heating roll 61 and a pressure roll 62, a fixing belt is used for either one or both, or either one is used. In addition, it is possible to use a conventionally known fixing film or fixing pad.
[0066]
【The invention's effect】
The image forming apparatus of the present invention described above can achieve the following effects.
(E01) A transfer roll for transferring a toner image to a recording sheet in contact with the surface of a toner image carrier such as a photosensitive member or an intermediate transfer member in an apparatus capable of double-sided printing having a fixing device using a release agent It is possible to reliably remove the release agent attached to the surface and prevent image blanking due to the release agent adhesion.
[Brief description of the drawings]
FIG. 1 is a perspective view of an image forming apparatus according to a first embodiment of the present invention.
FIG. 2 is a front sectional view of the first embodiment.
3 is an explanatory view of a belt cleaner and a secondary transfer roll cleaner used in Embodiment 1 of the image forming apparatus, FIG. 3A is an explanatory view of a belt cleaner, and FIG. 3B is an explanatory view of a secondary transfer roll cleaner. It is.
FIG. 4 is a graph showing the relationship between the amount of release agent adhering to the surface of the intermediate transfer belt B and white spots.
FIG. 5 is an explanatory diagram of a main part of an image forming apparatus according to a second embodiment of the present invention.
FIG. 6 is an explanatory diagram of a main part of an image forming apparatus according to a third embodiment of the present invention.
FIG. 7 is an explanatory diagram of a main part of an image forming apparatus according to a fourth embodiment of the present invention.
FIG. 8 is an explanatory diagram of Embodiment 5 of the image forming apparatus of the present invention.
FIG. 9 is an explanatory diagram of the prior art, having a fixing device using a release agent for preventing toner offset, capable of duplex printing, and a toner image formed on an image carrier as an intermediate transfer member. FIG. 2 is an explanatory diagram of a specific example of a double-sided color copying machine (image forming apparatus) that transfers to a recording sheet via a sheet.
[Explanation of symbols]
F: Fixing device, Q3: Transfer area (primary transfer area), Q4: Sheet transfer area,
Q5: fixing region, S: recording sheet, St: sheet conveying device, Tn: toner image,
TR1 to TR3 ... paper feed tray,
DESCRIPTION OF SYMBOLS 16 ... Image carrier, 19 ... Toner image carrier cleaner, 30 ... Transfer roll, 42 ... Transfer roll cleaner, 43 ... Release agent removal member, 63 ... Release agent application apparatus.

Claims (8)

An image forming apparatus having the following requirements (A01) to (A08):
(A01) a toner image carrier that carries a toner image on its surface and rotates and moves through a transfer region for transferring the toner image to a recording sheet;
(A02) a sheet conveying device that sequentially conveys a recording sheet taken out from a paper feed tray to a sheet transfer area and a fixing area in order to form a toner image on one surface of the recording sheet;
(A03) a sheet transfer roll for transferring a toner image on the surface of the toner image carrier to a recording sheet disposed in the sheet transfer area and passing through the sheet transfer area;
(A04) A pair of fixing members that sandwich and heat-fix the toner image on the recording sheet by sandwiching the recording sheet onto which the toner image has been transferred, and the recording sheet in order to improve the releasability of the recording sheet from the surface of the fixing member A fixing device disposed in the fixing region, and a release agent coating device that applies a release agent to the surface of the fixing member.
(A05) When carrying out double-sided recording, the sheet conveyance in which a toner image is formed on the first surface and the recording sheet after passing through the fixing area is reversed and then retransmitted sequentially to the sheet transfer area and fixing area apparatus,
(A06) A toner image carrier having a toner image carrier cleaning member disposed along the rotational movement path of the surface of the toner image carrier downstream of the transfer region and scraping off the toner adhering to the surface of the toner image carrier. Body cleaner,
(A07) A transfer roll cleaner having a transfer roll cleaning member disposed along the rotational movement path of the surface of the sheet transfer roll on the downstream side of the sheet transfer area and scraping off toner adhering to the surface of the sheet transfer roll. ,
(A08) At least one of the surface of the toner image carrier between the sheet transfer region and the toner image carrier cleaning member or the surface of the sheet transfer roll between the sheet transfer region and the transfer roll cleaning member. The release agent removing member that removes the release agent attached to the surface and holds the release agent removing powder on the surface. The image forming apparatus according to claim 1, comprising the following requirement (A09):
(A09) The release agent removing member that is in rotational contact with the at least one surface. The image forming apparatus according to claim 1, comprising the following requirement (A010):
(A010) The release agent removing member disposed in the housing for preventing the release agent removing powder from scattering. The image forming apparatus according to claim 1, comprising the following requirements (A011) and (A012):
(A011) The release agent removing member having magnetic force,
(A012) The release agent removing powder held on the surface of the release agent removing member by the magnetic force. The image forming apparatus according to any one of claims 1 to 3, comprising the following requirements (A013) and (A014):
(A013) The release agent removing member to which a voltage having a polarity opposite to the charging polarity of the release agent removing powder is applied,
(A014) The release agent removing powder held on the surface of the release agent removing member by electrostatic force. The image forming apparatus according to claim 1, comprising the following requirement (A015):
(A015) The above-mentioned powder for removing the release agent composed of toner. The image forming apparatus according to claim 1, comprising the following requirements (A016) to (A018):
(A016) An intermediate transfer member on which an electrostatic latent image is formed on a uniformly charged surface, and the toner image on the surface of the photosensitive member obtained by developing the electrostatic latent image into a toner image is primarily transferred;
(A017) the toner image carrier constituted by the intermediate transfer member,
(A018) The sheet transfer roll comprising a secondary transfer roll for secondary transfer of the toner image on the surface of the toner image carrier constituted by the intermediate transfer member to a recording sheet. The image forming apparatus according to any one of claims 1 to 6, comprising the following requirements (A019) to (A021):
(A019) a photosensitive member on which an electrostatic latent image is formed on a uniformly charged surface, and the electrostatic latent image is developed into a toner image;
(A020) the toner image carrier constituted by the photoconductor;
(A021) The sheet transfer roll comprising a transfer roll for transferring the toner image on the surface of the toner image carrier constituted by the photoconductor to a recording sheet.

Images